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International Management and Modern Languages Unit Catalogue

ECOI0006: Introductory microeconomics

Semester 1

Credits: 6

Contact:

Topic: Economics

Level: Level 1

Assessment: EX50 OT50

Requisites: Ex ECOI0001

Aims & learning objectives:
The course is designed to provide an introduction to the methods of microeconomic analysis, including the use of simple economic models and their application. Students should gain an ability to derive conclusions from simple economic models and evaluate their realism and usefulness.
Content:
An introduction to economic methodology; the concept of market equilibrium; the use of demand and supply curves, and the concept of elasticity; elementary consumer theory, indifference curves and their relationship to market demands; elementary theory of production, production possibilities and their relationship to cost curves; the supply behaviour of competitive firms and its relationship to supply curves; the idea of general competitive equilibrium; the efficiency properties of competitive markets; examples of market failure.


ECOI0007: Introductory macroeconomics

Semester 2

Credits: 6

Contact:

Topic: Economics

Level: Level 1

Assessment: EX50 OT50

Requisites: Ex ECOI0002

Aims & learning objectives:
The course is designed to provide an introduction to the methods of macroeconomic analysis, including the use of simple macroeconomic models and their application in a UK policy context.
Content:
The circular flow of income and expenditure; national income accounting; aggregate demand and supply; the components and determinants of private and public aggregate expenditure in closed and open economies; output and the price level in the short- and long -run; monetary institutions and policy. The analysis of inflation and unemployment policies, the balance of payments and exchange rates, savings and economic growth.


ECOI0010: Intermediate microeconomics

Semester 1

Credits: 6

Contact:

Topic: Economics

Level: Level 2

Assessment: EX50 OT50

Requisites: Pre ECOI0006

Aims & learning objectives:
The aim is to provide students specialising in economics with the analytical foundations for the study of resource allocation within the household, firm, government, or other institutions in a modern economy. It is essential for anyone wishing to undertake further study of the economics of industry, labour, environment and other sectoral economic issues.
Content:
The course will cover the theory of consumer behaviour, the theory of the firm in a competitive situation, industrial organisation and imperfect competition, the theory of factor markets, the economics of information, welfare economics and general equilibrium theory.


ECOI0018: Mathematical economics

Semester 2

Credits: 6

Contact:

Topic: Economics

Level: Level 2

Assessment: EX80 CW20

Requisites: Pre ECOI0006, Pre ECOI0007

Aims & learning objectives:
The aim of this course is to equip students with an understanding of, and an ability to use, mathematical methods in economics
Content:
The course covers constrained optimisation for the household and the firm using the Lagrangian method, including duality; linear programming; matrix algebra as applied to input-output analysis and macro-models; the use of first and second order difference and differential equations in economic dynamics; simple non-linear dynamics. Students who have completed the first year of a Mathematics degree programme or have A-level Mathematics may also take this unit.


ECOI0024: Economics of development 1

Semester 1

Credits: 6

Contact:

Topic: Economics

Level: Level 3

Assessment: EX50 ES30 CW20

Requisites: Pre ECOI0001, Pre ECOI0002, Pre ECOI0006, Pre ECOI0007

Aims & learning objectives:
To relate economic theory to debates over the determinants of global poverty, and over the prospects for economic development and poverty reduction in low and middle income countries.
Content:
The status of development economics as a sub-discipline. Open and closed dual economy models of industrialization. Industrialization and trade strategies. Definition and measurement of poverty. Models of the farm-household, and theories of agrarian change. Demographic transition and the environment. As well as the stated pre-requisites students must also have taken at least 2 second year economics units.


ECOI0025: Economics of development 2

Semester 2

Credits: 6

Contact:

Topic: Economics

Level: Level 3

Assessment: EX50 ES50

Requisites: Pre ECOI0024, Pre ECOI0028

Aims & learning objectives:
To apply general theories of economic development to contemporary issues in selected low and middle income countries, and to understand the relationship between economics and other social science disciplines relevant to the analysis of these issues.
Content:
Development economics is first located within the wider framework of development studies. Contemporary policy issues in selected low and middle income countries are then considered, with a current focus on the origins, components and effects of stabilisation and structural adjustment in Sub-Saharan Africa and South Asia.


ECOI0026: Economics of transition

Semester 2

Credits: 6

Contact:

Topic: Economics

Level: Level 3

Assessment: EX100

Requisites: Pre ECOI0010, Pre ECOI0011

Aims & learning objectives:
To use economic analysis to understand the changes which are taking place in Central and Eastern Europe and the former Soviet Union, relating them to the creation of market economies.
Content:
Topics covered will include the speed and sequencing of adjustment; privatisation; financial markets; foreign trade; growth and inflation; legal changes; the labour market; public finance issues.


ECOI0027: International monetary economics

Semester 2

Credits: 6

Contact:

Topic: Economics

Level: Level 3

Assessment: EX100

Requisites: Pre ECOI0010, Pre ECOI0011

Aims & learning objectives:
The aim is to present a fairly rigorous account of the material that relates to monetary aspects of an open economy. The emphasis is on theory and analysis rather than policy. Students should gain a critical appreciation of the theoretical tools used in this important area of economics alongside an understanding of the different "economic" worlds they can be used to create.
Content:
The course tries to emphasise debate by generally constrasting a Keynesian real side approach with a more classically inspired monetary approach. Specific topics include: the nature and significance of the balance of payments; parity concepts; the "efficient markets" hypothesis; devaluation; open economy macroeconomics; flexible versus fixed exchange rates; the foreign trade sector, "Europe" and international policy co-ordination.


ECOI0028: Economic growth & natural resources

Semester 1

Credits: 6

Contact:

Topic: Economics

Level: Level 3

Assessment: EX100

Requisites: Pre ECOI0010, Pre ECOI0011

Aims & learning objectives:
The aim is to provide a fairly sophisticated account of theories of economic growth and of natural resource use, leading on to a discussion of the concept of sustainable development. Though the course draws on some techniques of dynamic optimisation, the emphasis is on economic intuition and empirical relevance rather than rigorous mathematical proof.
Content:
The neo-classical model of growth; endogenous growth; optimal saving; depletion of exhaustible resources; management of renewable resources; intergenerational equity; sustainable development.


ECOI0029: Environmental economics

Semester 2

Credits: 6

Contact:

Topic: Economics

Level: Level 3

Assessment: EX100

Requisites: Pre ECOI0010

Aims & learning objectives:
The course provides the economic perspective on environmental regulation and on the management of natural resources. The emphasis is on the use of economic tools to value environmental impacts and the use of natural resources; and to design cost effective methods of controlling pollution and misuse of the natural environment.
Content:
The course will discuss the welfare economic basis of environmental economics and why market systems do not provide adequate environmental protection. It will go on to study different methods of valuing the environment and on regulating it in a national context. Finally it will deal with the theme of environment and development, and the idea of sustainable development.


ECOI0030: Advanced microeconomics

Semester 2

Credits: 6

Contact:

Topic: Economics

Level: Level 3

Assessment: EX100

Requisites: Pre ECOI0010, Pre ECOI0018

Aims & learning objectives:
The aim of this course is to build on second year microeconomics and introduce topics that are the subject of recent academic research. This will provide students with: (i) an understanding of the scope of modern microeconomics and its applications, (ii) an ability to read and understand current literature in microeconomics, (iii) an ability to use advanced microeconomic concepts in analysing specific issues.
Content:
The course covers topics that deal with three inter-related issues: the passage of time, uncertainty about the future, the use of information. These include: the principles of decision making under uncertainty, with applications to insurance, stock-markets and firm behaviour; investment behaviour of firms under certainty and uncertainty; problems of asymmetric information; screening and signalling; strategic behaviour.


ECOI0031: Advanced macroeconomics

Semester 1

Credits: 6

Contact:

Topic: Economics

Level: Level 3

Assessment: EX100

Requisites: Pre ECOI0011

Aims & learning objectives:
The aim of this course is to build on second year macroeconomics and introduce topics that are the subject of recent academic research, this will provide students with: (I) anunderstanding of the scope of modern macroeconomics and its applications, (ii) an ability to read and understand current literature in macroeconomics, (iii) an ability to use advanced macroeconomic concepts in analysing specific issues.
Content:
The course covers in depth two inter-related issues: the causes of business cycles and of unemployment. Topics covered include modern real business cycle theory; endogenous business cycles, simple non-linear models, wage and price rigidity, insider and outsider behaviour, efficiency wages and unemployment hysteresis.


ECOI0034: International trade

Semester 1

Credits: 6

Contact:

Topic: Economics

Level: Level 3

Assessment: EX100

Requisites: Pre ECOI0010

Aims & learning objectives:
The aim of the course is to provide an understanding of the way in which economic theory can be applied to issues such as why countries engage in international trade and why they adopt trade restraints. The emphasis of the course is on theory and analysis rather than description. Students will become more skilled in understanding and applying economic analysis and more aware of economic debates concerning current issues in international trade.
Content:
After an introduction to basic concepts, the topics discussed will include: comparative advantage; the gains from trade; adjustment costs; the Heckscher-Ohlin-Samuelson model; the Specific Factors Model; theories of intra-industry trade; the costs of protection, smuggling, trade taxes as a revenue source; the optimum tariff; export subsidies; international cartels, quotas and voluntary export restraint,; international integration; multinational enterprises and the welfare effects of the international movement of factors of production.


ECOI0035: Public expenditure & public choice

Semester 1

Credits: 6

Contact:

Topic: Economics

Level: Level 3

Assessment: EX100

Requisites: Pre ECOI0010

Aims & learning objectives:
The aim of the course is to examine alternative ways by which the allocation of resources within the public sector can be evaluated. Criteria for evaluation of public expenditure are discussed and techniques, such as cost benefit analysis, are appraised. An important learning objective is to develop an understanding of how different perspectives can be applied. In particular, the standard public finance approach is contrasted with the more recent public choice approach. The course is theoretical and analytical rather than descriptive.
Content:
The course begins with a review of welfare economics (- as public expenditure analysis is applied welfare economics). Market failure and the rationale for government intervention is assessed. The impact of alleged failings in the political process is also assessed. The behaviour of voters, political parties, bureaucrats and pressure groups is analysed using microeconomic theory. The growth of the public sector is considered in terms of both market and government failure. Techniques for public sector appraisal are discussed.


ECOI0036: Economics of taxation

Semester 2

Credits: 6

Contact:

Topic: Economics

Level: Level 3

Assessment: EX100

Requisites: Pre ECOI0010, Pre ECOI0011

Aims & learning objectives:
The aim is to provide criteria which can be used to assess different taxes. The student will learn how to appraise tax reform against a set of criteria which include efficiency, equity, etc. The learning objective is to develop skills associated with the application of economic theory. The course is theoretical and analytical rather than descriptive.
Content:
The course begins with an analysis of the welfare costs of taxation. Tax incidence is discussed. The effect of tax on work effort, saving and risk taking is explored (and, in particular, the claims of supply-side economists are assessed). Tax expenditures (e.g. tax relief for charitable giving) are appraised. Tax evasion and policy to deter tax evasion is discussed International taxation is considered. The choice between taxation and government borrowing is examined.


ECOI0037: Macroeconomic modelling

Semester 2

Credits: 6

Contact:

Topic: Economics

Level: Level 3

Assessment: EX100

Requisites:

Aims & learning objectives:
The aim is to provide a thorough grounding in the practice, techniques and limitations of macroeconomic modelling.
Content:
Building a macroeconomic model, optimisation subject to the constraints of a model, comparison of UK macroeconomic models and industry forecasting models.


ECOI0038: Advanced econometrics 1

Semester 1

Credits: 6

Contact:

Topic: Economics

Level: Level 3

Assessment: EX100

Requisites: Pre ECOI0021, Pre ECOI0020

Aims & learning objectives:
The aim is to extend the knowledge of econometrics to a very high and rigorous level. The language is a combination of matrix algebra and maximum likelihood. The emphasis is on both theory and applications in equal measure. The course concentrates on both time series analysis and cross section analysis.
Content:
The course builds on the econometrics course and includes 3sls, fiml, probit, logit and other limited dependent variable techniques and sure.


ECOI0039: Advanced econometrics 2

Semester 2

Credits: 6

Contact:

Topic: Economics

Level: Level 3

Assessment: EX100

Requisites: Pre ECOI0038

Aims & learning objectives:
The aim is to extend the knowledge of econometrics to a very high and rigorous level. The language is a combination of matrix algebra and maximum likelihood. The emphasis is on both theory and applications in equal measure. The course concentrates on both time series analysis.
Content:
The course builds on the Advanced Econometrics I course and includes splines, vars, Granger causality, Box and Cox methods and spectral analysis.


ECOI0044: Prices & markets

Semester 1

Credits: 5

Contact:

Topic: Economics

Level: Level 1

Assessment: EX100

Requisites:

Aims & learning objectives:
This course aims to provide an understanding of the theory of price determination in different market structures, and the influence of the macro economy on the business environment. The unit aims to develop students understanding of the forces determining supply and demand for the individual firm in both product and factor markets. The effects of taxes and the role of government in markets will be discussed.
Content:
The subject matter of economics. The macro economic environment: circular flow of income including role of government and foreign trade. Specialisation and exchange. Markets, prices and allocation. Non-market allocation; role of government. Household behaviour. Business behaviour; production and costs; market structure - perfect competition, monopoly, monopolistic competition. Demand for factors ; wage determination; investment.


ECOI0045: Placement

Academic Year

Credits: 60

Contact:

Topic:

Level: Level 2

Assessment:

Requisites:

Aims & learning objectives:
The placement period enables the student to gain valuable practical experience.
Content:
Please see the Director or Studies or course tutor for details about individual placements.


ELEC0047: Design & realisation of integrated circuits

Semester 2

Credits: 6

Contact:

Topic:

Level: Undergraduate Masters

Assessment: EX100

Requisites:

Aims & learning objectives:
This course covers all aspects of the realisation of integrated circuits, including both digital, analogue and mixed-signal implementations. Consideration is given to the original specification for the circuit which dictates the optimum technology to be used also taking account of the financial implications. The various technologies available are described and the various applications, advantages and disadvantages of each are indicated. The design of the circuit building blocks for both digital and analogue circuits are covered. Computer aided design tools are described and illustrated and the important aspects of testing and design for testability are also covered. After completing this module the student should be able to take the specification for an IC and, based on all the circuit, technology and financial constraints, be able to determine the optimum design approach. The student should have a good knowledge of the circuit design approaches and to be able to make use of the computer aided design tools available and to understand their purposes and limitations. The student should also have an appreciation of the purposes of IC testing and the techniques for including testability into the overall circuit design.
Content:
Design of ICs: the design cycle, trade-offs, floorplanning, power considerations, economics. IC technologies: Bipolar, nMOS, CMOS, BiCMOS, analogue, high frequency. Transistor level design: digital gates, analogue components, sub-circuit design. IC realisation: ASICs, PLDs, gate arrays, standard cell, full custom. CAD: schematic capture, hardware description languages, device and circuit modelling, simulation, layout, circuit extraction. Testing: types of testing, fault modelling, design for testability, built in self test, scan-paths.


ESML0005: French politics & society 1A: Introduction à la politique et à la société françaises

Semester 1

Credits: 3

Contact:

Topic: French

Level: Level 1

Assessment: CW100

Requisites:

Aims & learning objectives:
To introduce students to the study of French politics and society from the 1930s to1945.
Content:
A chronological survey of France since the 1930s which examines issues including: the decline of rural France; politics in the inter-war period; the Popular Front; the Second World War, Occupation and Resistance. Seminars provide a forum for discussion and consolidation of lectures as well as providing study skills session for note taking and writing historical commentaries.


ESML0006: French politics & society 1B: Introduction à la politique et à la société françaises

Semester 2

Credits: 3

Contact:

Topic: French

Level: Level 1

Assessment: CW100

Requisites: Pre ESML0005

Aims & learning objectives:
By the end of this semester students should have a solid background in 20th Century France, understand some of the key aspects of French politics and society, and have acquired essential analytical and writing skills in French.
Content:
Post-war expansion; decolonization; changes in French society since 1945; the coming of the Fifth Republic; May 1968; and the victory of the Left in 1981 together with contemporary French politics and society. Seminars provide a forum for discussion and consolidation of the lectures as well as providing study skills sessions for argumentative essay writing.


ESML0011: French politics & society 2A: Les années Mitterrand

Semester 1

Credits: 3

Contact:

Topic: French

Level: Level 2

Assessment: EX67 CW33

Requisites: Pre ESML0006

Aims & learning objectives:
To build on and develop understanding of key structures and institutions of French political life, introduced in Year 1. To evaluate elements of change and continuity in the 1980s and 1990s using the framework of the Mitterrand presidency. To encourage students to take notes and extract relevant information from written and audio-visual material in French; to discuss topical political, social and economic issues in French in seminars; to build up a student 'log' over the course of the term, comprising lecture and seminar notes, and notes from preparatory and background reading, which will be of use in revision for the examination.
Content:
(a) Lectures: Introduction - les grands evenements; film François Mitterrand, une vie a l'epreuve du pouvoir; Approches de la culture politique en France; la construction de la Nation a travers la culture - les grands travaux; Pouvoir Presidentiel et elections legislatives 1981-1995; l'evolution des themes politiques pendant les deux septennats; l'immigration; la France et l'Europe; Mitterrand et l'economie. (b) Seminars: François Mitterrand, l'homme et son image; l'apres-Mitterrand; les elections presidentielles de 1995; le chomage et l'exclusion; la position; la position de la France a la fin des annees Mitterrand.


ESML0015: French national option F1: La France et l'Europe

Semester 2

Credits: 6

Contact:

Topic: French

Level: Level 3

Assessment: ES67 CW33

Requisites: Pre ESML0011

Aims & learning objectives:
To examine the relations between France and the wider European area (including the former USSR) in the post-war world, with specific emphasis on developments since the late 1980s. The general focus will be the broad field of international relations which will be narrowed down to three specific and inter-related areas: economic and commercial interests; foreign policy and diplomacy; military policy and security. The unit will examine the tensions which have always existed in French policy towards Europe between a nationalist and an internationalist impulsion. In the three areas noted above, protectionism, individualism and national independence have constantly vied with liberalism, international cooperation and alliance solidarity. These dichotomies go beyond the traditional right/left divide in French politics and have always run as a deep fissure within both the broad left and the broad right. At the same time, since the end of the 1980s, France has been faced with a new dichotomy; whether to prioritise the deepening of the Community of 12 (the Maastricht process) or, on the contrary, to pursue the old Gaullist vision of a broader Europe "from the Atlantic to the Urals". Particular emphasis will be placed throughout the course on the complex but crucial role played by Franco-German relations.
Content:
Four hours will be devoted to each of the following: 1. The historical background to France's relations with Europe. 2. France and the EEC (1958-85). 3. French foreign and defence policy (1958-89). 4. France, the Single Market and Maastricht. 5. French European security policy since the fall of the Berlin Wall. Taught in French.


ESML0016: French national option F2: La France urbaine

Semester 1

Credits: 6

Contact:

Topic: French

Level: Level 3

Assessment: ES67 CW33

Requisites: Pre ESML0011

Aims & learning objectives:
To study the importance of urban life in contemporary debate on social issues and French national identity, using authentic French material (including film and video); to use a variety of disciplinary sources to explore urban life in France, especially urban sociology, anthropology, political sociology and policy studies; to examine cultural representations of French urban life. The unit aims to give students a deeper understanding of social issues in France today; to develop reading, listening and discussion skills in the French language.
Content:
Approaches to urban studies; urban policy; "la banlieue'"; politics and towns; the "new towns" policy; violence and urban life; media representations of urban life; case studies. Taught in French.


ESML0017: French national option F3: La femme en France au vingtième siècle

Semester 2

Credits: 6

Contact:

Topic: French

Level: Level 3

Assessment: CW33 ES67

Requisites: Pre ESML0011

Aims & learning objectives:
To introduce students to various aspects of feminist thought and to situate some of the main debates within feminism. Through a series of theme-based seminars, to analyse women's involvement in events of the 20th century in France, notably the two World Wars and the suffragist and feminist movements. The 20th Century has brought significant social change and this course will seek to evaluate the extent to which these changes were gendered . By the end of the course students should have gained a better understanding of gender issues within contemporary French society. (Note: the second year option on Women in France is not a pre-requisite, although students who attended that option will find that this is an opportunity to pursue their interests).
Content:
The first couple of weeks will be devoted to exploring a range of feminist ideas. Then we will move into discussions based on student presentations around a series of themes related to women's lives. These might include: women and war; suffragism, feminism and women's activism; women and violence; politics and power; representations of women; women in ethnic minorities. Taught in French.


ESML0027: French national option F11: La persuasion et la propagande

Semester 1

Credits: 6

Contact:

Topic: French

Level: Level 3

Assessment: ES67 CW33

Requisites: Pre ESML0011

Aims & learning objectives:
To examine the respective roles of persuasion and propaganda in French society today, parallels being drawn also with other countries. Where does persuasion end and propaganda begin? How do today's politicians market themselves to the electorate? Have the techniques changed over the years?
Content:
After initial work on the definitions of the evolution of persuasion and propaganda, students pass onto investigations of particular areas of debate, events or political parties in a contemporary context. Their findings are presented as seminar contributions. Taught in French.


ESML0028: French national option F12: Environnement, société, développement

Semester 2

Credits: 6

Contact:

Topic: French

Level: Level 3

Assessment: ES67 CW33

Requisites: Pre ESML0011

Aims & learning objectives:
Environmental issues regularly appear in the news and increasing numbers of people currently attach great importance to them. However, the issues themselves are rarely clear-cut; they are subject to competing interpretations and to conflicts of interest, indicating a need for critical distance in the treatment of the subject. Within a context of open-ended evaluation, the aim of this course is to explore environmental issues in terms of their political, social and economic dimensions and to assess their importance. Most of the work will concentrate on discussing developments in France today, but as by their very nature environmental questions go beyond national boundaries, the course will take the international dimension into account.
Content:
The major themes to be surveyed are: (1) the ideas behind environmentalism and political ecology; (2) green politics in France today; (3) environmental policy-making in France and the EU; (4) the environment, business behaviour and green consumerism; (5) the impact of environmentalism on French society today. Students have the opportunity to focus on a suitable mix of themes which particularly interest them. Taught in French.


ESML0029: French national option F13: Culture et identité dans la France contemporaine

Semester 1

Credits: 6

Contact:

Topic: French

Level: Level 3

Assessment: ES67 CW33

Requisites: Pre ESML0011

Aims & learning objectives:
This unit will examine the relationship between identity and culture at times of social and political change. It will explore the way in which the identities of different social groups are expressed within the economic, political and cultural contexts of contemporary France. The aim is to examine elements of the French identity taking into account students' own experience of France and its diversity. The unit will pay particular attention to the construction of identities through cultural forms such as museums, language, literature, music, film and the media.
Content:
Introductory lectures will familiarize students with various theoretical approaches to the study of both culture and identity. Students will then examine the social and cultural frameworks for thinking about the question of what it means to be French. Seminars and case studies will examine themes such as heritage, memory, migrations, nation, tradition and popular culture. Taught in French.


ESML0034: German politics & society 1A: Deutschland und Österreich 1918-1939

Semester 1

Credits: 3

Contact:

Topic: German

Level: Level 1

Assessment: CW100

Requisites:

Aims & learning objectives:
To trace the most important political, social and economic developments in inter-war Germany and Austria. At the same time to provide practice in German comprehension, speaking and writing. Students should learn to follow lectures in straightforward German and take notes from them; understand vocabulary and concepts relevant to the history of the period; make short oral presentations in German and facilitate seminar discussion as part of a panel; write short essays in German on topics arising out of their seminar presentation.
Content:
i) Weimar (1918-1933) a. Revolution, Friedensvertrag und Weimarer Verfassung b. Bruning und das Ende von Weimar ii) Drittes Reich (1933-1945) a. Propaganda b. Holocaust iii)Österreich a. Entstehung der Republik b. Burgerkrieg Taught in German


ESML0035: German politics & society 1B: Von der doppelten Staatsgründung bis zum Mauerbau

Semester 2

Credits: 3

Contact:

Topic: German

Level: Level 1

Assessment: CW100

Requisites: Pre ESML0034

Aims & learning objectives:
To convey in German the most significant political and social developments from 1945 to 1963; to give students practice in understanding lectures in German and taking notes, to introduce relevant vocabulary and concepts, and to assist students in discussing and writing on the above issues in German.
Content:
i) Westdeutschland: Adenauer-Ara (1945-1963) a. Besatzung und Entnazifizierung b. Das Grundgesetz c. Kanzlerdemokratie und Westintegration d. Das Parteiensystem ii) Ostdeutschland: vom Aufbau zum Mauerbau (1945-1961) a. Allgemeine politische Entwicklungen im ersten Nachkriegsjahrzehnt b. Wirtschaftliche Startbedingungen und Aufbau des Sozialismus c. Die SED und der staatliche Aufbau der DDR d. Der Bau der Berliner Mauer. Taught in German.


ESML0042: German politics & society 2A: Geteiltes Deutschland 1961-1989

Semester 1

Credits: 3

Contact:

Topic: German

Level: Level 2

Assessment: EX67 CW33

Requisites: Pre ESML0035

Aims & learning objectives:
To study relations between the two German states from the Hallstein-Doktrin, through Brandt's Ostpolitik to the collapse of the GDR and unification; to analyse the main features of the economic and social system of each of the two German states; to build on the vocabulary and concepts previously acquired and to assist students in discussing and writing on the above issues at an advanced level of German.
Content:
i) DDR: vom Mauerbau bis zur deutschen Einigung a) Aspekte der DDR-Identitat (Politische Kultur, Alltag und Stasi) b) BRD und DDR: ein kritischer Systemvergleich c) Frauen und Soziale Sicherheit d) Das Jahr der Wende ii) BRD: vom Mauerbau bis zur deutschen Einigung a) Deutsch-deutsche Beziehungen b) 1968 und die Folgen c) Kohl-Ara (1982-1989)


ESML0043: German politics & society 2B, option 1: Das wiedervereinigte Deutschland

Semester 2

Credits: 3

Contact:

Topic: German

Level: Level 2

Assessment: ES67 CW33

Requisites: Pre ESML0042

Aims & learning objectives:
To convey in German the most significant economic, political and social developments since unification, to give students practice in preparing and giving seminar presentations and to improve further their writing skills in German.
Content:
a) Mentalitatsunterschiede in Ost und West b) Das Parteiensystem und "DDR-Nostalgie" c) Vergangenheitsbewaltigung: Stasi und Folgen d) Die Jugend im vereinigten Deutschland


ESML0044: German politics & society 2B, option 2: Berlin seit dem Kriegsende

Semester 2

Credits: 3

Contact:

Topic: German

Level: Level 2

Assessment: ES67 CW33

Requisites: Pre ESML0042

Aims & learning objectives:
To examine the social and political experience of life in both halves of Berlin between 1945 and 1989, as a microcosm of the effects of the division of Germany on its population. To take full account of the changes which have taken place in the city since the collapse of the GDR and which have brought about its reinstatement as the capital of Germany.
Content:
Subjects for close study include: everyday life in both halves of the city during the Cold War; propagandist portrayals of life in the 'other' half of the city; the impact of the crises of 1953 and 1961 on both parts of the city; the changes brought about by détente in the 1970s and 1980s; the unification process and resistance to it in East Berlin; the physical reconstruction of Berlin since 1989; problematic aspects of Berlin's transition to capital city; the 'Mauer im Kopf' as a continuing phenomenon of the 1990s. Taught in German.


ESML0046: German politics & society 2B, option 4: Die Frau in der deutschen Gesellschaft

Semester 2

Credits: 3

Contact:

Topic: German

Level: Level 2

Assessment: ES67 CW33

Requisites: Pre ESML0042

Aims & learning objectives:
The course aims at encouraging awareness of gender as a social variable which must be taken into account just as we take account of class, race, geography and generation when examining the social and political life of Germany. It will examine how gender differences and attitudes towards gender roles affect the roles and representations of women in German society today. The purpose of this unit is to enable students to express themselves both in written and spoken German on issues relating to gender in the political and social structures of German society, to acquire relevant concepts and to demonstrate a basic understanding of the academic treatment in Germany of the issues involved.
Content:
The course will examine the changes which 'Frauenbilder' and the 'Frauenrolle' have undergone and highlight certain aspects of woman's role in society today. In this context, it will look at the specific experience of women in contemporary Germany, focusing on questions of rights, legislation, equal opportunities on the one hand, and on the representation of women in economic, social, cultural and political structures on the other. Taught in German.


ESML0050: German national option G1: Politische Kultur in Deutschland und Österreich

Semester 2

Credits: 6

Contact:

Topic: German

Level: Level 3

Assessment: EX67 ES33

Requisites:

Aims & learning objectives:
This unit considers, first, the main factors which influenced the political culture and identity of the three German-speaking states (Federal republic, GDR and Austria) as they emerged after the military defeat of National Socialism; secondly, the tensions which later developed in these political cultures and the currents of unrest and opposition to which they gave rise. Thirdly, discussion will focus on the legacy of the past in the political culture of Germany and Austria in the 90s.
Content:
Topics for discussion are the concept of political culture; the problem of defining German and Austrian identity; confrontation with the NS past in Germany and Austria in the aftermath of WW2; Austria as the 'first victim' of National Socialism; opposition in the GDR and the collapse of the East German state; terrorism in the Federal Republic as a reaction to the dominant political culture; Germanys past in the present following unification; Austrian identity in the 90s. Taught in German.


ESML0052: German national option G3: Umbau 2000: Bundesrepublik Deutschland auf dem Weg ins 21. Jahrhundert

Semester 1

Credits: 6

Contact:

Topic: German

Level: Level 3

Assessment: EX50 CW25 OT25

Requisites: Pre ESML0042

Aims & learning objectives:
The aim of the unit is to explore the challenges unifed Germany has to confront after the Kohl era and at the transition to the twenty-first century. Processes like the collapse of communism, German unification, economic globalisation, etc., necessitate a fundamental rethinking of Germany's established political practices and institutions.
Content:
The option will analyse the majoy challenges to (a) Germany's political system, (b) Germany's economic system,(c) Germany's social system, and (d) Germany's role in Europe and international politics. We will discuss possible paths of societal modernisation and the strategies used by the political leadership. Taught in German.


ESML0053: German national option G4: Kultur und Politik in der ehemaligen DDR

Semester 1

Credits: 6

Contact:

Topic: German

Level: Level 3

Assessment: EX67 CW33

Requisites: Pre ESML0038, Pre ESML0042

Students must have taken either ESML0038, or ESML0042. Aims & learning objectives:
This unit will examine the development of literature and film in the political context of the GDR to provide an overview of the development of literature and film in the political context of the GDR and to assess the distinctive qualities of the GDR culture. It will take full account of the way in which perspectives on GDR culture have changed since German unification. Through the close study of a number of key texts and films it will identify some major thematic concerns of the period following the rejection of socialist realism as a cultural doctrine.
Content:
Lectures will provide an overview of the key events in the GDR's cultural history and highlight problems involved in dealing with GDR culture from today's perspective. Seminars will focus on representative literary texts and films of the period between 1961 and 1989, including works by Christa Wolf, Günter de Bruyn, Volker Braun, Frank Beyer and Konrad Wolf.


ESML0058: German national option G8: Gender und Transformatsionzprozesse in Deutschland

Semester 2

Credits: 6

Contact:

Topic: German

Level: Level 3

Assessment: EX67 CW33

Requisites: Pre ESML0042

Aims & learning objectives:
To permit a systematic study of significant processes of social change in contemporary Germany which have become intensified by Germanys unification process, European integration and the pressures of the global market. The unit will examine primarily the impact of processes of social transition and transformation on the identity, social position and opportunities of women both as citizens affected by institutional and structural reform and as agents of change. Selected areas will be analysed chiefly through the prism of gender, but other dimensions will also be explored. An examination of both old and new challenges to traditional gender role attributions and a study of gender as a social variable and a social determinant provides the chief analytical framework in which issues such as the withdrawal of the welfare state, economic and political reform, changing patterns of employment, technological advance, mobility of labour and patterns of migration will be discussed.
Content:
A comparative analysis of the goals, achievements and limitations of the women's movement as a social movement in the old Federal Republic with women's position in the former GDR will provide the background against which current debates about reform and redefinition within the women's movement in Germany will be examined. In the light of this historical perspective and of more recent developments in the new Federal states opportunities and perspectives for women's political participation and the development of strategies for social and institutional reform will be examined. The unit will cover topics such as: Experiences of the "Wende"; Germany's unification process; the transition towards a social market economy in Eastern Germany: women in a double process of social transformation; counting the costs: gendered perspectives on the pressures for economic and social reform in contemporary Germany; implications of the withdrawal of the welfare state for the nexus of the family, the generations and society; citizenship issues and political participation of women: is a new political culture emerging; changing patterns of employment brought about by the intensification of competition, technological advance and the mobility of labour: new challenges, new opportunities; Migration and the nexus of the gender and German-ness. The unit will be taught in German.


ESML0059: German national option G9: Die Massenmedien in Deutschland

Semester 1

Credits: 6

Contact:

Topic: German

Level: Level 3

Assessment: EX67 CW33

Requisites:

Aims & learning objectives:
to develop an understanding of the principles of mass communication and an awareness of the common features of European mass media and peculiarities to the German system; to develop an appreciation of the implications of technological advances in this field, particularly vis-à-vis the perspective of global communications.
Content:
theory of communication and mass communication; structure and character of the media; historical developments in the German media (pre-1945; FRG; GDR); legal aspects of the media environment; funding and inter-media competition; new media - from Btx to the Internet in one generation; Spin Doctors and Soundbites: media as a political tool; the impact of German unification on the media of both former German states; advertising. Taught in German.


ESML0115: French economic & industrial environment

Semester 1

Credits: 6

Contact:

Topic: French

Level: Level 1

Assessment: CW50 ES50

Requisites: Co ESML0120

Aims & learning objectives:
to introduce students to the economic contexts in which firms in France operate, to analyse the causes of economic growth and industrial development in the post-war period and to introduce students to the language of the French business environment.
Content:
economic growth and development in the post-war period (1945-1973); recession and structural changes in the 1970s; economic performance and public policies in the 1980s and 1990s; industrial policy: concentration, nationalisation, privatisation, small firms; foreign trade in goods and services. Classes are conducted in French.


ESML0116: French written communication A

Semester 1

Credits: 3

Contact:

Topic: French

Level: Level 1

Assessment: CW100

Requisites: Co ESML0117

Aims & learning objectives:
To heighten student awareness of linguistic difficulties encountered in written communication; to promote proficiency in the comprehension and production of texts in French with reference to subject covered in the core and interface units; to introduce students to the techniques of summarisation, abstraction of argumentation and comparative text analysis.
Content:
Materials used in the course are drawn from across a range of socio-economic and legal texts drawn from the French press, with reference also to English press material, and from other sources. Exploitation of these texts is aimed at increasing student awareness of presentational differences of the same material, soundness and elaboration of arguments etc., and the application of these lessons to written communication in general. Specific exercises include: summarisation; translation: points and pitfalls; comparative text analysis: language, style, presentation; elaboration of argumentation; elements of grammar.


ESML0117: French aural comprehension/oral communication 1A

Semester 1

Credits: 3

Contact:

Topic: French

Level: Level 1

Assessment: EX25 PR50 CW25

Requisites: Co ESML0116

Aims & learning objectives:
to develop receptive (aural) and communicative (oral) skills in the French language so that by the beginning of the second year these skills can be applied to a business context.
Content:
Audio-visual exercises are used to exploit topical news items of a social, economic, political and cultural nature recorded from satellite television broadcasts. Exercises are designed initially to give students maximum exposure to spoken French in a variety of registers with a view to improving both comprehension skills and the ability to select and organise key points from the AV material used. Subsequently, exercises are aimed at improving student ability to present ideas orally in French to other members of the student group. A variety of exercises are employed: summarisation and role-play strategies, speed tests and fictional reconstructions from television images without sound. Classes with a French native speaker supplement these exercises by developing student skills in oral communication in French.


ESML0118: German business environment 1

Semester 1

Credits: 6

Contact:

Topic: German

Level: Level 1

Assessment: ES67 CW33

Requisites:

Aims & learning objectives:
This unit aims to introduce students to key concepts of the German economic environment. In the second half it will focus on aspects of the integration of the former East into the economy of the West.
Content:
The unit first concentrates on the period of post-war economic reconstruction, in particular on aspects of the 'economic miracle' and the social market economy. Then the emphasis will shift towards the reconstruction of the economy in East Germany following unification. Special emphasis will be on the role of the 'Treuhand', the question of private property, ecological 'Altlasten'. Finally we will discuss the impact of processes of economic globalisation on the German economy.


ESML0119: German written & spoken communication 1

Semester 1

Credits: 6

Contact:

Topic: German

Level: Level 1

Assessment: PR40 CW40 OT20

Requisites:

Aims & learning objectives:
The unit pursues a dual aim. 1. To improve students' communicative and listening skills (oral/aural) and to expand their vocabulary so that they are able to express themselves clearly in everyday as well as in business contexts as appropriate; to enable students to formulate their own ideas and to interact effectively in German and to adjust flexibly to various situations by using a suitable register. 2. To refresh and consolidate students' knowledge and understanding of grammatical structures. Increasingly students should be in a position to apply the acquired skills to the production of coherent and fluent written composition; to introduce students to a variety of German texts dealing with appropriate contemporary issues.
Content:
1. Classes may consist of free discussions with the entire group, interactive exercises (e.g. role play, small-group discussions, one-to-one exchange of basis for discussion and assessment whilst improving awareness of contemporary life in the German-speaking world. 2. In respect of i. the consolidation of German language structures this unit focuses on the various classes of words, their declension and their function within the phrase/sentence, ii. written communication a variety of linguistic skills are developed by means of translation into and from German and guided composition in German.


ESML0120: French legal environment

Semester 2

Credits: 6

Contact:

Topic: French

Level: Level 1

Assessment: ES80 OT20

Requisites: Co ESML0115

Aims & learning objectives:
to introduce students to the underlying principles of French law, to outline the legal framework within which firms in France operate in specific domains and to introduce students to French legal terminology
Content:
introduction to the French legal system; company law; droit des obligations (contracts and tort); consumer protection legislation; labour law; competition law. Classes are conducted in French.


ESML0121: French written communication B

Semester 2

Credits: 3

Contact:

Topic: French

Level: Level 1

Assessment:

Requisites: Pre ESML0116

Aims & learning objectives:
To continue and advance student awareness of linguistic difficulties encountered in written communication in unit Written Communication A, promoting further proficiency in the comprehension and production of texts in French with reference to subjects covered in the core and interface units; to introduce students to the techniques of summarisation, abstraction of argumentation and comparative text analysis.
Content:
Materials used in the course are drawn from across a range of socio-economic and legal texts drawn from the French press, with reference also to English press material, and from other sources. Exploitation of these texts is aimed at increasing student awareness of presentational differences of the same material, soundness and elaboration of arguments etc., and the application of these lessons to written communication in general. Specific exercises include: summarisation; translation: further points and pitfalls; comparative text analysis: language, style, presentation; elaboration of argumentation; further elements of grammar


ESML0122: French aural comprehension/oral communication 1B

Semester 2

Credits: 3

Contact:

Topic: French

Level: Level 1

Assessment: EX25 PR50 CW25

Requisites: Pre ESML0117

Aims & learning objectives:
to develop receptive (aural) and communicative (oral) skills in the French language so that by the beginning of the second year these skills can be applied to a business context.
Content:
Audio-visual exercises are used to exploit topical news items of a social, economic, political and cultural nature recorded from satellite television broadcasts. Exercises are designed initially to give students maximum exposure to spoken French in a variety of registers with a view to improving both comprehension skills and the ability to select and organise key points from the AV material used. Subsequently, exercises are aimed at improving student ability to present ideas orally in French to other members of the student group. A variety of exercises are employed: summarisation and role-play strategies, speed tests and fictional reconstructions from television images without sound. Classes with a French native speaker supplement these exercises by developing student skills in oral communication in French.


ESML0123: German business environment 2

Semester 2

Credits: 6

Contact:

Topic: German

Level: Level 1

Assessment: ES67 CW33

Requisites: Pre ESML0118

Aims & learning objectives:
to provide students with an introduction to the structure of the German economy and the organisation of major economic interest groups; to introduce students to the legal system in the Federal Republic of Germany which governs the relationship between the state and its citizens with particular emphasis on the implications of the constitutional framework on the organisation of business; to familiarise students with relevant language and concepts, to assist students in writing in German about the relevant areas.
Content:
i. The German economy a) the structure of the German economy b) interest groups within the German economy ii. The German legal environment a) the constitutional framework of business b) aspects of change in the legal environment of German business


ESML0124: German written & spoken communication 2

Semester 2

Credits: 6

Contact:

Topic: German

Level: Level 1

Assessment: EX30 CW20 PR20 OR30

Requisites: Pre ESML0119

Aims & learning objectives:
The unit builds on German Written Communication 1, pursuing the same dual aim. 1. To improve students' communicative and listening skills (oral/aural) and to expand their vocabulary so that they are able to express themselves clearly in everyday as well as in business contexts as appropriate; to enable students to formulate their own ideas and to interact effectively in German and to adjust flexibly to various situations by using a suitable register. 2. To refresh and consolidate students' knowledge and understanding of grammatical structures. Increasingly students should be in a position to apply the acquired skills to the production of coherent and fluent written composition; to introduce students to a variety of German texts dealing with appropriate contemporary issues.
Content:
1. Classes may consist of free discussions with the entire group, interactive exercises (e.g. role play, small-group discussions, one-to-one exchange of ideas). Austrian and German video material and newspaper articles form the basis for discussion and assessment whilst improving awareness of contemporary life in the German-speaking world. 2. In respect of i. the consolidation of German language structures, this unit focuses on complex grammar points and German syntax; ii. written communication a variety of linguistic skills are developed by means of translation into and from German and guided composition in German.


ESML0125: French written communication in the business context A

Semester 1

Credits: 3

Contact:

Topic: French

Level: Level 2

Assessment: EX CW

Requisites: Pre ESML0121, Pre ESML0122

Aims & learning objectives:
To develop more advanced skills in contemporary written communication with regard to the business dimension of written communication in order to prepare students for industrial placements in a French company during their year abroad.
Content:
Materials used in the course are drawn from across a range of socio-economic and legal texts drawn from the French press, with reference also to English press material, and European Community and other documents. Exploitation of these texts is aimed at increasing student awareness of presentational differences of the same material, soundness and elaboration of arguments etc. Students are instructed in the drafting of commercial correspondence in addition to work on CVs and accompanying documentation. Specific exercises include: Commercial correspondence: terminology and its application; language, style, development/elaboration of argumentation; specific grammatical problems.


ESML0126: French aural comprehension/oral communication in the business context 2A

Semester 1

Credits: 3

Contact:

Topic: French

Level: Level 2

Assessment: PR50 CW50

Requisites: Pre ESML0121, Pre ESML0122

Aims & learning objectives:
to develop receptive (aural) and communicative (oral) skills in business contexts.
Content:
Students are given specific assignments aimed at improving aural comprehension of spoken language, based on video and audio material relevant to the world of business and to the European business environment in particular. Oral and interpersonal communication skills are practised in various situations commonly experienced in the world of business, especially telephone skills, job interview techniques and presentation exercises. Classes are conducted in French.


ESML0127: German language in the business context A

Semester 1

Credits: 6

Contact:

Topic: German

Level: Level 2

Assessment:

Requisites: Pre ESML0124

Aims & learning objectives:
The unit pursues a dual aim. 1. To improve students' communicative and listening skills and to expand their vocabulary, especially in economic, business and professional contexts. To enable them to converse accurately, fluently and in an appropriate register. 2. To develop more advanced skills in contemporary written communication with specific reference to material used in the core and interface courses; to focus on the business dimension of written communication in order to prepare students for industrial placements in a German company during their third year abroad. The unit will familiarise students with written communication tasks appropriate to the world of business and management in Germany.
Content:
1. Classes may consist of aural comprehension exercises by using videos of current (business) affairs, usually taped from German/Austrian television. This may include summarisation, answering of questions and discussion of the topics presented to them. Also office skills simulations, such as answering the telephone, form a part of these classes. There are also free discussions which involve either a larger group or smaller sub-groups. 2. Written communication materials consist primarily of socio-political and business texts. Exploitation of these texts is aimed at familiarising students with specific issues from the German business context. Specific exercises include: comparative/text analysis, acquisition of business terminology, business communication: correspondence, reports, CVs, surveys, statistics, summarisations.


ESML0128: French written communication in the business context B

Semester 2

Credits: 3

Contact:

Topic: French

Level: Level 2

Assessment:

Requisites: Pre ESML0125

Aims & learning objectives:
To develop more advanced skills in contemporary written communication with regard to techniques of summarisation, abstraction of argumentation and comparative text analysis and with reference to the subjects covered in the core and interface courses whilst maintaining a focus on the business dimension of written communication.
Content:
Materials used in the course are drawn from across a range of socio-economic and legal texts drawn from the French press, with reference also to English press material, and European Community and other documents. Exploitation of these texts is aimed at increasing student awareness of presentational differences of the same material, soundness and elaboration of arguments etc., and the application of these lessons to written communication in general. Specific exercises include: Terminology and its application; summarisation; textual analysis: language, style, development/elaboration of argumentation; specific grammatical problems.


ESML0129: French aural comprehension/oral communication in the business context 2B

Semester 2

Credits: 3

Contact:

Topic: French

Level: Level 2

Assessment: EX40 OR40 PR10 CW10

Requisites: Pre ESML0126

Aims & learning objectives:
to develop receptive (aural) and communicative (oral) skills in business contexts.
Content:
Students are given specific assignments aimed at improving aural comprehension of spoken language, based on video and audio material relevant to the world of business and to the European business environment in particular. Oral and interpersonal communication skills are practised in various situations commonly experienced in the world of business, especially telephone skills, job interview techniques and presentation exercises. Classes are conducted in French.


ESML0130: German comparative employee relations B

Semester 2

Credits: 6

Contact:

Topic: German

Level: Level 2

Assessment: ES67 CW33

Requisites: Pre UNIV0003

Aims & learning objectives:
To convey in German the most significant developments in relations between management and institutions representing worker interests (trade unions and works councils) and to give students practice in preparing and giving seminar presentations in German and to improve their writing skills in German.
Content:
Industrielle Beziehungen in Deutschland a) Die Entwicklung der Gewerkschaften b) Gewerkschaften und Betriebsr?te c) Die Zukunft der Tarifautonomie d) Betriebliche Interessenvertretung im vereinigten Deutschland


ESML0131: German language in the business context B

Semester 2

Credits: 6

Contact:

Topic: German

Level: Level 2

Assessment: EX CW

Requisites: Pre ESML0127

Aims & learning objectives:
The unit pursues a dual aim: 1. To build on the oral and aural German skills acquired in German Language in the Business Context A. The purpose of the unit is to enable students to improve their communicative and listening skills and to expand their vocabulary, especially in economic, business and professional contexts. The unit will improve accurate conversation skills at a more advanced level of German and improve both fluency and awareness of appropriate language registers for the business context. 2. To build on the skills and written language proficiency achieved in German Language in the Business Context A. The purpose of the unit is for students to develop more advanced skills in contemporary German written communication with specific reference to both the national and the European business environment. Students will be familiarised with more complex written communication tasks appropriate to the world of business and management. The unit will introduce students to more academic texts on business issues in the German context.
Content:
1. Classes will consist of aural comprehension exercises by using videos of current (business) affairs, usually taped from German/Austrian television. This may include summarisation, answering questions and discussion of topics presented to them. Students will practice office and negotiating skills as well as free discussions which involve either a larger group or smaller sub-groups. 2. Written communication materials consist primarily of socio-political and business texts. Exploitation of these texts is aimed at aiding students' understanding of German national and European perspectives of issues in the business world as well as the acquisition of relevant terminology and language registers. Specific exercises include: writing reports, summarisations and essays on a business or economic topic; consolidation and expansion of business terminology, problem-solving in the business environment.


ESML0133: French written & oral communication in the international business context A

Semester 1

Credits: 3

Contact:

Topic: French

Level: Level 3

Assessment: CW100

Requisites: Pre ESML0128, Pre ESML0129

Aims & learning objectives:
To enhance French written and oral skills within the international business context.
Content:
All classes focus on material and topics relevant to the international business context. Materials used in the unit are drawn from across a variety of registers (e.g. business, political, advertising etc.) found in French-language publications, but with reference also to English material, as well as European Union material and corporate communications. Students are encouraged to use materials and experience from their placement year in business. Exploitation of these texts and materials is aimed at increasing presentational skills within a framework of sound and well-elaborated argumentation. In addition to written communication skills, classes with the lector stimulate the development of oral communication skills. Exercises in written communication classes include: transposition of English texts into appropriate registers for a given context, e.g. report writing, professional advice etc.; commentary in French of the linguistic and situational features of texts; elaboration of arguments etc.; specific grammatical problems. Exercises in oral communication (language) classes include: presentations (individual and group) on prepared topics; development of interpersonal skills required in meetings and negotiations; reports in French on business and political items from French audio-visual material; specific grammatical, phonetic or other linguistic problems.


ESML0135: German written & oral communication in the international business context 1

Semester 1

Credits: 3

Contact:

Topic: German

Level: Level 3

Assessment: CW100

Requisites: Pre ESML0131

Aims & learning objectives:
The aim of this unit is keep up the level of linguistic fluency achieved during the year abroad. Special attention is paid to oral presentation and discussion skills, to methods of comparative text analysis, techniques of summarisation, abstraction of argumentation, commentary, specialised translation etc. Students are encouraged to follow economic trends in Germany through regular reading of relevant newspapers.
Content:
Classes focus on material and topics relevant to the international business context. The emphasis will be on issues of European economic integration and problems related to the globalisation of economic processes. Certain linguistic excercises will also make use of English texts as a further source of information.


ESML0136: French international marketing communications B

Semester 2

Credits: 6

Contact:

Topic: French

Level: Level 3

Assessment: EX60 CW40

Requisites: Pre UNIV0028

Aims & learning objectives:
To develop students' understanding of the applications of the principles of marketing from their Second Year and ally it to their own experience on placement, passing on to the international context. It also aims to place the marketing function within social and organisational networks of communication.
Content:
The unit builds on unit French International Marketing Communications A by examining the application of theory to specific products & campaigns in case study, in addition to theory & practice in other applications of the Marketing Communications mix.


ESML0137: French written & oral communication in the international business context B

Semester 2

Credits: 3

Contact:

Topic: French

Level: Level 3

Assessment:

Requisites: Pre ESML0133

Aims & learning objectives:
To enhance French written and oral skills within the international business context.
Content:
Building on unit Written Communication in the International Business Context A, all classes continue to focus on material and topics relevant to the international business context. Materials used in the unit are drawn from across a variety of registers (e.g. business, political, advertising etc.) found in French-language publications, but with reference also to English material, as well as European Union material and corporate communications. Students are encouraged to use materials and experience from their placement year in business. Exploitation of these texts and materials is aimed at increasing presentational skills within a framework of sound and well-elaborated argumentation. In addition to written communication skills, classes with the lector stimulate the development of oral communication skills. Exercises in written communication classes include: transposition of English texts into appropriate registers for a given context, e.g. report writing, professional advice etc.; commentary in French of the linguistic and situational features of texts; elaboration of arguments etc.; specific grammatical problems. Exercises in oral communication (language) classes include: presentations (individual and group) on prepared topics; development of interpersonal skills required in meetings and negotiations; reports in French on business and political items from French audio-visual material; specific grammatical, phonetic or other linguistic problems.


ESML0138: Le management interculturel

Semester 2

Credits: 6

Contact:

Topic: French

Level: Level 3

Assessment:

Requisites: Pre ESML0011

Aims & learning objectives:
to develop insights into the cultural specificity of management practices through comparisons between the case of France and other leading industrial nations; to enhance awareness of the cultural dimensions of managing in the international workplace; to provide an opportunity for students to integrate their knowledge of corporate, nation-specific and international management practices by drawing on prior study within the degree as well as on their work experience abroad; to develop research skills, oral presentation skills and report writing skills in French; to develop their teamwork skills, by working in groups.
Content:
The focus will be on business practices in France, whose distinctiveness (or otherwise) will be explored by cross-national comparisons. Introductory lectures review issues to do with national business cultures, particularly the question of whether particular management styles or practices are nation-specific. They also review corporate culture issues in relation to national culture, with reference to core management disciplines such as business policy, organisational behaviour and human resources management within major companies. The second phase of the course is student-led, with group exposés leading to seminar discussions. The subject of group exposés and groups dissertations is decided jointly by the students and course lecturers in line with the major themes of the course. Guidance is given on the development and presentation of both exposés and written projects, as well as feedback on exposées.


ESML0139: German international marketing communications B

Semester 2

Credits: 6

Contact:

Topic: German

Level: Level 3

Assessment: EX60 CW40

Requisites: Pre UNIV0027

Aims & learning objectives:
To develop students' understanding of the principles of marketing from their Second Year and to ally it to their own experience on placement, passing on to the international context. It also aims to place the marketing function within social and organisational networks of communication.
Content:
The unit builds on Marketing Communications A by examining the application of theory to specific products and campaigns in case study in addition to theory and practice in other applications of the marketing communications mix.


ESML0140: German written & oral communication in the international business context 2

Semester 2

Credits: 3

Contact:

Topic: German

Level: Level 3

Assessment: EX30 OR30 CW40

Requisites: Pre ESML0135

Aims & learning objectives:
The aim of this unit is keep up the level of linguistic fluency achieved during the year abroad and to further develop the writing and oral skills practised in the post-abroad language workshop.
Content:
As in the preceding unit, classes focus on material and topics relevant to the international business context.


ESML0208: Chinese stage 3A (advanced beginners) (6 credits)

Semester 1

Credits: 6

Contact:

Topic: Chinese

Level: Level 1

Assessment: EX45 CW40 OR15

Requisites: Co ESML0209

Aims & learning objectives:
This course builds on the Chinese covered in Chinese Stage 2 A and B in order to enhance the student's abilities in the four skill areas.
Content:
This unit contains a variety of listening, reading, speaking and writing tasks covering appropriate grammatical structures and vocabulary relating to China, Singapore and Taiwan. There will be discussion in the target language of topics derived from teaching materials, leading to small-scale research projects based on the same range of topics and incorporating the use of press reports and articles as well as audio and visual material. Students are encouraged to devote time and energy to developing linguistic proficiency outside the timetabled classes, for instance by additional reading and/or participating in informally arranged conversation groups and in events at which Chinese is spoken.


ESML0209: Chinese stage 3B (6 credits)

Semester 2

Credits: 6

Contact:

Topic: Chinese

Level: Level 1

Assessment: EX45 CW40 OR15

Requisites: Co ESML0208

Aims & learning objectives:
A continuation of Chinese Stage 3A
Content:
A continuation of Chinese Stage 3A


ESML0214: French stage 9A (further advanced) (6 credits)

Semester 1

Credits: 6

Contact:

Topic: French

Level: Level 2

Assessment: EX45 CW40 OR15

Requisites: Co ESML0215

Aims & learning objectives:
A continuation of the work outlined in French 8A and 8B
Content:
This unit contains a variety of listening, reading, speaking and writing tasks covering appropriate grammatical structures and vocabulary. Teaching materials used cover a wide variety of sources and cover aspects of cultural political and social themes relating to France. Works of literature or extracts may be included, as well as additional subject-specific material, as justified by class size. This may encompass scientific and technological topics as well as materials relevant to business and industry. There will be discussion in the target language of topics relating to and generated by the teaching materials, with the potential for small-scale research projects and presentations. Audio and video materials form an integral part of this study, along with newspaper, magazine and journal articles. Students are actively encouraged to consolidate their linguistic proficiency outside the timetabled classes, by additional reading, links with native speakers and participating in events at which French is spoken. Audio and video laboratories are available to augment classroom work.


ESML0215: French stage 9B (6 credits)

Semester 2

Credits: 6

Contact:

Topic: French

Level: Level 2

Assessment: EX45 CW40 OR15

Requisites: Co ESML0214

Aims & learning objectives:
A continuation of French Stage 9A
Content:
A continuation of French Stage 9A


ESML0220: French stage 6A (advanced intermediate) (6 credits)

Semester 1

Credits: 6

Contact:

Topic: French

Level: Level 1

Assessment: EX45 CW40 OR15

Requisites: Co ESML0221

Aims & learning objectives:
This course concentrates on the more advanced aspects of French with continued emphasis on practical application of language skills in a relevant context, in order to refine further the student's abilities.
Content:
This unit contains a variety of listening, reading, speaking and writing tasks covering appropriate grammatical structures and vocabulary. There is continued further development of the pattern of work outlined in French Stage 5A and 5B


ESML0221: French stage 6B (6 credits)

Semester 2

Credits: 6

Contact:

Topic: French

Level: Level 1

Assessment: EX45 CW40 OR15

Requisites: Co ESML0220

Aims & learning objectives:
A continuation of course French Stage 6A
Content:
A continuation of course French Stage 6A


ESML0226: German stage 3A (advanced beginners) (6 credits)

Semester 1

Credits: 6

Contact:

Topic: German

Level: Level 1

Assessment: EX45 CW40 OR15

Requisites: Co ESML0227

Aims & learning objectives:
This course builds on the German covered in German Stage 2A and 2B in order to enhance the student's abilities in the four skill areas.
Content:
This unit contains a variety of listening, reading, speaking and writing tasks covering appropriate grammatical structures and vocabulary relating to a selection of topics. Teaching materials cover a wide range of cultural, political and social topics relating to German speaking countries and may include short works of literature. There will be discussion in the target language of topics derived from teaching materials, leading to small-scale research projects based on the same range of topics and incorporating the use of press reports and articles as well as audio and visual material. Students are encouraged to devote time and energy to developing linguistic proficiency outside the timetabled classes, for instance by additional reading and/or participating in informally arranged conversation groups and in events at which German is spoken. Audio and video laboratories are available to augment classroom work.


ESML0227: German stage 3B (6 credits)

Semester 2

Credits: 6

Contact:

Topic: German

Level: Level 1

Assessment: EX45 CW40 OR15

Requisites: Co ESML0226

Aims & learning objectives:
A continuation of German Stage 3A
Content:
A continuation of German Stage 3A


ESML0238: German stage 6A (advanced intermediate) (6 credits)

Semester 1

Credits: 6

Contact:

Topic: German

Level: Level 1

Assessment: EX45 CW40 OR15

Requisites: Co ESML0239

Aims & learning objectives:
This course concentrates on the more advanced aspects of German with continued emphasis on practical application of language skills in a relevant context, in order to refine further the student's abilities.
Content:
This unit contains a variety of listening, reading, speaking and writing tasks covering appropriate grammatical structures and vocabulary. There is continued further development of the pattern of work outlined in German Stage 5A and 5B


ESML0239: German stage 6B (6 credits)

Semester 2

Credits: 6

Contact:

Topic: German

Level: Level 1

Assessment: EX45 CW40 OR15

Requisites: Co ESML0238

Aims & learning objectives:
A continuation of German Stage 6A
Content:
A continuation of German Stage 6A


ESML0244: Italian stage 3A (advanced beginners) (6 credits)

Semester 1

Credits: 6

Contact:

Topic: Italian

Level: Level 1

Assessment: EX45 CW40 OR15

Requisites: Co ESML0245

Aims & learning objectives:
This course builds on the Italian covered in Italian Stage 2A and 2B in order to enhance the students abilities in the four skill areas.
Content:
This unit contains a variety of listening, reading, speaking and writing tasks covering appropriate grammatical structures and vocabulary relating to a selection of topics. Teaching materials cover a wide range of cultural, political and social topics relating to Italy and may include short works of literature. There will be discussion in the target language of topics derived from teaching materials, leading to small-scale research projects based on the same range of topics and incorporating the use of press reports and articles as well as audio and visual material. Students are encouraged to devote time and energy to developing linguistic proficiency outside the timetabled classes, for instance by additional reading and/or participating in informally arranged conversation groups and in events at which Italian is spoken. Audio and video laboratories are available to augment classwork


ESML0245: Italian stage 3B (6 credits)

Semester 2

Credits: 6

Contact:

Topic: Italian

Level: Level 1

Assessment: EX45 CW40 OR15

Requisites: Co ESML0244

Amis & Learning Objectives: A continuation of Italian Stage 3A.
Content:
A continuation of Italian Stage 3A.


ESML0262: Spanish stage 6A (advanced intermediate) (6 credits)

Semester 1

Credits: 6

Contact:

Topic: Spanish

Level: Level 1

Assessment: EX45 CW40 OR15

Requisites: Co ESML0263

Aims & learning objectives:
This course concentrates on the more advanced aspects of Spanish with continued emphasis on practical application of language skills in a relevant context, in order to refine further the student's abilities.
Content:
This unit contains a variety of listening, reading, speaking and writing tasks covering appropriate grammatical structures and vocabulary. There is continued further development of the pattern of work outlined in Spanish Stage 5A and 5B


ESML0263: Spanish stage 6B (6 credits)

Semester 2

Credits: 6

Contact:

Topic: Spanish

Level: Level 1

Assessment: EX45 CW40 OR15

Requisites: Co ESML0262

Aims & learning objectives:
A continuation of Spanish Stage 6A
Content:
A continuation of Spanish Stage 6A


ESML0271: French politics & society 2B, option 1: Regional policy in the Fifth Republic

Semester 2

Credits: 3

Contact:

Topic: French

Level: Level 2

Assessment: ES67 CW33

Requisites: Pre ESML0011

Aims & learning objectives:
To build on the experience of Politics & Society by applying the expertise gained so far to an analysis of Regional Policy in the Fifth Republic.
Content:
This option will examine the progress towards decentralisation brought about during the Fifth Republic, and specifically since 1981, against a background of historic centralisation of both government and administration in France. It will also explore the potential for a French contribution to the regional debate at a European level. Taught in French.


ESML0272: French politics & society 2B, option 2: 'Capitale et province'

Semester 2

Credits: 3

Contact:

Topic: French

Level: Level 2

Assessment: ES67 CW33

Requisites: Pre ESML0011

Aims & learning objectives:
To build on the experience of Politics & Society by applying the expertise gained so far to an analysis of 'Capitale et province'.
Content:
This option will examine the French experience of regional and provincial identities, and of 'Paris et le désert français' from social, political, cultural and linguistic perspectives. The emphasis will be on ways in which difference is asserted in the face of modern tendencies towards sameness and globalization, with analysis of a wide range of historical and modern texts and visual material. Taught in French.


ESML0273: French politics & society 2B, option 3: The role & position of women in French society

Semester 2

Credits: 3

Contact:

Topic: French

Level: Level 2

Assessment: ES67 CW33

Requisites: Pre ESML0011

Aims & learning objectives:
To build on the experience of Politics & Society by applying the expertise gained so far to the role and position of women in French society.
Content:
This unit will examine the role and position of women in French society. The course will analyse women's rights in terms of legislation (divorce, abortion, the notion of equality) and explore women's involvement in the labour market, politics and government. Taught in French.


ESML0274: French politics & society 2B, option 4: French local politics

Semester 2

Credits: 3

Contact:

Topic: French

Level: Level 2

Assessment: ES67 CW33

Requisites: Pre ESML0011

Aims & learning objectives:
To build on the experience of Politics & Society by applying the expertise gained so far to French local politics.
Content:
The focus of the course will be the analysis of political behaviour in the local/regional context. Particular attention will be paid to the sociological and cultural factors that shape patterns of electoral behaviour. Taught in French.


ESML0275: French politics & society 2B, option 5: Rural society in contemporary France

Semester 2

Credits: 3

Contact:

Topic: French

Level: Level 2

Assessment: ES67 CW33

Requisites: Pre ESML0011

Aims & learning objectives:
To build on the experience of Politics & Society by applying the expertise gained so far to Rural society in contemporary France.
Content:
The focus of the course will be the development of French rural society. It will examine the recent history of the countryside and how rural communities have adapted to the pressures of social and economic change. Taught in French.


ESML0276: French politics & society 2B, option 6: The experience of women during the Second World War

Semester 2

Credits: 3

Contact:

Topic: French

Level: Level 2

Assessment: ES67 CW33

Requisites: Pre ESML0011

Aims & learning objectives:
To build on the experience of Politics & Society by applying the expertise gained so far to the experience of women during the Second World War.
Content:
This unit will explore the experience of women during the Second World War, the Occupation and Liberation. It will examine the ways in which French women developed strategies for survival and how some were drawn towards collaboration or resistance. It will analyse the importance of the Liberation and its impact on women's lives. Taught in French.


ESML0277: French politics & society 2B, option 7: La France: une société au pluriel

Semester 2

Credits: 3

Contact:

Topic: French

Level: Level 2

Assessment: ES67 CW33

Requisites: Pre ESML0011

Aims & learning objectives:
To build on the experience of Politics & Society by applying the expertise gained so far to La France: une societé au pluriel.
Content:
Changing social structures in France; social reproduction and mobility; the nature and effects of the French educational system; the social backgrounds of political, administrative and business elites; case-studies of persisting social disadvantage in France. Taught in French.


ESML0278: French politics & society 2B, option 8: Political communication from party & individual

Semester 2

Credits: 3

Contact:

Topic: French

Level: Level 2

Assessment: ES67 CW33

Requisites: Pre ESML0011

Aims & learning objectives:
To build on the experience of Politics & Society by applying the expertise gained so far to an analysis of political communication from party and individual.
Content:
This option will examine the increasing use of political communication in the Fifth Republic, tracing how the development of mass communication has led to the increasing 'sophistication' of presentation of the political message. It will also provide students with the tools to analyse political communication within the French context. Taught in French.


ESML0279: French politics & society 2B, option 9: France coming to terms with the German occupation of 1940-44

Semester 2

Credits: 3

Contact:

Topic: French

Level: Level 2

Assessment: ES67 CW33

Requisites: Pre ESML0011

Aims & learning objectives:
To build on the experience of Politics & Society by applying the expertise gained so far to an analysis of France coming to terms with the German Occupation of 1940-1944 some fifty years on.
Content:
This option will examine the ways in which France has come to terms with the Occupation of 1940-1944, by taking post-war events and individuals connected with the Occupation (e.g. Paul Touvier, Renéé Bousque, François Mitterrand, Maurice Papon) and investigating reactions to those events and individuals. Taught in French.


ESML0298: French politics & society 2B: option 10: La France dans le monde

Semester 2

Credits: 3

Contact:

Topic: French

Level: Level 2

Assessment: ES67 CW33

Requisites: Pre ESML0011

Aims & learning objectives:
To build on the students' knowledge of French politics by analysing the main features of French foreign policy in the principal areas of the world where significant French influence still prevails.
Content:
This option will examine two main issues. First, the foreign policy-making process in Fifth Republic France. Second, the evolution of French diplomacy with regard to the key issues and regions of the post-war world: NATO and the Atlantic system, European integration, Africa, the Arab world, the Pacific. The student group will have the chance of broad coverage or of concentration on a restricted number of regions.


ESML0299: French comparative employee relations B

Semester 2

Credits: 6

Contact:

Topic: French

Level: Level 2

Assessment: ES100

Requisites: Pre UNIV0002

Aims & learning objectives:
To develop knowledge of the legislative and contractual framework for employment relations in these countries; to familiarise students with key concepts in employment relations and key vocabulary in French; to use authentic French-language documents produced by public agencies, employers and trade unions. After successfully completing the course, students should be able to write in French on an aspect of employmeent relations in France and to discuss in French contemporary issues of employment relations.
Content:
Trade unions, employers' associations in France; the role of the State; representative institutions in the workplace; trends in collective bargaining; training, qualifications and work organization.


ESML0373: French politics & society 2B, option 11: Political scandals in France

Semester 2

Credits: 3

Contact:

Topic: French

Level: Level 2

Assessment: ES67 CW33

Requisites: Pre ESML0011

Aims & learning objectives:
To build on the experience of Politics and Society by applying the expertise gained so far to an analysis of Political Scandals in France.
Content:
This option will focus on the numerous scandals that are one of the most prominent features of French politics, how they emerge, how they develop and how they are resolved. Scandals offer a unique means of looking at the inner workings of an entire political system. The course will concentrate on specific case studies, such as the "affair" of the Rainbow Warrior, the "scandal" of the avions renifleurs, le carrefour du développement, and the Bernard Tapie affair.


ESML0388: French national option F7: Les partis politiques en France

Semester 1

Credits: 6

Contact:

Topic: French

Level: Level 3

Assessment: ES67 CW33

Requisites: Pre ESML0011

Aims & learning objectives:
To study the role played by political parties within the democratic process in France, their history, development, organisation, strategies and programmes since the turn of the century, and to examine what role they play today in French politics in the light of the Fifth Republic's avowed goal of putting an end to partisan divisions. To offer students the opportunity to develop their research skills and to gain a better understanding of the way the French political system works as a whole.
Content:
The major topics surveyed will be the following: the partisan system before 1958, the bipolarisation after 1958, the organisation of parties, the funding of political parties, and the emergence of new political forces.


MANG0006: Business economics

Semester 2

Credits: 5

Contact:

Topic:

Level: Level 1

Assessment: EX100

Requisites: Pre ECOI0044

Aims & learning objectives:
The course aims to develop students' understanding of the operation of markets, especially product markets, in theory and practice, and knowledge of the economic determinants of firms' competitive behaviour and performance within them. After taking this course, students will be able to understand the main features of competitive structure, firm behaviour and industrial performance and the inter-relationship between them, and apply this knowledge to investigate competitive conditions and behaviour in actual markets.
Content:
The market structure-conduct-performance model; market demand, the characteristics of goods and market segmentation; supply and changing cost conditions; industrial concentration, barriers to entry and exit and other aspects of structure; price behaviour under conditions of competition and cooperation; the determinants of performance and import of government competition policy.


MANG0008: Introduction to the financial management of the organisation

Semester 2

Credits: 5

Contact:

Topic:

Level: Level 1

Assessment: EX50 CW50

Requisites:

Aims & learning objectives:
Students will understand how accounting and financial management serves the purpose of developing and operating a business. They will acquire a broad knowledge of the different dimensions of financial management and accounting which they may study in depth in later years of the course and an introductory working knowledge of basic tools of financial analysis and practice.
Content:
(a) Financial planning and control; The financial dimension of businesses and other organisations; Investing in assets to yield a return - including the use of spreadsheets to calculate investment value and conduct sensitivity tests; Financing asset acquisition and an introduction to the cost of capital; Estimating costs for planned activities - fixed and variable costs; direct and indirect costs; basic elements of product cost; Preparation of cash budgets - including spreadsheet modelling and sensitivity tests; Annual budgeting, profit planning, liquidity control and longer term financial projections; Preparation of budgets and projected Profit and Loss Accounts and Balance Sheets; Controlling operations and cost control. (b) Reporting results in financial terms; Reporting performance and financial results to higher levels in the organisation - cost centre reports, profit centre reports, investment centre reports; Reporting the results to shareholders and other outside parties - preparation of final accounts, structure and interpretation of final accounts, underlying concepts (going concern, prudence, materiality, etc.); Measures of performance in the financial press - share prices, earnings per share, p/e ratios, assessing the quality of earnings announcements, etc.; Outline of the role of company law, the accounting profession and Accounting Standards in controlling the content of published information; Outline of complications created by going international/ global for investment analysis, financing the business, financial control and financial reporting.


MANG0028: Emerging patterns of thought belief & action

Semester 1

Credits: 5

Contact:

Topic:

Level: Level 2

Assessment: ES50 CW50

Requisites:

Student should have already taken MANG0005, MANG0083 or MANG0070 Aims & learning objectives:
To invite students to understand, engage with and evaluate sources which suggest that the dominant paradigm or world view of Western civilisation is undergoing a major transformation, with associated changes in social values and practices.
Content:
A series of focused explorations looking at: notions of paradigms and change; the Gaia hypothesis; ecological thinking; economics and new economics; systems thinking; gender and diversity; spirituality; the self; and other associated issues.


MANG0035: Aspects of Japanese business

Semester 1

Credits: 5

Contact:

Topic:

Level: Level 3

Assessment: EX80 CW20

Requisites:

Students should already have taken MANG0005, MANG0083 or MANG0070 Aims & learning objectives:
The aim of this course is to critically examine and to provide an understanding of the nature of Japanese business organization. After completing the unit the student should be able to: identify the political, economic and social forces underpinning the emergence of Japanese business forms; understand the relationships between business, the state and trade unions in contemporary Japan; describe the human resource management practices characteristic of Japanese business; explain the internationalization of Japanese business; assess the transferability of Japanese business practice to alien environments.
Content:
The political economy of Japan; Japan's institutional environment; Japanese production systems; Organization and power in Japanese organizations; Cross-national transfer of Japanese production and management practices; Industrial relations in Japan and Japanese subsidiaries in the West.


MANG0035: Aspects of Japanese business

Semester 2

Credits: 5

Contact:

Topic:

Level: Level 3

Assessment: EX80 CW20

Requisites:

Aims & learning objectives:
The aim of this course is to critically examine and to provide an understanding of the nature of Japanese business organization. After completing the unit the student should be able to: identify the political, economic and social forces underpinning the emergence of Japanese business forms; understand the relationships between business, the state and trade unions in contemporary Japan; describe the human resource management practices characteristic of Japanese business; explain the internationalization of Japanese business; assess the transferability of Japanese business practice to alien environments.
Content:
The political economy of Japan; Japan's institutional environment; Japanese production systems; Organization and power in Japanese organizations; Cross-national transfer of Japanese production and management practices; Industrial relations in Japan and Japanese subsidiaries in the West.


MANG0036: Consumer research

Semester 1

Credits: 5

Contact:

Topic:

Level: Level 3

Assessment: EX60 ES40

Requisites: Pre MANG0016, Pre MANG0081, Pre MANG0073

Students must have taken a unit in Marketing: MANG0016, MANG0073 or MANG0081. Aims & learning objectives:
To develop a critical evaluation of the range of consumer research techniques. The student should be able appreciate the value of consumer research in marketing decision making, to be able to judge other person's research efforts, and be able to plan their own research programmes.
Content:
There is a strong emphasis on the rationales for conducting consumer research, for qualitative and quantitative methods and for particular techniques. There are no statistics on this course though an appreciation of statistical methods would be necessary to fully appreciate many of the themes developed. There are set readings for each lecture session. Students are expected to have prepared for each lecture by reading the set article, preparing notes and developing issues to debate in class. Each student will be expected to make a presentation and lead a debate in class at least once throughout the course.


MANG0037: Cost management

Semester 1

Credits: 5

Contact:

Topic:

Level: Level 3

Assessment: EX50 CW50

Requisites:

Students should already have taken MANG0008 or MANG0070 Aims & learning objectives:
To acquaint students with topical issues in cost management and cost reduction and provide practical insights. The course will be heavily based upon analyses of case studies which address these issues and develop students' abilities to critique the practical design of cost management and management accounting systems. This course links cost management directly to central strategic issues in managing the organisation.
Content:
Issues will be selected each year depending upon current issues of concern, but the following selection illustrates the nature of the material addressed: A review of activity based costing - where it has and has not strategic significance; The role accounting can play in quality control and removing waste; Implications of changing technology (e.g. flexible manufacturing) and changing organisational forms (e.g. inter-organisational supply chain relationships and other organisational networking) for cost accounting and management; Target costing and kaizen costing and its relationship to strategic analysis; The theory of constraints and continual improvement - implications for accounting; The nature of strategic management accounting; Whether there is a given best cost management system or whether there are appropriate contexts for the different recent developments; Implementation problems in introducing new cost management systems.


MANG0039: Employment law

Semester 1

Credits: 5

Contact:

Topic:

Level: Level 3

Assessment: EX60 OT40

Requisites:

Students should already have taken MANG0007 or MANG0078 Aims & learning objectives:
This unit is designed to give students a comprehensive and realistic insight into the legal framework of the employer/employee relationship and its impact on the parties directly involved in the wider social context.
Content:
Legal framework; principles of contract law; implied terms and duties in the contract of employment; safety at work; discrimination; duties of ex-employees; termination of contract of employment; redundancy; unfair dismissal.


MANG0040: European integration studies 1

Semester 1

Credits: 5

Contact:

Topic:

Level: Level 3

Assessment: EX50 ES50

Requisites:

IMML students must take MANG0059 in the next semester if they take this unit. They should already have taken MANG0006 or MANG0070. Aims & learning objectives:
To provide a basic grounding in the theory, politics and economics of European integration. Students will complete the course with a sound knowledge of European Union institutions and key economic policies.
Content:
Subjects covered will be: integration theory; EU political institutions, their legitimacy and their accountability; the EU decision-making process; EC finances and funds; the single market and Europe's lost competitiveness; competition policy; the EU, world trade and developing countries; regional policy; economic and monetary union; the enlargement of the EU, the EEA and Central and Eastern Europe. Lectures will be supplemented by case study discussions, tutorial sessions and a revision workshop.


MANG0041: Financial reporting & accounting standards

Semester 1

Credits: 5

Contact:

Topic:

Level: Level 3

Assessment: EX50 ES50

Requisites:

Students must have taken MANG0025, MANG0084 or equivalent in order to take this unit. Aims & learning objectives:
To introduce and discuss topical issues in corporate financial reporting and to ensure that students understand a number of key accounting standards, the reasons they were adopted in favour of possible alternative treatments and their implications for reporting and auditing practice.
Content:
The nature of standards and the standard setting process. Substance over form - FRS 4 and 5. The measurement of profit and capital maintenance: historical cost, current cost accounting and their relationship to economic profit. FRS3. Accounting for corporate groups - mergers and acquisitions, balance sheets and profit and loss accounts FRS2, 6 and 7. Goodwill and intangible assets SSAP22 plus current debate. Special problems: a selection from research and development (SSAP13), deferred tax (SSAP15), investment properties (SSAP19), leases and hire purchase (SSAP21), pensions (SSAP24), foreign currency (SSAP20). Note: The Accounting Standards mentioned are those currently applied at the time this syllabus was prepared. The course will keep up-to-date and address any subsequent standards issued on these topics.


MANG0042: Managing conflict

Semester 1

Credits: 5

Contact:

Topic:

Level: Level 3

Assessment: EX60 ES40

Requisites:

Students should have already taken MANG0005, MANG0083 or MANG0070. Aims & learning objectives:
The course examines the sources, characteristics and possible methods of managing conflict. Although the main focus will be on conflict within the employment relationship other arenas will also be examined. Particular attention will be given to negotiating and bargaining processes and conflict resolution processes involving third parties.
Content:
How and why does conflict emerge? Its forms, features and dynamics. Negotiating and Bargaining: concepts and models Preparing for Negotiations: practical issues Negotiating in practice: skills and techniques Models of practice: analysis and re-evaluation Negotiating in action: a practical case Third Party Intervention: background and issues Role of ACAS: institutions and practices Third Party intervention in practice: skills and techniques Third Parties: problems and issues


MANG0044: Organisational change & design

Semester 1

Credits: 5

Contact:

Topic:

Level: Level 3

Assessment: EX70 ES30

Requisites:

Students should have taken MANG0005, MANG0083 or MANG0070 Aims & learning objectives:
To provide students with a critical appreciation of the ideas of management gurus and how these set and guide the practice of change. This popular view is contrasted with more academic approaches and developed through a consideration of the (re)design of organisational forms suitable for an age that increasingly requires organizations to be global and innovative.
Content:
Topics will be drawn from the following: Fashions and fads - the history of ideas in change management; The role of business gurus in defining the practice of change; Orders and types of change - 1st, 2nd and reframing; The politics of organizational change; Organizational design and contingency theory; Organizational forms for the future - innovative and global.


MANG0045: Pay & rewards

Semester 1

Credits: 5

Contact:

Topic:

Level: Level 3

Assessment: EX60 CW40

Requisites:

Aims & learning objectives:
The course will enable the student to provide informed advice on the major aspects of pay, rewards and performance management, based on a sound understanding of the relevant theories and research evidence.
Content:
The role of reward strategy in an organisation. Economic, sociological and psychological theories which have influenced pay policies and practices. Concepts of reward structure, reward system and reward levels. Different perceptions of fairness which influence employees' satisfaction with their rewards. Government pay policies. Top people's pay. Objectives and limitations of job evaluation. Performance-related pay in principle and in practice. Knowledge-based, skill-based and competence-based rewards. Pay discrimination and equal pay. Employee benefits.


MANG0046: Product policy

Semester 1

Credits: 5

Contact:

Topic:

Level: Level 3

Assessment: EX60 CW40

Requisites: Pre MANG0034, Pre MANG0081, Pre MANG0070

Students must have taken one of the above units in order to study this unit. Aims & learning objectives:
Decisions about the product offering are central to a firm's marketing activities and ultimately its long term survival and economic prosperity. This course is concerned with theories, concepts and statistical techniques which can be used to analyse product policies. It starts by exploring subjects which relate to the various stages in the new product development (NPD) process and those which represent important issues that have emerged from research on NPD. The unit also recognising that NPD is an important managerial activity which interfaces with organisational, and brand and portfolio management activities. Case studies will explore and develop issues, including the application of various analytical models and techniques. In addition, coursework of a market research nature will involve the collection and analysis of quantitative data for the purposes of new product development decision-making. Themes include: the new product development process, exploring the what constitutes a successful new product development process, idea generating and screening decisions, concept testing and conjoint modelling and pre-test and test market models; issues in brand management including brand extensions as a launch strategy, the challenges posed by the rise of retailers' own-label products to manufacturers, portfolio management and the product deletion decision. Students should be able to: 1. Understand the importance and risks associated with the new product development process. 2. Critically evaluate the strengths and weaknesses associated with various empirical techniques used in the development of new products. 3. Develop a critical understanding of the theory, concepts and techniques of product policy.


MANG0048: Strategic analysis

Semester 1

Credits: 5

Contact:

Topic:

Level: Level 3

Assessment: EX60 ES40

Requisites: Pre MANG0016, Pre MANG0081, Pre MANG0073, Pre MANG0008, Pre MANG0069

Students must have taken MANG0034, MANG0070 or MANG0081 in order to study this unit. Aims & learning objectives:
An understanding of how strategists proactively shape the mission, objectives and strategies of their organisations within prevailing environmental and organisational constraints. Exposure to the theoretical insights and methodological approaches available to interpret and develop the competitive strategic position of the enterprise under complexity and uncertainty. Students are expected to contribute actively to class discussions and through careful preparation to become proficient at analysing specific situations using appropriate conceptual models allied to pragmatic, well-reasoned judgements with respect to the content of strategies and feasibility of implementation.
Content:
Topics include: the nature of corporate objectives and mission statements; analysing operating performance; the competitive market/industry environment; sources of rivalry; the value chain; assessing opportunities and threats; the development and application of core competencies; strategies in growth, maturity and in decline; managing ambiguity and complexity in the multi-firm (global) corporate environment. Case studies are used to explore and interpret issues.


MANG0049: Strategic marketing

Semester 2

Credits: 5

Contact:

Topic:

Level: Level 3

Assessment: EX60 ES40

Requisites: Pre MANG0016, Pre MANG0081, Pre MANG0073

Students must have taken one of the above units in order to study this unit. Aims & learning objectives:
An applied and thematic approach to forming and implementing effective marketing strategies for the business enterprise. The unit aims to help students interpret competitive market positions and explore how they can be sustained via product and market-oriented initiatives under conditions of environmental uncertainty and competitive threat. Students are expected to contribute actively to class discussions and through careful preparation become proficient at analysing specific situations using appropriate conceptual models allied to pragmatic, well-reasoned judgements.
Content:
Topics include: the meaning of marketing strategy and generic strategies (and the form of the latter); interfaces with shorter term marketing activities and longer term corporate strategies; external trend analysis; strategies through the life cycle; product/service innovation strategies; the strategic significance of brands and reputation; portfolio development; international strategies; issues in planning & implementing strategies. Case examples are used to explore and interpret issues.


MANG0050: Supply management

Semester 1

Credits: 5

Contact:

Topic:

Level: Level 3

Assessment: EX60 CW40

Requisites:

Students should have taken MANG0006 or MANG0070. Aims & learning objectives:
To develop in the student a broad understanding of the principles, concepts and approaches employed in the management of supply between industrial, commercial, and governmental organisations. To differentiate between operational and strategic approaches to management of supply To provide the student with a practical framework, built from research and experience, for understanding and analysing the development of supply management.
Content:
Introduction to supply management and the concepts of purchasing, procurement, supply, value flow and inter-firm relationships. Sourcing strategies and their implications for corporate strategies. Information systems in supply management. The concept of inter-organisational relationships. Supply chain management. Negotiation as a technique and management challenge. Lean principles and the concept of value flow. Outsourcing and the management of associated relationships. Government procurement: regulated markets. Logistics.


MANG0050: Supply management

Semester 2

Credits: 5

Contact:

Topic:

Level: Level 3

Assessment: EX60 CW40

Requisites:

Aims & learning objectives:
To develop in the student a broad understanding of the principles, concepts and approaches employed in the management of supply between industrial, commercial, and governmental organisations. To differentiate between operational and strategic approaches to management of supply To provide the student with a practical framework, built from research and experience, for understanding and analysing the development of supply management.
Content:
Introduction to supply management and the concepts of purchasing, procurement, supply, value flow and inter-firm relationships. Sourcing strategies and their implications for corporate strategies. Information systems in supply management. The concept of inter-organisational relationships. Supply chain management. Negotiation as a technique and management challenge. Lean principles and the concept of value flow. Outsourcing and the management of associated relationships Government procurement: regulated markets. Logistics.


MANG0051: Technology management

Semester 1

Credits: 5

Contact:

Topic:

Level: Level 3

Assessment: EX60 ES40

Requisites:

Students should have taken MANG0006 or MANG0070. Aims & learning objectives:
This unit is concerned with the management of technology and technological innovation from the firm's perspective. The aim is to introduce students to some of the managerial issues raised by the creation, adoption and diffusion of technology over time. The objectives are firstly, to provide an appreciation of the need to manage technology beyond any R & D department and secondly, to develop an understanding of alternative approaches to the acquisition, organisation and exploitation of technology and the factors influencing the relative success of these in different environments.
Content:
The course examines patterns of technological change, how technology affects competition, the impact of technology on individual firms' competitive advantage and the development of strategies and managerial methods to meet the challenges of the increasingly technology-driven environment. Topics include patterns of R & D, technical trajectories, sources of product and process innovation and the innovation environment. Developing a strategic approach to technology. Technology as a company asset and technical auditing. Technology forecasting and foresight. The relationship between technological change, industry structure and competitive advantage. Factors influencing success in technological innovation.. Different technology strategies and decisions concerning R&D, innovation and the commercialisation of new products/ processes. The protection of industrial and intellectual property. The diffusion of technology by contract, acquisition, imitation and manpower flows.


MANG0053: Advanced supply management

Semester 2

Credits: 5

Contact:

Topic:

Level: Level 3

Assessment: EX60 CW40

Requisites: Pre MANG0050

Aims & learning objectives:
To develop in the student an advanced understanding of the principles, concepts and approaches employed in the management of supply between industrial, commercial, and governmental organisations. To develop strategic and innovative approaches to management of supply To provide the student with a practical framework, built from research and experience, for understanding and analysing the development of strategic supply management.
Content:
Recap on previous study in Supply Management. Further exploration of sourcing strategies and their implications for corporate strategies. Strategies based upon information systems in supply management. The concept of inter-organisational relationships: trust, power and dependencies. Inter-organisational networking. Further depth on lean principles and the concept of value flow. Outsourcing and the management of relational competence. Government procurement: regulated markets. Logistics.


MANG0054: Business strategies & human resource management

Semester 2

Credits: 5

Contact:

Topic:

Level: Level 3

Assessment: EX60 CW40

Requisites:

Students should have taken MANG0005, MANG0070 or MANG0080. Aims & learning objectives:
The course will enable to the student to study Human Resource Management at an advanced level especially by critically examining contemporary theory and practice on the link between HRM and business strategies. The student will appreciate the effect of different types of HRM strategies on firm performance and locate these within the context of the role of the state and trade union organisation, membership and strategy. The student will be able to evaluate the strategies and policies of a wide variety of organisations in the public and private sectors and be equipped to debate these issues with senior HR and Personnel executives. The key topics covered include HRM: Rhetoric and Reality; Strategy, structure and devolution/decentralisation; the pursuit of flexibility in its various forms; the resource view of strategy; the distinction between high commitment management and the matching models of HRM; cost leadership models and the fragmentation of the firm; management style in the context of trade union behaviour and the role of the state in the UK and Europe. Examples will be taken from numerous countries.


MANG0055: Corporate governance & regulation

Semester 2

Credits: 5

Contact:

Topic:

Level: Level 3

Assessment: EX50 ES50

Requisites:

Students should have taken MANG0006 or MANG0070. Aims & learning objectives:
The course will acquaint students with a range of issues which come under the broad heading of governance and regulation of corporate practices. This will include the nature of the company and responsibilities of its principal officers, concerns about the state of corporate governance and the special regulatory issues associated with public control over utilities. The latter part of the course will recognise the growing phenomenon of globalisation and the need for regulation by international accounting standards
Content:
Issues selected each year from: The nature of the corporation and the position of shareholders, chairmen, CEOs, executive directors and non-executive directors; The nature of corporate governance and development of a conceptual framework for governance - including the relationship between governance and management; Examples of crises in governance; Governance as exercised in different countries; Whistle-blowing as a means of governance; The place of top executive compensation schemes in corporate governance considerations; Regulation of MNCs and cross-border transfer pricing; The regulation of public utilities; International standard setting in accounting and relationship to national standards; Financial reporting in the European Union; Comparative accounting practices in selected countries. Financial statement analysis using accounts of different countries


MANG0057: Depth psychology of the consumer

Semester 2

Credits: 5

Contact:

Topic:

Level: Level 3

Assessment: EX60 ES40

Requisites:

Students should have taken MANG0005, MANG0070 or MANG0080. Aims & learning objectives:
To develop the students' understanding of contemporary consumerism and of the behaviour of different groups of consumers organizational by using the concepts and theories from depth psychology.
Content:
A summary of core concepts and theories of depth psychology. Material culture and interpretation. Classical social theories of consumption, status, fashion and display. The concept of consumer choice. Gifts and communicative qualities of material objects. Adolescence and life-style consumption. The Diderot effect. Hedonism and aesthetic orientation to consumption. The influences of social class. Postmodern theories of consumption and mass media. Advertising, images and simulacra.


MANG0058: Ecological thinking & action in management

Semester 2

Credits: 5

Contact:

Topic:

Level: Level 3

Assessment: CW50 ES50

Requisites:

Aims & learning objectives:
The aim of this unit is to explore global trends in social, political, environmental and ethical thinking and explore their implications for the role of business and the practice of management.
Content:
A series of focused explorations looking at: the changing context of business; globalisation, sustainable development; management of natural resources; system dynamics; ecological thinking and practices in management; developments in economic and social indicators; and other associated issues.


MANG0059: European integration studies 2

Semester 2

Credits: 5

Contact:

Topic:

Level: Level 3

Assessment: ES100

Requisites: Pre MANG0040

IMML students must take this unit if they have taken MANG0040 in the previous semester. Aims & learning objectives:
To provide an advanced knowledge of the impact of European policies on individuals, managements and work organisations in the European Union. Students will complete the course unit with a detailed knowledge of social, environmental and sectoral impacts of integration and how business interests can influence the EU decision-making process.
Content:
Subjects covered will be: Social and employment policy issues and the firm; EU environment policy and its impact upon business and communities; the harmonisation of company law; sectoral impacts of the single market and business strategies; lobbying the EU; transport policy and trans-European networks; implementation of EC law; the future direction of the EU. Lectures will be supplemented by case study discussions, a decision-making game, and tutorial sessions.


MANG0062: International business law

Semester 2

Credits: 5

Contact:

Topic:

Level: Level 3

Assessment: EX60 ES40

Requisites: Pre MANG0010, Pre MANG0024, Pre MANG0078

Students must have taken one of the above units in order to study this unit. Aims & learning objectives:
To put international trade contracts in their proper framework - in terms of the contracts and their enforcement and enforceability, and in the wider context of how businesses function in the international commercial field. Students will consider the different regimes which are relevant to making agreements in an international context, the problems which can arise and how to deal with them. Common contract terms and business relationships are examined so that students understand the principles which can facilitate or hinder international contracts.
Content:
Legal 'families' and their characteristics. Codified commercial law. Treaties and conventions. ICC and other private regimes. Principles of international trade and common principles of law on commercial agents; business forms; business liability. Commercial contracts; insurance; international banking; carriage; patents, arbitration, dispute resolution and enforcement. European Union law - competition, free movement.


MANG0064: Managing change

Semester 2

Credits: 5

Contact:

Topic:

Level: Level 3

Assessment: EX60 CW40

Requisites:

Students should have taken MANG0005, MANG0070 or MANG0080. Aims & learning objectives:
To introduce students to the theory and practice of change management in organizations ranging from diagnosis to intervention, and from thinking frameworks to frameworks for action.
Content:
Topics will be drawn from the following: Perspectives on the organizational situation; issue and problem diagnosis; Analysing the change situation - interpretation, explanation and feedback; the action learning framework; The basic tools and techniques of the change manager; The nature of the change process - models, theories and philosophies of change; Managing change - approaches and methods; Cultural change - concepts and practices; Leading change - strategies and styles.


MANG0067: Treasury management

Semester 2

Credits: 5

Contact:

Topic:

Level: Level 3

Assessment: EX50 ES50

Requisites:

Students should have taken MANG0008 or MANG0070. Aims & learning objectives:
To show how a large company manages sources of capital, relations with financial markets and shareholders and balances needs for finance with internationally spread organisations.
Content:
Issues selected from: Reviewing sources of finance and their costs Special sources of finance: convertibles and warrants and capital structure re-visited, leasing, export finance Balancing financing needs and sources Relations with external parties Bankruptcy prediction and avoidance Mergers and acquisitions International and domestic aspects of cash management Foreign exchange markets and foreign exchange rate risks Exposure management: hedging, swaps, options, interest rate risk, etc. Complications in investment appraisal in undertaking direct investment abroad International financing


MANG0069: Introduction to accounting & finance

Semester 2

Credits: 5

Contact:

Topic:

Level: Level 1

Assessment: EX50 CW50

Requisites:

Aims & learning objectives:
To provide students undertaking any type of degree study with an introductory knowledge of accounting and finance
Content:
The role of the accountant, corporate treasurer and financial controller Sources and uses of capital funds Understanding the construction and nature of the balance sheet and profit and loss account Principles underlying the requirements for the publication of company accounts Interpretation of accounts - published and internal, including financial ratio analysis Planning for profits, cash flow. Liquidity, capital expenditure and capital finance Developing the business plan and annual budgeting Estimating the cost of products, services and activities and their relationship to price. Analysis of costs and cost behaviour


MANG0072: Managing human resources

Semester 1

Credits: 5

Contact:

Topic:

Level: Level 1

Assessment: EX100

Requisites:

Aims & learning objectives:
The course aims to give a broad overview of major features of human resource management. It examines issues from the contrasting perspectives of management, employees and public policy.
Content:
Perspectives on managing human resources. Human resource planning, recruitment and selection. Performance, pay and rewards. Control, discipline and dismissal.


MANG0073: Marketing

Semester 2

Credits: 5

Contact:

Topic:

Level: Level 1

Assessment: EX100

Requisites: Ex MANG0016

Aims & learning objectives:
1. To provide an introduction to the concepts of Marketing. 2. To understand the principles and practice of marketing management. 3. To introduce students to a variety of environmental and other issues facing marketing today.
Content:
Marketing involves identifying and satisfying customer needs and wants. It is concerned with providing appropriate products, services, and sometimes ideas, at the right place and price, and promoted in ways which are motivating to current and future customers. Marketing activities take place in the context of the market, and of competition. The course is concerned with the above activities, and includes: consumer and buyer behaviour market segmentation, targetting and positioning market research product policy and new product development advertising and promotion marketing channels and pricing


MANG0074: Business information systems

Semester 1

Credits: 5

Contact:

Topic:

Level: Level 1

Assessment: EX60 CW25 OT15

Requisites:

Aims & learning objectives:
Information Technology (IT) is rapidly achieving ubiquity in the workplace. All areas of the business community are achieving expansion in IT and investing huge sums of money in this area. Within this changing environment, several key trends have defined a new role for computers: a) New forms and applications of IT are constantly emerging. One of the most important developments in recent years has been the fact that IT has become a strategic resource with the potential to affect competitive advantage: it transforms industries and products and it can be a key element in determining the success or failure of an organisation. b) Computers have become decentralised within the workplace: PCs sit on managers desks, not in the IT Department. The strategic nature of technology also means that managing IT has become a core competence for modern organisations and is therefore an important part of the task of general and functional managers. Organisations have created new roles for managers who can act as interfaces between IT and the business, combining a general technical knowledge with a knowledge of business. This course addresses the above issues, and, in particular, aims to equip students with IT management skills for the workplace. By this, we refer to those attributes that they will need to make appropriate use of IT as general or functional managers in an information-based age.
Content:
Following on from the learning aims and objectives, the course is divided into two main parts: Part I considers why IT is strategic and how it can affect the competitive environment, taking stock of the opportunities and problems it provides. It consists of lectures, discussion, case studies. The objective is to investigate the business impact of IS. For example: in what ways are IS strategic? what business benefits can IS bring? how does IS transform management processes and organisational relationships? how can organisations evaluate IS? how should IS, which transform organisations and extend across functions, levels and locations, be implemented? Part II examines a variety of technologies available to the manager and examines how they have been used in organisations. A number of problem-oriented case studies will be given to project groups to examine and discuss. The results may then be presented in class, and are open for debate. In summary, the aim of the course is to provide the knowledge from which students should be able to make appropriate use of computing and information technology in forthcoming careers. This necessitates some technical understanding of computing, but not at an advanced level. This is a management course: not a technical computing course.


MANG0076: Business policy

Semester 2

Credits: 5

Contact:

Topic:

Level: Level 1

Assessment: EX60 CW40

Requisites:

Aims & learning objectives:
To provide an appreciation of how organisations develop from their entrepreneurial beginnings through maturity and decline . To examine the interrelationship between concepts of policy and strategy formulation with the behavioural aspects of business To enable students to explore the theoretical notions behind corporate strategy Students are expected to develop skills of analysis and the ability to interpret complex business situations.
Content:
Business objectives , values and mission; industry and market analysis ; competitive strategy and advantage ; corporate life cycle; organisational structures and controls .


MANG0077: Quantitative methods & personal computing

Semester 1

Credits: 5

Contact:

Topic:

Level: Level 1

Assessment: EX50 CW30 OT20

Requisites:

Aims & learning objectives:
To introduce the student to quantitative methods used in business situations.
Content:
Using a spreadsheet; collection and presentation of data; descriptive statistics; correlation and regression; index numbers; time series; elementary probability; decision trees.


MANG0078: National business environment of UK 1 - legal aspects

Semester 1

Credits: 5

Contact:

Topic:

Level: Level 1

Assessment: EX60 ES40

Requisites:

Aims & learning objectives:
To provide a framework within which students can appreciate the interrelationships and interdependencies of core management disciplines. To introduce students to the fundamental legal concepts which affect businesses and the ways in which they function.
Content:
The course will examine different areas of the law and the different types of action which may be brought. In the area of property and contracts, the formulation of contracts, their validity, contents and enforceability will be examined. Performance of a contract and ways of resolving disputes are considered.


MANG0079: National business environment of UK 2

Semester 2

Credits: 5

Contact:

Topic:

Level: Level 1

Assessment: EX50 ES30 OT20

Requisites: Pre MANG0078

Aims & learning objectives:
This course aims to develop students understanding of the economic and industrial environment of the UK since World War II. Students will apply what they learn as they analyse current events.
Content:
Topics will include: the UK economy as a whole, including GDP, demand management and development; monetary, credit and fiscal policies; foreign trade and the balance of payments; labour and unemployment.


MANG0080: Organizations & individuals

Semester 1

Credits: 5

Contact:

Topic:

Level: Level 2

Assessment: EX40 ES40

Requisites: Pre MANG0079

Aims & learning objectives:
To develop students' understanding of behaviour in organizations through the introduction of key concepts, embedded in the relationship between individual and organization.
Content:
Introduction to organization theory and organization behaviour, including: history of organization theorising and perspectives on management, assumptions about human nature, individuals and perception, attitudes and values, learning, motivation and psychological contracts, organizational citizenship, ethics and social responsibility.


MANG0081: Principles of marketing

Semester 1

Credits: 5

Contact:

Topic:

Level: Level 2

Assessment: EX50 CW50

Requisites: Pre MANG0079, Ex MANG0016

Aims & learning objectives:
1. To provide an introduction to the concepts of marketing. 2. To understand the principles and practice of marketing management. 3. To introduce students to a variety of issues facing marketing today.
Content:
Marketing involves identifying and satisfying customer needs and wants. It is concerned with providing appropriate products, services and sometimes, ideas, at the right place and price, promoted in ways which are motivating to current and future customers. Marketing activities take place in the context of the market and of competition. The course is concerned with the above activities and includes: consumer and buyer behaviour; market segmentation, targetting and positioning; market research; product policy and new product development; advertising and promotion; marketing channels and pricing.


MANG0082: European business environment 1: European integration & legal structure

Semester 1

Credits: 5

Contact:

Topic:

Level: Level 2

Assessment: EX100

Requisites: Pre MANG0079

Aims & learning objectives:
To understand the structure, objectives and policy of the European Union and its legal foundations with respect to business
Content:
The content will cover: European integration and unity in the 1940s and 50s; The Treaty Base and legal structure; Business organisations; Business contracts; Impact of EU legislation on contracts; EU institutions and decision-making; Trade and competition - Customs union and CAP; Single European Market and future developments; EU social and regional policies; Policy on widening and deepening the Union.


MANG0083: Organizations & people

Semester 2

Credits: 5

Contact:

Topic:

Level: Level 2

Assessment: EX50 CW50

Requisites: Pre MANG0079

Aims & learning objectives:
To further develop students' understand of behaviour in organizatoins, through the introduction of key concepts underpinning the relationship between individual-group-organization in the context of international business.
Content:
Introduction to group process, 12 Angry Men/group decision making, evaluating group performance and diagnosing group problems, developing effective groups, leadership and followership , power and politics, organizational culture, national culture, international management and organization.


MANG0084: Financial management & IT & management

Semester 2

Credits: 5

Contact:

Topic:

Level: Level 2

Assessment: EX50 CW30 OT20

Requisites:

Aims & learning objectives:
This course combines two areas of study. The first aims to give students an idea of the major decision variables which the financial managers of a company need to consider in attaining the overall objective of the firm which is to maximise shareholders' wealth. The second aims to equip students with IT management skills for the workplace and to deal with management issues associated with IT, including an appreciation of the business value and opportunities stemming from new technology.
Content:
The first six weeks will examine: firms' objectives and wealth maximisation; the investment decision as generator of future wealth; the treatment of risk, the management of working capital and methods of financing. The second six weeks will examine: IT and corporate strategy; IT-induced transformation; evaluation of IT investments; project development and management; and the implementation of technology.


MANG0085: The internationalisation of business 1

Semester 1

Credits: 5

Contact:

Topic:

Level: Level 3

Assessment: EX60 CW35 OT10

Requisites: Pre UNIV0009, Pre UNIV0010, Pre UNIV0011, Pre UNIV0012, Pre UNIV0013, Pre UNIV0014

Students must have undertaken one of the above units i.e. IMML placement year in order to study this unit. Aims & learning objectives:
The course aims to introduce and assess the forms, motivations and processes of establishing and developing a multinational enterprise. It will explain the magnitude and significance of international business, both in manufacturing and service industries and discuss the terminology used. The students should be able: to understand and assess the options available to companies undergoing the internationalisation process; to analyse the different issues that arise and problems that need to be addressed when establishing and operating subsidiaries and affiliates across national boundaries; to identify and explain actual examples using theories introduced in the course.
Content:
The theories of international business, including internalisation, the eclectic theory and other theories of the multinational enterprise. The motivations for multinational operation - economic globalisation, competitive rivalry, resource or market seeking. The different forms of multinational operation, including contractual forms, equity arrangements, joint ventures, etc. but with a particular focus on foreign direct investment. An assessment of the advantages and disadvantages of each. The strategic options for establishing a global network of subsidiaries. The risks of international operations - political, economic and financial risk. The course will use case studies (industry and company-based) and students' class presentations to illustrate and explain the theories of international business. The motivations for multinational operation - economic globalisation, competitive rivalry, resource or market seeking. The different forms of multinational operation, including contractual forms, equity arrangements, joint ventures, etc. An assessment of the advantages and disadvantages of each. The financing of international operations - international trade finance, international equity markets, capital markets, foreign exchange issues. The risks of international operations - political, economic and financial risk. The methods of mitigating risks. The course will draw heavily on examples and will use the case studies (industry and company-based) and students' class presentations to illustrate and explain the theories of international business.


MANG0094: Economics of incentives

Semester 2

Credits: 5

Contact:

Topic:

Level: Level 3

Assessment: EX50 ES30 OT20

Requisites:

As well as the pre-requisite units (ECOI0044, MANG0006, or MANG0070), students must have undertaken a placement in order to study this unit. Aims & learning objectives:
This course uses economics to investigate the incentives generated by a range of contractual relationships. Students will link economic ideas to their own experiences in the workplace, and they will develop their written and oral communication skills.
Content:
Incentives are an integral part of many areas in economics, and so the topics examined in the course come from a range of economic disciplines. The course examines the application of principal-agent models to labour markets, capital markets, insurance markets, and corporate governance issues. Some of the topics addressed in the course will be: The use of pay systems to influence the behaviour of managerial and non-managerial employees; transaction costs as the reason for the existence of contracts; the importance of institutional structures as a response to transaction costs; and moral hazard and adverse selection.


MANG0095: The emotional organization

Semester 2

Credits: 5

Contact:

Topic:

Level: Level 3

Assessment: EX60 ES40

Requisites: Pre MANG0001, Pre MANG0005, Pre MANG0083

Students should have undertaken one of the above pre-requisite units. The pre-requisite units represent the minimum level of experience a student should have to undertake this unit. It is very desirable that you should have also undertaken more advanced units in the study of organizational behaviour, for example, MANG0011 or MANG0033. Aims & learning objectives:
Classic studies of organizations and management have stressed the rational, the cognitive; the predictable and the controlled. This course challenges these notions. It introduces some of the latest ideas on how feelings and emotions are central to the experience and organization of work. It explores the implication of this for management, decision making, organizational order and control.
Content:
The persisting myth of the rational organizational actor. Cognition and emotion; feelings and emotions. The historical and ideological context of emotion at work. Emotions and organizational culture. Emotion work and emotional labour. Pathologising emotion stress and anger. Commercialising feelings. Rethinking management.


MANG0096: Environmental management in organizations

Semester 1

Credits: 5

Contact:

Topic:

Level: Level 3

Assessment: EX60 CW40

Requisites: Pre MANG0005, Pre MANG0083

Students should have taken one of the above units. The pre-requisite units represent the minimum level of experience a student should have to undertake this unit. It is very desirable that you should have also undertaken more advanced units in the study of organizational behaviour, for example, MANG0011 or MANG0033. Aims & learning objectives:
Industry has been blamed for massive degradation to the natural environment. Is this fair? What are appropriate organizational responses? What are the realities behind the green rhetoric? This course will critically examine these, and related questions.
Content:
üThe risk society and industry. Ethics the new, green, ethical manager? Listening to stakeholders. Self-regulation and forcing compliance. Corporate exemplars. Resistance and backlash. Some futures.


MATH0001: Numbers

Semester 1

Credits: 6

Contact:

Topic: Mathematics

Level: Level 1

Assessment: EX100

Requisites:

Students must have A-level Mathematics, normally Grade B or better, or equivalent, in order to undertake this unit. Aims & learning objectives:
Aims: This course is designed to cater for first year students with widely different backgrounds in school and college mathematics. It will treat elementary matters of advanced arithmetic, such as summation formulae for progressions and will deal matters at a certain level of abstraction. This will include the principle of mathematical induction and some of its applications. Complex numbers will be introduced from first principles and developed to a level where special functions of a complex variable can be discussed at an elementary level. Objectives: Students will become proficient in the use of mathematical induction. Also they will have practice in real and complex arithmetic and be familiar with abstract ideas of primes, rationals, integers etc, and their algebraic properties. Calculations using classical circular and hyperbolic trigonometric functions and the complex roots of unity, and their uses, will also become familiar with practice.
Content:
Natural numbers, integers, rationals and reals. Highest common factor. Lowest common multiple. Prime numbers, statement of prime decomposition theorem, Euclid's Algorithm. Proofs by induction. Elementary formulae. Polynomials and their manipulation. Finite and infinite APs, GPs. Binomial polynomials for positive integer powers and binomial expansions for non-integer powers of a+b. Finite sums over multiple indices and changing the order of summation. Algebraic and geometric treatment of complex numbers, Argand diagrams, complex roots of unity. Trigonometric, log, exponential and hyperbolic functions of real and complex arguments. Gaussian integers. Trigonometric identities. Polynomial and transcendental equations.


MATH0002: Functions, differentiation & analytic geometry

Semester 1

Credits: 6

Contact:

Topic: Mathematics

Level: Level 1

Assessment: EX100

Requisites:

Students must have A-level Mathematics, normally Grade B or better, or equivalent, in order to undertake this unit. Aims & learning objectives:
Aims: To teach the basic notions of analytic geometry and the analysis of functions of a real variable at a level accessible to students with a good 'A' Level in Mathematics. At the end of the course the students should be ready to receive a first rigorous analysis course on these topics. Objectives: The students should be able to manipulate inequalities, classify conic sections, analyse and sketch functions defined by formulae, understand and formally manipulate the notions of limit, continuity and differentiability and compute derivatives and Taylor polynomials of functions.
Content:
Basic geometry of polygons, conic sections and other classical curves in the plane and their symmetry. Parametric representation of curves and surfaces. Review of differentiation: product, quotient, function-of-a-function rules and Leibniz rule. Maxima, minima, points of inflection, radius of curvature. Graphs as geometrical interpretation of functions. Monotone functions. Injectivity, surjectivity, bijectivity. Curve Sketching. Inequalities. Arithmetic manipulation and geometric representation of inequalities. Functions as formulae, natural domain, codomain, etc. Real valued functions and graphs. Introduction to MAPLE. Orders of magnitude. Taylor's Series and Taylor polynomials - the error term. Differentiation of Taylor series. Taylor Series for exp, log, sin etc. Orders of growth. Orthogonal and tangential curves.


MATH0003: Integration & differential equations

Semester 1

Credits: 6

Contact:

Topic: Mathematics

Level: Level 1

Assessment: EX100

Requisites:

Students must have A-level Mathematics, normally Grade B or better, or equivalent, in order to undertake this unit. Aims & learning objectives:
Aims: This module is designed to cover standard methods of differentiation and integration, and the methods of solving particular classes of differential equations, to guarantee a solid foundation for the applications of calculus to follow in later courses. Objective: The objective is to ensure familiarity with methods of differentiation and integration and their applications in problems involving differential equations. In particular, students will learn to recognise the classical functions whose derivatives and integrals must be committed to memory. In independent private study, students should be capable of identifying, and executing the detailed calculations specific to, particular classes of problems by the end of the course.
Content:
Review of basic formulae from trigonometry and algebra: polynomials, trigonometric and hyperbolic functions, exponentials and logs. Integration by substitution. Integration of rational functions by partial fractions. Integration of parameter dependent functions. Interchange of differentiation and integration for parameter dependent functions. Definite integrals as area and the fundamental theorem of calculus in practice. Particular definite integrals by ad hoc methods. Definite integrals by substitution and by parts. Volumes and surfaces of revolution. Definition of the order of a differential equation. Notion of linear independence of solutions. Statement of theorem on number of linear independent solutions. General Solutions. CF+PI. First order linear differential equations by integrating factors; general solution. Second order linear equations, characteristic equations; real and complex roots, general real solutions. Simple harmonic motion. Variation of constants for inhomogeneous equations. Reduction of order for higher order equations. Separable equations, homogeneous equations, exact equations. First and second order difference equations.


MATH0004: Sets & sequences

Semester 2

Credits: 6

Contact:

Topic: Mathematics

Level: Level 1

Assessment: EX100

Requisites: Pre MATH0115, Pre MATH0001

Aims & learning objectives:
Aims: To introduce the concepts of logic that underlie all mathematical reasoning and the notions of set theory that provide a rigorous foundation for mathematics. A real life example of all this machinery at work will be given in the form of an introduction to the analysis of sequences of real numbers. Objectives: By the end of this course, the students will be able to: understand and work with a formal definition; determine whether straight-forward definitions of particular mappings etc. are correct; determine whether straight-forward operations are, or are not, commutative; read and understand fairly complicated statements expressing, with the use of quantifiers, convergence properties of sequences.
Content:
Logic: Definitions and Axioms. Predicates and relations. The meaning of the logical operators Ù, Ú, ˜, ®, «, ", $. Logical equivalence and logical consequence. Direct and indirect methods of proof. Proof by contradiction. Counter-examples. Analysis of statements using Semantic Tableaux. Definitions of proof and deduction. Sets and Functions: Sets. Cardinality of finite sets. Countability and uncountability. Maxima and minima of finite sets, max (A) = - min (-A) etc. Unions, intersections, and/or statements and de Morgan's laws. Functions as rules, domain, co-domain, image. Injective (1-1), surjective (onto), bijective (1-1, onto) functions. Permutations as bijections. Functions and de Morgan's laws. Inverse functions and inverse images of sets. Relations and equivalence relations. Arithmetic mod p. Sequences: Definition and numerous examples. Convergent sequences and their manipulation. Arithmetic of limits.


MATH0005: Matrices & multivariate calculus

Semester 2

Credits: 6

Contact:

Topic: Mathematics

Level: Level 1

Assessment: EX100

Requisites: Pre MATH0002

Aims & learning objectives:
Aims: The course will provide students with an introduction to elementary matrix theory and an introduction to the calculus of functions from IRn ® IRm and to multivariate integrals. Objectives: At the end of the course the students will have a sound grasp of elementary matrix theory and multivariate calculus and will be proficient in performing such tasks as addition and multiplication of matrices, finding the determinant and inverse of a matrix, and finding the eigenvalues and associated eigenvectors of a matrix. The students will be familiar with calculation of partial derivatives, the chain rule and its applications and the definition of differentiability for vector valued functions and will be able to calculate the Jacobian matrix and determinant of such functions. The students will have a knowledge of the integration of real-valued functions from IR² ® IR and will be proficient in calculating multivariate integrals.
Content:
Lines and planes in two and three dimension. Linear dependence and independence. Simultaneous linear equations. Elementary row operations. Gaussian elimination. Gauss-Jordan form. Rank. Matrix transformations. Addition and multiplication. Inverse of a matrix. Determinants. Cramer's Rule. Similarity of matrices. Special matrices in geometry, orthogonal and symmetric matrices. Real and complex eigenvalues, eigenvectors. Relation between algebraic and geometric operators. Geometric effect of matrices and the geometric interpretation of determinants. Areas of triangles, volumes etc. Real valued functions on IR³. Partial derivatives and gradients; geometric interpretation. Maxima and Minima of functions of two variables. Saddle points. Discriminant. Change of coordinates. Chain rule. Vector valued functions and their derivatives. The Jacobian matrix and determinant, geometrical significance. Chain rule. Multivariate integrals. Change of order of integration. Change of variables formula.


MATH0006: Vectors & applications

Semester 2

Credits: 6

Contact:

Topic: Mathematics

Level: Level 1

Assessment: EX100

Requisites: Pre MATH0001, Pre MATH0002, Pre MATH0003

Aims & learning objectives:
Aims: To introduce the theory of three-dimensional vectors, their algebraic and geometrical properties and their use in mathematical modelling. To introduce Newtonian Mechanics by considering a selection of problems involving the dynamics of particles. Objectives: The student should be familiar with the laws of vector algebra and vector calculus and should be able to use them in the solution of 3D algebraic and geometrical problems. The student should also be able to use vectors to describe and model physical problems involving kinematics. The student should be able to apply Newton's second law of motion to derive governing equations of motion for problems of particle dynamics, and should also be able to analyse or solve such equations.
Content:
Vectors: Vector equations of lines and planes. Differentiation of vectors with respect to a scalar variable. Curvature. Cartesian, polar and spherical co-ordinates. Vector identities. Dot and cross product, vector and scalar triple product and determinants from geometric viewpoint. Basic concepts of mass, length and time, particles, force. Basic forces of nature: structure of matter, microscopic and macroscopic forces. Units and dimensions: dimensional analysis and scaling. Kinematics: the description of particle motion in terms of vectors, velocity and acceleration in polar coordinates, angular velocity, relative velocity. Newton's Laws: Kepler's laws, momentum, Newton's laws of motion, Newton's law of gravitation. Newtonian Mechanics of Particles: projectiles in a resisting medium, constrained particle motion; solution of the governing differential equations for a variety of problems. Central Forces: motion under a central force.


MATH0007: Analysis: Real numbers, real sequences & series

Semester 1

Credits: 6

Contact:

Topic: Mathematics

Level: Level 2

Assessment: EX100

Requisites: Pre MATH0006, Pre MATH0004, Pre MATH0005

Aims & learning objectives:
Aims: To reinforce and extend the ideas and methodology (begun in the first year unit MATH0004) of the analysis of the elementary theory of sequences and series of real numbers and to extend these ideas to sequences of functions. Objectives: By the end of the module, students should be able to read and understand statements expressing, with the use of quantifiers, convergence properties of sequences and series. They should also be capable of investigating particular examples to which the theorems can be applied and of understanding, and constructing for themselves, rigorous proofs within this context.
Content:
Suprema and Infima, Maxima and Minima. The Completeness Axiom. Sequences. Limits of sequences in epsilon-N notation. Bounded sequences and monotone sequences. Cauchy sequences. Algebra-of-limits theorems. Subsequences. Limit Superior and Limit Inferior. Bolzano-Weierstrass Theorem. Sequences of partial sums of series. Convergence of series. Conditional and absolute convergence. Tests for convergence of series; ratio, comparison, alternating and nth root tests. Power series and radius of convergence. Functions, Limits and Continuity. Continuity in terms of convergence of sequences. Algebra of limits. Convergence of sequences of functions, point-wise and uniform. Interchanging limits.


MATH0008: Algebra 1

Semester 1

Credits: 6

Contact:

Topic: Mathematics

Level: Level 2

Assessment: EX100

Requisites: Pre MATH0006, Pre MATH0004, Pre MATH0005

Aims & learning objectives:
Aims: To teach the definitions and basic theory of abstract linear algebra and, through exercises, to show its applicability. Objectives: Students should know, by heart, the main results in linear algebra and should be capable of independent detailed calculations with matrices which are involved in applications. Students should know how to execute the Gram-Schmidt process.
Content:
Real and complex vector spaces, subspaces, direct sums, linear independence, spanning sets, bases, dimension. The technical lemmas concerning linearly independent sequences. Dimension. Complementary subspaces. Projections. Linear transformations. Rank and nullity. The Dimension Theorem. Matrix representation, transition matrices, similar matrices. Examples. Inner products, induced norm, Cauchy-Schwarz inequality, triangle inequality, parallelogram law, orthogonality, Gram-Schmidt process.


MATH0009: Ordinary differential equations & control

Semester 1

Credits: 6

Contact:

Topic: Mathematics

Level: Level 2

Assessment: EX100

Requisites: Pre MATH0001, Pre MATH0002, Pre MATH0003, Pre MATH0005

Aims & learning objectives:
Aims: This course will provide standard results and techniques for solving systems of linear autonoumous differential equations. Based on this material an accessible introduction to the ideas of mathematical control theory is given. The emphasis here will be on stability and stabilization by feedback. Foundations will be laid for more advanced studies in nonlinear differential equations and control theory. Phase plane techniques will be introduced. Objectives: At the end of the course, students will be conversant with the basic ideas in the theory of linear autonomous differential equations and, in particular, will be able to employ Laplace transform and matrix methods for their solution. Moreover, they will be familiar with a number of elementary concepts from control theory (such as stability, stabilization by feedback, controllability) and will be able to solve simple control problems. The student will be able to carry out simple phase plane analysis.
Content:
Systems of linear ODEs: Normal form; solution of homogeneous systems; fundamental matrices and matrix exponentials; repeated eigenvalues; complex eigenvalues; stability; solution of non-homogeneous systems by variation of parameters. Laplace transforms: Definition; statement of conditions for existence; properties including transforms of the first and higher derivatives, damping, delay; inversion by partial fractions; solution of ODEs; convolution theorem; solution of integral equations. Linear control systems: Systems: state-space; impulse response and delta functions; transfer function; frequency-response. Stability: exponential stability; input-output stability; Routh-Hurwitz criterion. Feedback: state and output feedback; servomechanisms. Introduction to controllability and observability: definitions, rank conditions (without full proof) and examples. Nonlinear ODEs: Phase plane techniques, stability of equilibria.


MATH0010: Vector calculus & partial differential equations

Semester 1

Credits: 6

Contact:

Topic: Mathematics

Level: Level 2

Assessment: EX100

Requisites: Pre MATH0002, Pre MATH0003, Pre MATH0005, Pre MATH0006

Aims & learning objectives:
Aims: The first part of the course provides an introduction to vector calculus, an essential toolkit in most branches of applied mathematics. The second part introduces methods for the solution of linear partial differential equations. Objectives: At the end of this course students will be familiar with the fundamental results of vector calculus (Gauss' theorem, Stokes' theorem) and will be able to carry out line, surface and volume integrals in general curvilinear coordinates. They should be able to solve Laplace's equation, the wave equation and the diffusion equation in simple domains, using the techniques of separation of variables, Laplace transforms and, in the case of the wave equation, D'Alembert's solution.
Content:
Vector calculus: Work and energy; curves and surfaces in parametric form; line, surface and volume integrals. Grad, div and curl; divergence and Stokes' theorems; curvilinear coordinates; scalar potential. Fourier series: Formal introduction to Fourier series, statement of Fourier convergence theorem; Fourier cosine and sine series. Partial differential equations: classification of linear second order PDEs; Laplace's equation in 2-D, including solution by separation of variables in rectangular and circular domains; wave equation in one space dimension, including D'Alembert's solution; the diffusion equation in one space dimension, including solution by Laplace transform.


MATH0011: Analysis: Real-valued functions of a real variable

Semester 2

Credits: 6

Contact:

Topic: Mathematics

Level: Level 2

Assessment: EX100

Requisites: Pre MATH0007

Aims & learning objectives:
Aims: To give a thorough grounding, through rigorous theory and exercises, in the method and theory of modern calculus. To define the definite integral of certain bounded functions, and to explain why some functions do not have integrals. Objectives: Students should be able to quote, verbatim, and prove, without recourse to notes, the main theorems in the syllabus. They should also be capable, on their own initiative, of applying the analytical methodology to problems in other disciplines, as they arise. They should have a thorough understanding of the abstract notion of an integral, and a facility in the manipulation of integrals.
Content:
Weierstrass's theorem on continuous functions attaining suprema and infima on compact interval. Intermediate Value Theorem. Functions and Derivatives. Algebra of derivatives. Leibniz Rule and compositions. Derivatives of inverse functions. Rolle's Theorem and Mean Value Theorem. Cauchy's Mean Value Theorem. L'Hôpital's Rule. Monotonic functions. Maxima/Minima. Uniform Convergence. Cauchy's Criterion for Uniform Convergence. Weierstrass M-test for series. Power series. Differentiation of power series. Reimann integration up to the Fundamental Theorem of Calculus for the integral of a Riemann-integrable derivative of a function. Integration of power series. Interchanging integrals and limits. Improper integrals.


MATH0012: Algebra 2

Semester 2

Credits: 6

Contact:

Topic: Mathematics

Level: Level 2

Assessment: EX100

Requisites: Pre MATH0008

Aims & learning objectives:
Aims: In linear algebra the aim is to take the abstract theory to a new level, different from the elementary treatment in MATH0008. Groups will be introduced and the most basic consequences of the axioms derived. Objectives: Students should be capable of finding eigenvalues and minimum polynomials of matrices and of deciding the correct Jordan Normal Form. Students should know how to diagonalise matrices, while supplying supporting theoretical justification of the method. In group theory they should be able to write down the group axioms and the main theorems which are consequences of the axioms.
Content:
Linear Algebra: Properties of determinants. Eigenvalues and eigenvectors. Geometric and algebraic multiplicity. Diagonalisability. Characteristic polynomials. Cayley-Hamilton Theorem. Minimum polynomial and primary decomposition theorem. Statement of and motivation for the Jordan Canonical Form. Examples. Orthogonal and unitary transformations. Symmetric and Hermitian linear transformations and their diagonalisability. Quadratic forms. Norm of a linear transformation. Examples. Group Theory: Group axioms and examples. Deductions from the axioms (e.g. uniqueness of identity, cancellation). Subgroups. Cyclic groups and their properties. Homomorphisms, isomorphisms, automorphisms. Cosets and Lagrange's Theorem. Normal subgroups and Quotient groups. Fundamental Homomorphism Theorem.


MATH0013: Mathematical modelling & fluids

Semester 2

Credits: 6

Contact:

Topic: Mathematics

Level: Level 2

Assessment: EX75 CW25

Requisites: Pre MATH0009, Pre MATH0010

Aims & learning objectives:
Aims: To study, by example, how mathematical models are hypothesised, modified and elaborated. To study a classic example of mathematical modelling, that of fluid mechanics. Objectives: At the end of the course the student should be able to· construct an initial mathematical model for a real world process and assess this model critically· suggest alterations or elaborations of proposed model in light of discrepancies between model predictions and observed data or failures of the model to exhibit correct qualitative behaviour. The student will also be familiar with the equations of motion of an ideal inviscid fluid (Eulers equations, Bernoullis equation) and how to solve these in certain idealised flow situations.
Content:
Modelling and the scientific method: Objectives of mathematical modelling; the iterative nature of modelling; falsifiability and predictive accuracy; Occam's razor, paradigms and model components; self-consistency and structural stability. The three stages of modelling: (1) Model formulation, including the use of empirical information, (2) model fitting, and (3) model validation. Possible case studies and projects include: The dynamics of measles epidemics; population growth in the USA; prey-predator and competition models; modelling water pollution; assessment of heat loss prevention by double glazing; forest management. Fluids: Lagrangian and Eulerian specifications, material time derivative, acceleration, angular velocity. Mass conservation, incompressible flow, simple examples of potential flow.


MATH0014: Numerical analysis

Semester 2

Credits: 6

Contact:

Topic: Mathematics

Level: Level 2

Assessment: EX75 CW25

Requisites: Pre MATH0007, Pre MATH0008

Aims & learning objectives:
Aims: To teach elementary MATLAB programming. To teach those aspects of Numerical Analysis which are most relevant to a general mathematical training, and to lay the foundations for the more advanced courses in later years. Objectives: Students should have some facility with MATLAB programming. They should know simple methods for the approximation of functions and integrals, solution of initial and boundary value problems for ordinary differential equations and the solution of linear systems. They should also know basic methods for the analysis of the errors made by these methods, and be aware of some of the relevant practical issues involved in their implementation.
Content:
MATLAB Programming: handling matrices; M-files; graphics. Concepts of Convergence and Accuracy: Order of convergence, extrapolation and error estimation. Approximation of Functions: Polynomial Interpolation, error term. Quadrature and Numerical Differentiation: Newton-Cotes formulae. Gauss quadrature and numerical differentiation by method of undetermined coefficients. Composite formulae. Error terms. Numerical Solution of ODEs: Euler, Backward Euler, Trapezoidal and explicit Runge-Kutta methods. Stability. Consistency and convergence for one step methods. Error estimation and control. Shooting technique. Linear Algebraic Equations: Gaussian elimination, LU decomposition, pivoting, Matrix norms, conditioning, backward error analysis, iterative refinement. Direct methods for 2 point Boundary Value Problems.


MATH0015: Programming

Semester 1

Credits: 6

Contact:

Topic: Computing

Level: Level 1

Assessment: EX75 CW25

Requisites:

Aims & learning objectives:
Aims: To introduce functional programming while drawing out the similarities with abstract mathematics. To show that the mathematical thought process is a natural one for programming. To provide a gentle introduction to practical functional programming. Objectives: Students should be able to write simple functions, to understand the nature of types and to use data types appropriately. They should also appreciate the value and use of recursion.
Content:
Expressions, choice, scope and extent, functions, recursion, recursive datatypes, higher-order objects.


MATH0016: Information management 1

Semester 1

Credits: 6

Contact:

Topic: Computing

Level: Level 1

Assessment: EX50 CW50

Requisites: Ex MATH0126

Aims & learning objectives:
Aims: To introduce students to the use of a workstation, to word-processing, spreadsheets and relational data bases, and to the basic ideas of computing, and to the range of applications and misapplications of computers in science. To give students some experience of working in small groups. Objectives: Students should have a practical ability to use contemporary information management facilities. They should be able to write a good report, and they should have the confidence and the language to enable criticism of the use of computers in science.
Content:
Introduction: hardware, software, networking. Use of the workstation. Social issues. The relationship between computing and science. Computers as calculators, as simulating engines, and as new realities. Mathematical and computational models. The difficulty of validating or criticising computational models. Example of fluid flow, and the numerical wind tunnel. Experiment and decision making using computational models. Artificial intelligence, expert systems, neural nets, artificial evolution. The use and abuse of computers in science. Word processing, HTML, Scientific journalism and scientific reports. The goals of succinctness and clarity. Spreadsheets, organizing, exploring and presenting numerical data. Introduction to Statistics. Mean, standard deviation, histograms, the idea of probability density functions.


MATH0017: Principles of computer operation & architecture

Semester 1

Credits: 6

Contact:

Topic: Computing

Level: Level 1

Assessment: EX100

Requisites:

Aims & learning objectives:
Aims: To introduce students to the structure, basic design, operation and programming of conventional, von Neumann computers at the machine level. Alternative approaches to machine design will also be examined so that some recent machine architectures can be introduced. In particular the course will develop to explore the relationships between what actually happens at the machine level and important ideas about, for example, aspects of high-level programming and data structures, that students encounter on parallel courses. Objectives: Familiarity with the von Neumann model, the nature and function of each of the main components and general principles of operation of the machines, including input and output transfers and basic numeric manipulations. Understanding of the characteristics of logic elements; the ability to manipulate/simplify Boolean functions; practical experience of simple combinatorial and sequential systems of logic gates; and a perception of the links between logic systems and elements of computer processors and store. Understanding of the role and function of an assembler and practical experience of reading and making simple changes to small, low-level programmes. Understanding of the test running and debugging of programmes.
Content:
Basic principles of computer operation: Brief historical introduction to computing machines. Binary basis of computer operation and binary numeration systems. Von Neumann computers and the structure, nature and relationship of their major elements. Principles of operation of digital computers; use of registers and the instruction cycle; simple addressing concepts; programming. Integers and floating point numbers. Input and output; basic principles and mechanisms of data transfer; programmed and data channel transfers; device status; interrupt programming; buffering; devices. Introduction to digital logic and low-level programming: Boolean algebra and behaviour of combinatorial and sequential logic circuits (supported by practical work). Logic circuits as building blocks for computer hardware. The nature and general characteristics of assemblers; a gentle introduction to simple assembler programmes to illustrate the major features and structures of low-level programmes. Running assembler programmes (supported by practical work).


MATH0018: Databases/performance analysis

Semester 1

Credits: 6

Contact:

Topic: Computing

Level: Level 2

Assessment: EX75 CW25

Requisites: Pre MATH0023

Aims & learning objectives:
Aims: To present an introductory account of the theory and practice of databases. To convey an understanding of the wide variety of techniques available for assessing the performance of programs and of computer-based systems. Objectives: To demonstrate understanding of the basic structure of relational database systems and to be able to make elementary queries. Students should be able to use basic benchmark programs, and the standard profiling tools. They should be aware of the limitations of such techniques, and of the wide variety of possible approaches to measuring, assessing, comparing and planning the performance of computer-based systems.
Content:
Databases: Network and relational models. Completeness of relational models, Codd's classification of canonical forms: first, second, third, and fourth normal forms. Keys, join, query languages (SQL, Query-by-example). Object databases. Performance Analysis: Benchmarking, including standard benchmarks such as Whetstone, Dhrystone. Benchmarking suites; SPECMarks. Contrast performance and test suites. Determining where time goes; profiling, sampling, emulating. Use of memory. Effects of architecture. Comparison of hardware and software monitoring. Program Comparison, Pitfalls, Performance Engineering, Queueing Theory, Case Studies.


MATH0019: Foundations

Semester 1

Credits: 6

Contact:

Topic: Computing

Level: Level 2

Assessment: EX75 CW25

Requisites: Pre MATH0004, Pre MATH0023

Aims & learning objectives:
Aims: To give the student an appreciation of the foundations of programming by considering functions as units of computation l-calculus and combinatory logic. To raise the issue of correctness and to develop a critical attitude toward computing in general and logic programming in particular. To illustrate how the various mathematical principles discussed in this Unit are translated in practical programming languages. Objectives: Students should be able to perform reductions in two reduction systems, and to prove elementary theorms in and about these calculi. To understand enough logic so that correct logic programming is possible. To be able to apply the theories of mathematical logic to the development of programming languages, to contrast pure rewriting with environment based interpretation operating over different domains (eg. values and types). To be able to read, understand and write programs in EuLisp.
Content:
String rewriting systems, Church-Rosser ideas, Zermelo Fraenkel set theory, types and sets, operations on types, examples in C and ML, functions as graphs, and functions as rules or processes; pure lambda calculus, reduction, Church Rosser again, ordered pairs, numerals in lambda calculus, Lisp; Scott domain theory; Logic, Logical validity, logical consequence, Conjunctive normal form, clausal form, semantic tableau methods, Prolog, resolution and unification.


MATH0020: Computability & decidability

Semester 1

Credits: 6

Contact:

Topic: Computing

Level: Level 2

Assessment: EX100

Requisites: Pre MATH0004, Pre MATH0023

Aims & learning objectives:
Aims: To extend previous coverage of finite-state machines and Turing machines. To explore the limitations of Turing computability. Objectives: Students should appreciate the limitations of finite-state machines, and the availability of different possible standard formalisations of Turing machines. Students should understand what can and cannot be computed using Turing machines, and the rudiments of computational complexity theory.
Content:
Finite-State Machines: Revision of the basic properties of finite-state machines. Nondeterministic finite-state machines. What can and cannot be computed using finite-state machines. Turing Machines: Revision of Turing Machines. Connecting standard Turing Machines together. Introduction to Church's Thesis. Church's Thesis: Church's Thesis and the equivalence of different models of Turing machine. Church's Thesis (cont): Church's thesis and the equivalence of different models of computation - recursive functions, primitive and general recursion.Universal Turing Machines: Universal Turing Machines and limitations of Turing computability. Undecidability, the Halting Problem, reduction of one unsolvable problem to another. Computational Complexity: Philosophy of computational complexity, upper and lower time-bounded computations, complexity classes P and NP, NP-completeness.


MATH0021: Computer graphics

Semester 1

Credits: 6

Contact:

Topic: Computing

Level: Level 2

Assessment: EX75 CW25

Requisites:

Aims & learning objectives:
Aims: To provide an introduction to the techniques of representing, rendering, and displaying computer graphics, with assessed coursework. Objectives: Students will be able to distinguish modelling from rendering. They will be able to describe the relevant components of Euclidean geometry and their relationships to matrix algebra formulations. Students will know the difference between solid and surface modelling and be able to describe typical computer representations of each. Rendering for raster displays will be explainable in detail, including lighting models and a variety visual effects and defects. Students will be expected to describe the sampling problem and solutions for static pictures.
Content:
Background: Basic mechanisms, concepts and techniques for creating and displaying line drawings. Output devices, input devices. Packages. Coordinate systems, Euclidean geometry and transformations. Modelling: Mesh models and their representation. Constructive solid geometry and its representation. Specialised models. Rendering: Raster images; illumination models; meshes and hidden surface removal; scan-line rendering. Constructive Solid Geometry; ray-casting; visual effects and defects. Ordering dither; resolution; aliasing; colour. Students should have the ability to program in order to undertake this unit.


MATH0022: Formal program development

Semester 1

Credits: 6

Contact:

Topic: Computing

Level: Level 2

Assessment: EX100

Requisites: Pre MATH0023

Aims & learning objectives:
Aims: To convey to students the idea that programming can be presented as a systematic process of calculation with mathematically secure foundations. Objectives: Students should be able to develop modest programs systematically with a complete understanding of the mathematical foundations of the method advocated, and should understand the relationship between formal and informal methods for practical use.
Content:
Programs, specifications, code, refinement. Types, invariants and feasibility. Assignment and sequencing. Control structures: alternatives and iteration. Introduction to data refinement. Dijkstra's weakest precondition and language semantics in terms of it. Basic Theorems for the Alternative and Iterative Constructs and their relevance to program development. Use of the weakest precondition as a basis for the refinement calculus. Proving refinement laws from first principles; deriving one refinement law from another.


MATH0023: C Programming

Semester 2

Credits: 6

Contact:

Topic: Computing

Level: Level 1

Assessment: EX75 CW25

Requisites: Pre MATH0015, Pre MATH0126

Aims & learning objectives:
Aims: To ensure students appreciate the concept of an algorithm as an effective procedure. To introduce criteria by which algorithms may be chosen, and to demonstrate non-obvious algorithms. To provide practical skills at reading and writing programs in ISO Standard C. Objectives: Students should be able to determine the time and space complexity of short algorithms, and know 3 sorting algorithms and 2 searching algorithms. Students should be able to design, construct and test short programs in C, using standard libraries as appropriate. They should be able to read and comprehend the behaviour of programs written by others.
Content:
Algorithms: Introduction: Definition of an algorithm and characteristics of them. Basic Complexity: The efficiency of different algorithmic solutions. Best, average and worst case complexity in time and space. Fundamental Algorithms: Sorting. Searching. Space-time trade-offs. Graphs. Dijkstra's shortest path. C Programming: Introduction: C as a simplified programming language; ISO Standards. Basic Concepts: Functions, variables, weak typing. Statements and expressions. Data Structuring: Enumeration, struct and arrays. Pointers and construction of complex structures. The preprocessor: #include, #if and #define Programming: Input-output. Use of standard libraries. Multiple file programs. User interfaces. Professionalism: Coding standards, defensive programming, documentation, testing. Ethics.


MATH0024: Information management 2

Semester 2

Credits: 6

Contact:

Topic: Computing

Level: Level 1

Assessment: EX50 CW25 OT25

Requisites: Pre MATH0016, Pre MATH0126

Aims & learning objectives:
Aims: To introduce students to the use of a workstation, to wordprocessing, spreadsheets and relational databases, and to the basic ideas of computing, and to the range of applications and misapplications of computers in science. To give students some experience of working in small groups. Objectives: Students should have a practical ability to use contemporary information management facilities. They should be able to write a good report, and they should have the confidence and the language to enable criticism of the use of computers in science.
Content:
Normal and Poisson distributions. A simple introduction to confidence intervals and hypothesis testing. Elementary tools for dealing with non-normal data. An introduction to correlation. Computational experiments. Databases. Notations of set theory. Data types and structures. Hierarchical, network, and relational databases. Some natural operations on relations: union, projection, selection, Cartesian product, set difference. Design of relational databases. Access as an example of a database system. The integrated use of word processing, spreadsheets and relational databases.


MATH0025: Machine architectures, assemblers & low-level programming

Semester 2

Credits: 6

Contact:

Topic: Computing

Level: Level 1

Assessment: EX75 CW25

Requisites: Pre MATH0017

Aims & learning objectives:
Aims: To introduce students to the structure, basic design, operation and programming of conventional, von Neumann computers at the machine level. Alternative approaches to machine design will also be examined so that some recent machine architectures can be introduced. In particular the course will develop to explore the relationships between what actually happens at the machine level and important ideas about, for example, aspects of high-level programming and data structures, that students encounter on parallel courses. Objectives: Development of a critical awareness that what happens at machine level is strongly related to the forms and conventions developed at higher levels of programming. Reinforcement of structured programming by practical development of low-level programming skills that can be related to high-level practice. Awareness of the potential advantages and disadvantages of different architectures; appreciation of the importance of the synergistic relationship between hardware and system software, e.g. in operating systems. A launch point for more advanced architecture studies.
Content:
Low-level programming and structures: A more detailed examination of machine architecture and facilities, exemplified by the 68000 series. Further exploration of different modes of operand addressing; the implementation of program control mechanisms; and subroutines. The relationship between the low-level and aspects of high-level, structured programming such as decisions, loops and modules; nested and recursive routines and conventions for parameter transmission at high and low levels will be examined (supported by practical programming work which may continue throughout the semester). Aspects of modern computer architectures: Non von Neumann architectures and modern approaches to machine design, including , for example, RISC (vs. CISC) architectures. Topics in contemporary machine design, such as pipelining; parallel processing and multiprocessors. The interaction between hardware and software.


MATH0026: Projects & their management

Semester 2

Credits: 6

Contact:

Topic: Computing

Level: Level 2

Assessment: CW100

Requisites:

Aims & learning objectives:
Aims: To gain experience of working with other people and, on a small-scale, some of the problems that arise in the commercial development of software. To appreciate the personal, corporate and public interest ethical problems arising from all aspects of computer systems. To distinguish between scientific and pseudo-scientific modes of presentation, and to encourage competence in the scientific mode. Objectives: To carry out the full cycle of the first phase of development of a software package, namely; requirements analysis, design, implementation, documentation and delivery. To know the main terms of the Data Protection Act and be able to explain its application in a variety of contexts. To be able to design a presentation for a given audience. To be able to assess a presentation critically.
Content:
Project Management: Software engineering techniques, Controlling software development, Project planning/ Management, Documentation, Design, Quality Assurance, Testing. Professional Issues: Ethical and legal matters in the context of information technology. Personal responsibilities: to employer, society, self. Professional responsibilities: codes of professional practice, Chartered Engineers. Legal responsibilities: Data Protection Act, Computer Misuse Act, Consumer Protection Act. Intellectual property rights. Whistle-blowing. Libel and slander. Confidentiality. Contracts. Presentation Skills: How to construct a good explanation. How to construct a good presentation. Sales and manipulative techniques, theatre, and scientific clarity. Active listening and reading. Some items in the charlatan's toolkit: jargon, pseudo-mathematics, ambiguity.


MATH0027: Object-oriented mechanisms

Semester 2

Credits: 6

Contact:

Topic: Computing

Level: Level 2

Assessment: EX75 CW25

Requisites: Pre MATH0019

Aims & learning objectives:
Aims: To provide a grounding in the principles behind object oriented languages and how they are realised, in order to enable the student both to use any object oriented language and to use any language in an object oriented way. Objectives: To be able to classify a given object oriented language into the categories identified above, to describe the differences between those categories and to know the principles involved in implementing a language belonging to any one of those categories. Given a problem description, to be able to design suitable class hierarchies. To be able to read, understand and write programs in C++ and EuLisp.
Content:
Introduction: definition of inheritance and identification of the subclasses of the family of OO languages. Simple (single) inheritance. Extending arithmetic: Complex number arithmetic in C++ (overloading, message-passing) and EuLisp (generics). Sequence and iterators: For classical data structures (list, vector) in C++ and EuLisp. Polymorphism. Integration of user-defined sequence classes. Modelling OO mechanisms: Modelling message passing and class hierarchies. A method determination algorithm for generic functions. Advanced topics: Multiple inheritance and the superclass linearization problem. Meta-object protocols


MATH0028: Algorithms

Semester 2

Credits: 6

Contact:

Topic: Computing

Level: Level 2

Assessment: EX75 CW25

Requisites: Pre MATH0020

Aims & learning objectives:
Aims: To present a detailed account of some fundamentally important and widely used algorithms. To induce an appreciation of the design and implementation of a selection of algorithms. Objectives: To lean the general principles of effective algorithms design and analysis on some famous examples, which are used as fundamental subroutines in major computational procedures. To be able to apply these principles in the development of algorithms and make an informed choice between basic subroutines and data structures.
Content:
Algorithms and complexity. Main principles of effective algorithms design: recursion, divide-and-conquer, dynamic programming. Sorting and order statistics. Strassen's algorithm for matrix multiplication and solving systems of linear equations. Arithmetic operations over integers and polynomials (including Karatsuba's algorithm), Fast Fourier Transform method. Greedy algorithms. Basic graph algorithms: minimum spanning trees, shortest paths, network flows. Number-theoretic algorithms: integer factorization, primality testing, the RSA public key cryptosystem.


MATH0029: Compilers

Semester 2

Credits: 6

Contact:

Topic: Computing

Level: Level 2

Assessment: EX75 CW25

Requisites: Pre MATH0023, Pre MATH0020

Aims & learning objectives:
Aims: to give an introduction to the processes involved in compilation and the use of C-based compiler generation tools. Objectives: to know the phases of the compilation process and how to implement them. To be able to choose between different techniques and different representations, depending on the problem to be solved.
Content:
Formal grammars, lexical analysis using lex, parsing by recursive descent and by yacc, error handling in the parsing process, intermediate code representations, type checking, code generation using a code generator generator (burg).


MATH0030: History, heresy & heretics

Semester 2

Credits: 6

Contact:

Topic: Computing

Level: Level 2

Assessment: EX75 CW25

Requisites:

Aims & learning objectives:
Aims: To inform students of the rapid change in computing via an analysis of the history and development of the computing industry and subject. The course aims to do two things. First, to remove the almost mystical belief that computers can do anything. Secondly, to encourage students to question the appropriateness of computer systems as a solution to any given problem. Objectives: Describe the major trends and changes in hardware, programming languages and software; explain the evolution of the computing industry; extrapolate current trends in the industry, while realising the weakness of extrapolation. Students should be able to demonstrate reasoned arguments for and against the use of computer technology. They should be able to compare machine and human intelligence. They should understand the dangers of compulsive use of computers; and the hazards that a computer solution may introduce.
Content:
The pre-history (Pascal, Babbage, Turing etc.). 1940s and 1950s: the birth of an industry and a subject. Semiconductor technology and its evolution. 1960s and 1970s: the 'range' concept; IBM and the Seven Dwarfs; high-level languages; operating systems; the growth of on-line access. The rise of the mini-computer: workstations and Unix; growth of networking. 'Professionalism'. The PC Market; Intel and Microsoft. Where we are now. What computers do; what programmers do. Machines: engineering a computer system. Humans: language, understanding and reason. Human and machine problem solving: Eliza-like systems, artificial intelligence. Programming as a compulsion.


MATH0031: Statistics & probability 1

Semester 1

Credits: 6

Contact:

Topic: Statistics

Level: Level 1

Assessment: EX100

Requisites:

Aims & learning objectives:
Aims: To introduce some basic concepts in probability and statistics. Objectives: Ability to perform an exploratory analysis of a data set, apply the axioms and laws of probability, and compute quantities relating to discrete probability distributions
Content:
Descriptive statistics: Histograms, stem-and-leaf plots, box plots. Measures of location and dispersion. Scatter plots. Probability: Sample space, events as sets, unions and intersections. Axioms and laws of probability. Probability defined through symmetry, relative frequency and degree of belief. Conditional probability, independence. Bayes' Theorem. Combinations and permutations. Discrete random variables: Bernoulli and Binomial distributions. Mean and variance of a discrete random variable. Poisson distribution, Poisson approximation to the binomial distribution, introduction to the Poisson process. Geometric distribution. Hypergeometric distribution. Negative binomial distribution. Bivariate discrete distributions including marginal and conditional distributions. Expectation and variance of discrete random variables. General properties including expectation of a sum, variance of a sum of independent variables. Covariance. Probability generating function. Introduction to the random walk. Students must have A-level Mathematics, Grade B or better in order to undertake this unit.


MATH0032: Statistics & probability 2

Semester 2

Credits: 6

Contact:

Topic: Statistics

Level: Level 1

Assessment: EX100

Requisites: Pre MATH0031

Aims & learning objectives:
Aims: To introduce further concepts in probability and statistics. Objectives: Ability to compute quantities relating to continuous probability distributions, fit certain types of statistical model to data, and be able to use the MINITAB package.
Content:
Continuous random variables: Density functions and cumulative distribution functions. Mean and variance of a continuous random variable. Uniform, exponential and normal distributions. Normal approximation to binomial and continuity correction. Fact that the sum of independent normals is normal. Distribution of a monotone transformation of a random variable. Fitting statistical models: Sampling distributions, particularly of sample mean. Standard error. Point and interval estimates. Properties of point estimators including bias and variance. Confidence intervals: for the mean of a normal distribution, for a proportion. Opinion polls. The t-distribution; confidence intervals for a normal mean with unknown variance. Regression and correlation: Scatter plot. Fitting a straight line by least squares. The linear regression model. Correlation.


MATH0033: Statistical inference 1

Semester 1

Credits: 6

Contact:

Topic: Statistics

Level: Level 2

Assessment: EX100

Requisites: Pre MATH0031, Pre MATH0032

Aims & learning objectives:
Aims: Introduce classical estimation and hypothesis-testing principles. Objectives: Ability to perform standard estimation procedures and tests on normal data. Ability to carry out goodness-of-fit tests, analyse contingency tables, and carry out non-parametric tests.
Content:
Point estimation: Maximum-likelihood estimation; further properties of estimators, including mean square error, efficiency and consistency; robust methods of estimation such as the median and trimmed mean. Interval estimation: Revision of confidence intervals. Hypothesis testing: Size and power of tests; one-sided and two-sided tests. Examples. Neyman-Pearson lemma. Distributions related to the normal: t, chi-square and F distributions. Inference for normal data: Tests and confidence intervals for normal means and variances, one-sample problems, paired and unpaired two-sample problems. Contingency tables and goodness-of-fit tests. Non-parametric methods: Sign test, signed rank test, Mann-Whitney U-test.


MATH0034: Probability & random processes

Semester 1

Credits: 6

Contact:

Topic: Statistics

Level: Level 2

Assessment: EX100

Requisites: Pre MATH0002, Pre MATH0032

Aims & learning objectives:
Aims: Knowledge and understanding of the statements of the three classical limit theorems of probability. Familiarity with the main results of discrete-time branching processes. Knowledge of the main properties of random walks on the integers. Knowledge of the various equivalent characterisations of the Poisson process. Objectives: Ability to perform computations concerning branching processes, random walks, and Poisson processes. Ability to use generating function techniques for effective calculations.
Content:
Revision of properties of expectation. Chebyshev's inequality. The Weak Law. Martingales. Statement of the Strong Law of Large Numbers. Random variables on the positive integers. Branching processes. Random walks expected first passage times. Poisson processes: inter-arrival times, the gamma distribution. Moment generating functions. Outline of the Central Limit Theorem.


MATH0035: Statistical inference 2

Semester 2

Credits: 6

Contact:

Topic: Statistics

Level: Level 2

Assessment: EX75 CW25

Requisites: Pre MATH0033

Aims & learning objectives:
Aims: Introduce the principles of building and analysing linear models. Objectives: Ability to carry out analyses using linear Gaussian models, including regression and ANOVA. Understand the principles of statistical modelling.
Content:
One-way analysis of variance (ANOVA): One-way classification model, F-test, comparison of group means. Regression: Estimation of model parameters, tests and confidence intervals, prediction intervals, polynomial and multiple regression. Two-way ANOVA: Two-way classification model. Main effects and interaction, parameter estimation, F- and t-tests. Discussion of experimental design. Principles of modelling: Role of the statistical model. Critical appraisal of model selection methods. Use of residuals to check model assumptions: probability plots, identification and treatment of outliers. Multivariate distributions: Joint, marginal and conditional distributions; expectation and variance-covariance matrix of a random vector; statement of properties of the bivariate and multivariate normal distribution. The general linear model: Vector and matrix notation, examples of the design matrix for regression and ANOVA, least squares estimation, internally and externally Studentized residuals.


MATH0036: Stochastic processes

Semester 2

Credits: 6

Contact:

Topic: Statistics

Level: Level 2

Assessment: EX100

Requisites: Pre MATH0034, Ex MATH0093

Aims & learning objectives:
Aims: To present a formal description of Markov chains and Markov processes, their qualitative properties and ergodic theory. To apply results in modelling real life phenomena, such as biological processes, queueing systems, renewal problems and machine repair problems. Objectives: On completing the course, students should be able to
* classify the states of a Markov chain, find hitting probabilities and ergodic distributions
* calculate waiting time distributions, transition probabilities and limiting behaviour of various Markov processes
Content:
Markov chains with discrete states in discrete time: Examples, including random walks. The Markov 'memorylessness' property, P-matrices, n-step transition probabilities, hitting probabilities, classification of states, symmetrizabilty, invariant distributions and ergodic theorems. Markov processes with discrete states in continuous time: Examples, including the Poisson process, birth and death processes, branching processes and various types of Markovian queues. Q-matrices, resolvents waiting time distributions, equilibrium distributions and ergodicity.


MATH0037: Galois theory

Semester 1

Credits: 6

Contact:

Topic: Mathematics

Level: Level 3

Assessment: EX100

Requisites: Pre MATH0008, Pre MATH0012

Aims & learning objectives:
Aims This course develops the basic theory of rings and fields and expounds the fundamental theory of Galois on solvability of polynomials. Objectives At the end of the course, students will be conversant with the algebraic structures associated to rings and fields. Moreover, they will be able to state and prove the main theorems of Galois Theory as well as compute the Galois group of simple polynomials.
Content:
Rings, integral domains and fields. Field of quotients of an integral domain. Ideals and quotient rings. Rings of polynomials. Division algorithm and unique factorisation of polynomials over a field. Extension fields. Algebraic closure. Splitting fields. Normal field extensions. Galois groups. The Galois correspondence. THIS UNIT IS ONLY AVAILABLE IN ACADEMIC YEARS STARTING IN AN EVEN YEAR.


MATH0038: Advanced group theory

Semester 1

Credits: 6

Contact:

Topic: Mathematics

Level: Level 3

Assessment: EX100

Requisites: Pre MATH0008, Pre MATH0012

Aims & learning objectives:
Aims This course provides a solid introduction to modern group theory covering both the basic tools of the subject and more recent developments. Objectives At the end of the course, students should be able to state and prove the main theorems of classical group theory and know how to apply these. In addition, they will have some appreciation of the relations between group theory and other areas of mathematics.
Content:
Topics will be chosen from the following: Review of elementary group theory: homomorphisms, isomorphisms and Lagrange's theorem. Normalisers, centralisers and conjugacy classes. Group actions. p-groups and the Sylow theorems. Cayley graphs and geometric group theory. Free groups. Presentations of groups. Von Dyck's theorem. Tietze transformations. THIS UNIT IS ONLY AVAILABLE IN ACADEMIC YEARS STARTING IN AN ODD YEAR.


MATH0039: Differential geometry of curves & surfaces

Semester 1

Credits: 6

Contact:

Topic: Mathematics

Level: Level 3

Assessment: EX100

Requisites: Pre MATH0007, Pre MATH0008, Pre MATH0011, Pre MATH0012

Aims & learning objectives:
Aims This will be a self-contained course which uses little more than elementary vector calculus to develop the local differential geometry of curves and surfaces in IR³. In this way, an accessible introduction is given to an area of mathematics which has been the subject of active research for over 200 years. Objectives At the end of the course, the students will be able to apply the methods of calculus with confidence to geometrical problems. They will be able to compute the curvatures of curves and surfaces and understand the geometric significance of these quantities.
Content:
Topics will be chosen from the following: Tangent spaces and tangent maps. Curvature and torsion of curves: Frenet-Serret formulae. The Euclidean group and congruences. Curvature and torsion determine a curve up to congruence. Global geometry of curves: isoperimetric inequality; four-vertex theorem. Local geometry of surfaces: parametrisations of surfaces; normals, shape operator, mean and Gauss curvature. Geodesics, integration and the local Gauss-Bonnet theorem.


MATH0041: Metric spaces

Semester 1

Credits: 6

Contact:

Topic: Mathematics

Level: Level 3

Assessment: EX100

Requisites: Pre MATH0007, Pre MATH0011

Aims & learning objectives:
Aims This core course is intended to be an elementary and accessible introduction to the theory of metric spaces and the topology of IRn for students with both "pure" and "applied" interests. Objectives While the foundations will be laid for further studies in Analysis and Topology, topics useful in applied areas such as the Contraction Mapping Principle will also be covered. Students will know the fundamental results listed in the syllabus and have an instinct for their utility in analysis and numerical analysis.
Content:
Definition and examples of metric spaces. Convergence of sequences. Continuous maps and isometries. Sequential definition of continuity. Subspaces and product spaces. Complete metric spaces and the Contraction Mapping Principle. Sequential compactness, Bolzano-Weierstrass theorem and applications. Open and closed sets (with emphasis on IRn). Closure and interior of sets. Topological approach to continuity and compactness (with statement of Heine-Borel theorem). Connectedness and path-connectedness. Metric spaces of functions: C[0,1] is a complete metric space.


MATH0042: Measure theory & integration

Semester 1

Credits: 6

Contact:

Topic: Mathematics

Level: Undergraduate Masters

Assessment: EX100

Requisites: Pre MATH0008, Pre MATH0012, Pre MATH0041

Aims & learning objectives:
Aims The purpose of this course is to lay the basic technical foundations and establish the main principles which underpin the classical notions of area, volume and the related idea of an integral. Objectives The objective is to familiarise students with measure as a tool in analysis, functional analysis and probability theory. Students will be able to quote and apply the main inequalities in the subject, and to understand their significance in a wide range of contexts. Students will obtain a full understanding of the Lebesgue Integral.
Content:
Topics will be chosen from the following: Measurability for sets: algebras, s-algebras, p-systems, d-systems; Dynkin's Lemma; Borel s-algebras. Measure in the abstract: additive and s-additive set functions; monotone-convergence properties; Uniqueness Lemma; statement of Caratheodory's Theorem and discussion of the l-set concept used in its proof; full proof on handout. Lebesgue measure on IRn: existence; inner and outer regularity. Measurable functions. Sums, products, composition, lim sups, etc; The Monotone-Class Theorem. Probability. Sample space, events, random variables. Independence; rigorous statement of the Strong Law for coin tossing. Integration. Integral of a non-negative functions as sup of the integrals of simple non-negative functions dominated by it. Monotone-Convergence Theorem; 'Additivity'; Fatou's Lemma; integral of 'signed' function; definition of Lp and of Lp; linearity; Dominated-Convergence Theorem - with mention that it is not the `right' result. Product measures: definition; uniqueness; existence; Fubini's Theorem. Absolutely continuous measures: the idea; effect on integrals. Statement of the Radon-Nikodým Theorem. Inequalities: Jensen, Hölder, Minkowski. Completeness of Lp.


MATH0043: Real & abstract analysis

Semester 1

Credits: 6

Contact:

Topic: Mathematics

Level: Undergraduate Masters

Assessment: EX100

Requisites: Pre MATH0007, Pre MATH0008, Pre MATH0011, Pre MATH0012

Aims & learning objectives:
Aims To introduce and study abstract spaces and general ideas in analysis, to apply them to examples, and to lay the foundations for the year 4 blocks in functional analysis and Lebesgue integral. Objectives By the end of the block, students should be able to state and prove the principal theorems relating to uniform continuity and uniform convergence for real functions on metric spaces, compactness in spaces of continuous functions, and elementary Hilbert space theory, and to apply these notions and the theorems to simple examples.
Content:
Topics will be chosen from: Uniform continuity and uniform limits of continuous functions on [0,1]. Abstract Stone-Weierstrass Theorem. Uniform approximation of continuous functions. Polynomial and trigonometric polynomial approximation, separability of C[0,1]. Total Boundedness. Diagonalisation. Ascoli-Arzelà Theorem. Complete metric spaces. Baire Category Theorem. Nowhere differentiable function. Picard's theorem for c = f(c). Metric completion M of a metric space M. Real inner-product spaces. Hilbert spaces. Cauchy-Schwarz inequality, parallelogram identity. Examples: l², L²[0,1] := C[0,1]. Separability of L² . Orthogonality, Gram-Schmidt process. Bessel's inquality, Pythagoras' Theorem. Projections and subspaces. Orthogonal complements. Riesz Representation Theorem. Complete orthonormal sets in separable Hilbert spaces. Completeness of trigonometric polynomials in L² [0,1]. Fourier Series.


MATH0044: Mathematical methods 1

Semester 1

Credits: 6

Contact:

Topic: Mathematics

Level: Level 3

Assessment: EX100

Requisites: Pre MATH0008, Pre MATH0009, Pre MATH0010, Pre MATH0012

Aims & learning objectives:
Aims: To furnish the student with a range of analytic techniques for the solution of ODEs and PDEs. Objectives: Students should be able to obtain the solution of certain ODEs and PDEs. They should also be aware of certain analytic properties associated with the solution e.g. uniqueness.
Content:
Sturm-Liouville theory: Reality of eigenvalues. Orthogonality of eigenfunctions. Expansion in eigenfunctions. Approximation in mean square. Statement of completeness. Fourier Transform: As a limit of Fourier series. Properties and applications to solution of differential equations. Frequency response of linear systems. Characteristic functions. Linear and quasi-linear first-order PDEs in two and three independent variables: Characteristics. Integral surfaces. Uniqueness (without proof). Linear and quasi-linear second-order PDEs in two independent variables: Cauchy-Koivalevskii theorem (without proof). Characteristic data. Lack of continuous dependence on initial data for Cauchy problem. Classification as elliptic, parabolic, and hyperbolic. Different standard forms. Constant and nonconstant coefficients. One-dimensional wave equation: d'Alembert's solution. Uniqueness theorem for corresponding Cauchy problem (with data on a spacelike curve).


MATH0045: Dynamical systems

Semester 1

Credits: 6

Contact:

Topic: Mathematics

Level: Undergraduate Masters

Assessment: EX100

Requisites: Pre MATH0007, Pre MATH0008, Pre MATH0009, Pre MATH0011, Pre MATH0012, Pre MATH0041, Pre MATH0062

Aims & learning objectives:
Aims: A treatment of the qualitative/geometric theory of dynamical systems to a level that will make accessible an area of mathematics (and allied disciplines) that is highly active and rapidly expanding. Objectives: Conversance with concepts, results and techniques fundamental to the study of qualitative behaviour of dynamical systems. An ability to investigate stability of equilibria and periodic orbits. A basic understanding and appreciation of bifurcation and chaotic behaviour
Content:
Topics will be chosen from the following: Stability of equilibria. Lyapunov functions. Invariance principle. Periodic orbits. Poincaré maps. Hyperbolic equilibria and orbits. Stable and unstable manifolds. Nonhyperbolic equilibria and orbits. Centre manifolds. Bifurcation from a simple eigenvalue. Introductory treatment of chaotic behaviour. Horseshoe maps. Symbolic dynamics.


MATH0046: Linear control theory

Semester 1

Credits: 6

Contact:

Topic: Mathematics

Level: Level 3

Assessment: EX100

Requisites: Pre MATH0007, Pre MATH0008, Pre MATH0009, Pre MATH0011, Pre MATH0012

Aims & learning objectives:
Aims: The course is intended to provide an elementary and assessible introduction to the state-space theory of linear control systems. Main emphasis is on continuous-time autonomous systems, although discrete-time systems will receive some attention through sampling of continuous-time systems. Contact with classical (Laplace-transform based) control theory is made in the context of realization theory. Objectives: To instill basic concepts and results from control theory in a rigorous manner making use of elementary linear algebra and linear ordinary differential equations. Conversance with controllability, observability, stabilizabilty and realization theory in a linear, finite-dimensional context.
Content:
Topics will be chosen from the following: Controlled and observed dynamical systems: definitions and classifications. Controllability and observability: Gramians, rank conditions, Hautus criteria, controllable and unobservable subspaces. Input-output maps. Transfer functions and state-space realizations. State feedback: stabilizability and pole placement. Observers and output feedback: detectability, asymptotic state estimation, stabilization by dynamic feedback. Discrete-time systems: z-transform, deadbeat control and observation. Sampling of continuous-time systems: controllability and observability under sampling.


MATH0047: Mathematical biology 1

Semester 1

Credits: 6

Contact:

Topic: Mathematics

Level: Level 3

Assessment: EX75 CW12

Requisites: Pre MATH0009, Pre MATH0013

Aims & learning objectives:
Aims: The purpose of this course is to introduce students to problems which arise in biology which can be tackled using applied mathematics. Emphasis will be laid upon deriving the equations describing the biological problem and at all times the interplay between the mathematics and the underlying biology will be brought to the fore. Objectives: Students should be able to derive a mathematical model of a given problem in biology using ODEs and give a qualitative account of the type of solution expected. They should be able to interpret the results in terms of the original biological problem.
Content:
Topics will be chosen from the following: Difference equations: Steady states and fixed points. Stability. Period doubling bifurcations. Chaos. Application to population growth. Systems of difference equations: Host-parasitoid systems. Systems of ODEs: Stability of solutions. Critical points. Phase plane analysis. Poincaré-Bendixson theorem. Bendixson and Dulac negative criteria. Conservative systems. Structural stability and instability. Lyapunov functions. Prey-predator models Epidemic models Travelling wave fronts: Waves of advance of an advantageous gene. Waves of excitation in nerves. Waves of advance of an epidemic.


MATH0048: Analytical & geometric theory of differential equations

Semester 1

Credits: 6

Contact:

Topic: Mathematics

Level: Undergraduate Masters

Assessment: EX100

Requisites:

Aims & learning objectives:
Aims: To give a unified presention of systems of ordinary differential equations that have a Hamiltonian or Lagrangian structure. Geomtrical and analytical insights will be used to prove qualitative properties of solutions. These ideas have generated many developments in modern pure mathematics, such as sympletic geometry and ergodic theory, besides being applicable to the equations of classical mechanics, and motivating much of modern physics. Objectives: Students will be able to state and prove general theorems for Lagrangian and Hamiltonian systems. Based on these theoretical results and key motivating examples they will identify general qualitative properties of solutions of these systems.
Content:
Lagrangian and Hamiltonian systems, phase space, phase flow, variational principles and Euler-Lagrange equations, Hamilton's Principle of least action, Legendre transform, Liouville's Theorem, Poincaré recurrence theorem, Noether's Theorem.


MATH0049: Linear elasticity

Semester 2

Credits: 6

Contact:

Topic: Mathematics

Level: Level 3

Assessment: EX100

Requisites:

Aims & learning objectives:
Aims: To provide an introduction to the mathematical modelling of the behaviour of solid elastic materials. Objectives: Students should be able to derive the governing equations of the theory of linear elasticity and be able to solve simple problems.
Content:
Topics will be chosen from the following: Revision: Kinematics of deformation, stress analysis, global balance laws, boundary conditions. Constitutive law: Properties of real materials; constitutive law for linear isotropic elasticity, Lame moduli; field equations of linear elasticity; Young's modulus, Poisson's ratio. Some simple problems of elastostatics: Expansion of a spherical shell, bulk modulus; deformation of a block under gravity; elementary bending solution. Linear elastostatics: Strain energy function; uniqueness theorem; Betti's reciprocal theorem, mean value theorems; variational principles, application to composite materials; torsion of cylinders, Prandtl's stress function. Linear elastodynamics: Basic equations and general solutions; plane waves in unbounded media, simple reflection problems; surface waves.


MATH0050: Nonlinear equations & bifurcations

Semester 1

Credits: 6

Contact:

Topic: Mathematics

Level: Undergraduate Masters

Assessment: EX75 CW25

Requisites: Pre MATH0051, Pre MATH0041

Aims & learning objectives:
Aims: To extend the real analysis of implicitly defined functions into the numerical analysis of iterative methods for computing such functions and to teach an awareness of practical issues involved in applying such methods. Objectives: The students should be able to solve a variety of nonlinear equations in many variables and should be able to assess the performance of their solution methods using appropriate mathematical analysis.
Content:
Topics will be chosen from the following: Solution methods for nonlinear equations: Review of Newton's method for systems. Quasi-Newton Methods. Theoretical Tools: Local Convergence of Newton's Method. Implicit Function Theorem. Bifurcation from the trivial solution. Applications: Exothermic reaction and buckling problems. Continuous and discrete models. Analysis of parameter-dependent two-point boundary value problems using the shooting method. Practial use of the shooting method. The Lyapunov-Schmidt Reduction. Application to analysis of discretised boundary value problems. Computation of solution paths for systems of nonlinear algebraic equations. Pseudo-arclength continuation. Homotopy methods. Computation of turning points. Bordered systems and their solution. Exploitation of symmetry. Hopf bifurcation.


MATH0051: Numerical linear algebra

Semester 1

Credits: 6

Contact:

Topic: Mathematics

Level: Level 3

Assessment: EX75 CW25

Requisites: Pre MATH0008, Pre MATH0010, Pre MATH0012, Pre MATH0014

Aims & learning objectives:
Aims: To teach an understanding of iterative methods for standard problems of linear algebra. Objectives: Students should know a range of modern iterative methods for solving linear systems and for solving the algebraic eigenvalue problem. They should be able to analyse their algorithms and should have an understanding of relevant practical issues.
Content:
Topics will be chosen from the following: The algebraic eigenvalue problem: Gerschgorin's theorems. The power method and its extensions. Backward Error Analysis (Bauer-Fike). The (Givens) QR factorization and the QR method for symmetric tridiagonal matrices. (Statement of convergence only). The Lanczos Procedure for reduction of a real symmetric matrix to tridiagonal form. Orthogonality properties of Lanczos iterates. Iterative Methods for Linear Systems: Convergence of stationary iteration methods. Special cases of symmetric positive definite and diagonally dominant matrices. Variational principles for linear systems with real symmetric matrices. The conjugate gradient method. Krylov subspaces. Convergence. Connection with the Lanczos method. Iterative Methods for Nonlinear Systems: Newton's Method. Convergence in 1D. Statement of algorithm for systems.


MATH0052: Algebra & combinatorics

Semester 2

Credits: 6

Contact:

Topic: Mathematics

Level: Level 3

Assessment: EX100

Requisites: Pre MATH0008, Pre MATH0012

Aims & learning objectives:
Aims: This course provides an accessible introduction to various ideas in discrete mathematics based around the idea of counting arguments. As such, it will give an overview of the methods of modern algebra and their application for students who do not intend to become specialists in this area. Objectives: At the end of the course, students will be proficient in applying a variety of algebraic techniques to solve combinatorial problems arising in Mathematics and related disciplines.
Content:
Topics will be chosen from the following: Graphs, Trees and Forests. Philip Hall's marriage theorem. Möbius inversion and multiplicative functions in number theory. Finite fields and cyclotomic polynomials. Quadratic Reciprocity. Linear recurrences over finite fields and applications of quadratic reciprocity. Random functions and factoring methods.


MATH0053: Algebraic number theory

Semester 2

Credits: 6

Contact:

Topic: Mathematics

Level: Level 3

Assessment: EX100

Requisites: Pre MATH0037

Aims & learning objectives:
Aims: This course will provide a solid introduction to Algebraic Number Theory, both as a subject in its own right and as a source of applications to Computer Science. Objectives: Students completing the course should understand algebraic numbers, how unique factorization fails, and how it can be restored by using "ideal numbers".
Content:
Topics will be chosen from the following: Quadratic reciprocity. Noetherian rings, Dedekind domains, algebraic number fields and rings of algebraic integers. Primes and irreducibles. Ramification of primes. Norms and traces. Integral bases. Class groups and the class number formula. Dirichlet's units theorem. Applications of Galois Theory. The method of Minkowski. THIS UNIT IS ONLY AVAILABLE IN ACADEMIC YEARS STARTING IN AN EVEN YEAR.


MATH0054: Representation theory of finite groups

Semester 2

Credits: 6

Contact:

Topic: Mathematics

Level: Level 3

Assessment: EX100

Requisites: Pre MATH0038

Aims & learning objectives:
Aims: The course explains some fundamental applications of linear algebra to the study of finite groups. In so doing, it will show by example how one area of mathematics can enhance and enrich the study of another. Objectives: At the end of the course, the students will be able to state and prove the main theorems of Maschke and Schur and be conversant with their many applications in representation theory and character theory. Moreover, they will be able to apply these results to problems in group theory.
Content:
Topics will be chosen from the following: Group algebras, their modules and associated representations. Maschke's theorem and complete reducibility. Irreducible representations and Schur's lemma. Decomposition of the regular representation. Character theory and orthogonality theorems. Burnside's pa qb theorem. THIS UNIT IS ONLY AVAILABLE IN ACADEMIC YEARS STARTING IN AN ODD YEAR.


MATH0055: Introduction to topology

Semester 2

Credits: 6

Contact:

Topic: Mathematics

Level: Level 3

Assessment: EX100

Requisites: Pre MATH0041

Aims & learning objectives:
Aims: To provide an introduction to the ideas of point-set topology culminating with a sketch of the classification of compact surfaces. As such it provides a self-contained account of one of the triumphs of 20th century mathematics as well as providing the necessary background for Year 4 courses in Algebraic Topology and Functional Analysis. Objectives: To acquaint students with the important notion of a topology and to familiarise them with the basic theorems of analysis in their most general setting. Students will be able to distinguish between metric and topological space theory and to understand refinements, such as Hausdorff or compact spaces, and their applications.
Content:
Topics will be chosen from the following: Topologies and topological spaces. Subspaces. Bases and sub-bases: product spaces; compact-open topology. Continuous maps and homeomorphisms. Separation axioms. Connectedness. Compactness and its equivalent characterisations in a metric space. Axiom of Choice and Zorn's Lemma. Tychonoff's theorem. Quotient spaces. Compact surfaces and their representation as quotient spaces. Sketch of the classification of compact surfaces.


MATH0056: Complex analysis

Semester 2

Credits: 6

Contact:

Topic: Mathematics

Level: Level 3

Assessment: EX100

Requisites: Pre MATH0007, Pre MATH0011

Aims & learning objectives:
Aims: The aim of this course is to cover the standard introductory material in the theory of functions of a complex variable and to cover complex function theory up to Cauchy's Residue Theorem and its applications. Objectives: Students should end up familiar with the theory of functions of a complex variable and be capable of calculating and justifying power series, Laurent series, contour integrals and applying them.
Content:
Topics will be chosen from the following: Functions of a complex variable. Continuity. Complex series and power series. Circle of convergence. The complex plane. Regions, paths, simple and closed paths. Path-connectedness. Analyticity and the Cauchy-Riemann equations. Harmonic functions. Cauchy's theorem. Cauchy's Integral Formulae and its application to power series. Isolated zeros. Differentiability of an analytic function. Liouville's Theorem. Zeros, poles and essential singularities. Laurent expansions. Cauchy's Residue Theorem and contour integration. Applications to real definite integrals.


MATH0057: Functional analysis

Semester 2

Credits: 6

Contact:

Topic: Mathematics

Level: Undergraduate Masters

Assessment: EX100

Requisites: Pre MATH0041, Pre MATH0043

Aims & learning objectives:
Aims: To introduce the theory of infinite-dimensional normed vector spaces, the linear mappings between them, and spectral theory. Objectives: By the end of the block, the students should be able to state and prove the principal theorems relating to Banach spaces, bounded linear operators, compact linear operators, and spectral theory of compact self-adjoint linear operators, and apply these notions and theorems to simple examples.
Content:
Topics will be chosen from the following: Normed vector spaces and their metric structure. Banach spaces. Young, Mikowski and Hölder inequalities. Examples - IRn, C[0,1], l, Hilbert spaces. Riesz Lemma and finite-dimensional subspaces. The space B(X,Y) of bounded linear operators is a Banach space when Y is complete. Dual spaces and second duals. Uniform Boundedness Theorem. Open Mapping Theorem. Closed Graph Theorem. Projections onto closed subspaces. Invertible operators form an open set. Power series expansion for (I-T)-1. Compact operators on Banach spaces. Spectrum of an operator - compactness of spectrum. Operators on Hilbert space and their adjoints. Spectral theory of self-adjoint compact operators. Zorn's Lemma. Hahn-Banach Theorem. Canonical embedding of X in X
*
*
is isometric, reflexivity. Simple applications to weak topologies.


MATH0058: Martingale theory

Semester 2

Credits: 6

Contact:

Topic: Mathematics

Level: Undergraduate Masters

Assessment: EX100

Requisites: Pre MATH0041, Pre MATH0042, Pre MATH0031, Pre MATH0032

Aims & learning objectives:
Aims: To stimulate through theory and especially examples, an interest and appreciation of the power of this elegant method in analysis and probability. Applications of the theory are at the heart of this course. Objectives: By the end of the course, students should be familiar with the main results and techniques of discrete time martingale theory. They will have seen applications of martingales in proving some important results from classical probability theory, and they should be able to recognise and apply martingales in solving a variety of more elementary problems.
Content:
Topics will be chosen from the following: Review of fundamental concepts. Conditional expectation. Martingales, stopping times, Optional-Stopping Theorem. The Convergence Theorem. L²-bounded martingales, the random-signs problem. Angle-brackets process, Lévy's Borel-Cantelli Lemma. Uniform integrability. UI martingales, the "Downward" Theorem, the Strong Law, the Submartingale Inequality. Likelihood ratio, Kakutani's theorem.


MATH0059: Mathematical methods 2

Semester 2

Credits: 6

Contact:

Topic: Mathematics

Level: Level 3

Assessment: EX100

Requisites: Pre MATH0044

Aims & learning objectives:
Aims: To introduce students to the applications of advanced analysis to the solution of PDEs. Objectives: Students should be able to obtain solutions to certain important PDEs using a variety of techniques e.g. Green's functions, separation of variables. They should also be familiar with important analytic properties of the solution.
Content:
Topics will be chosen from the following: Elliptic equations in two independent variables: Harmonic functions. Mean value property. Maximum principle (several proofs). Dirichlet and Neumann problems. Representation of solutions in terms of Green's functions. Continuous dependence of data for Dirichlet problem. Uniqueness. Parabolic equations in two independent variables: Representation theorems. Green's functions. Self-adjoint second-order operators: Eigenvalue problems (mainly by example). Separation of variables for inhomogeneous systems. Green's function methods in general: Method of images. Use of integral transforms. Conformal mapping. Calculus of variations: Maxima and minima. Lagrange multipliers. Extrema for integral functions. Euler's equation and its special first integrals. Integral and non-integral constraints.


MATH0060: Nonlinear systems & chaos

Semester 2

Credits: 6

Contact:

Topic: Mathematics

Level: Level 3

Assessment: EX75 CW25

Requisites: Pre MATH0007, Pre MATH0008, Pre MATH0009, Pre MATH0010, Pre MATH0011, Pre MATH0012, Pre MATH0013, Pre MATH0014

Aims & learning objectives:
Aims: The course is intended to be an elementary and accessible introduction to dynamical systems. Main emphasis will be on discrete-time systems which permits the concepts and results to be presented in a rigorous manner, within the framework of the second year core material. Discrete-time systems will be followed by an introductory treatment of continuous-time systems and differential equations. Numerical approximation of differential equations will link with the earlier material on discrete-time systems. Objectives: An appreciation of the behaviour, and its potential complexity, of general dynamical systems through a study of discrete-time systems (which require relatively modest analytical prerequisites) and computer experimentation.
Content:
Topics will be chosen from the following: Discrete-time systems. Maps from IRn to IRn . Fixed points. Periodic orbits. a and w limit sets. Local bifurcations and stability. The logistic map and chaos. Global properties. Continuous-time systems. Periodic orbits and Poincaré maps. Numerical approximation of differential equations. Newton iteration as a dynamical system.


MATH0061: Nonlinear & optimal control theory

Semester 2

Credits: 6

Contact:

Topic: Mathematics

Level: Undergraduate Masters

Assessment: EX100

Requisites: Pre MATH0046, Pre MATH0062, Pre MATH0041

Aims & learning objectives:
Aims: Four concepts underpin control theory: controllability, observability, stabilizability and optimality. Of these, the first two essentially form the focus of the Year 3/4 course on linear control theory. In this course, the latter notions of stabilizability and optimality are developed. Together, the courses on linear control theory and nonlinear & optimal control provide a firm foundation for participating in theoretical and practical developments in an active and expanding discipline. Objectives: To present concepts and results pertaining to robustness, stabilization and optimization of (nonlinear) finite-dimensional control systems in a rigorous manner. Emphasis is placed on optimization, leading to conversance with both the Bellman-Hamilton-Jacobi approach and the maximum principle of Pontryagin, together with their application.
Content:
Topics will be chosen from the following: Controlled dynamical systems: nonlinear systems and linearization. Stability and robustness. Stabilization by feedback. Lyapunov-based design methods. Stability radii. Small-gain theorem. Optimal control. Value function. The Bellman-Hamilton-Jacobi equation. Verification theorem. Quadratic-cost control problem for linear systems. Riccati equations. The Pontryagin maximum principle and transversality conditions (a dynamic programming derivation of a restricted version and statement of the general result with applications). Proof of the maximum principle for the linear time-optimal control problem.


MATH0062: Ordinary differential equations

Semester 2

Credits: 6

Contact:

Topic: Mathematics

Level: Undergraduate Masters

Assessment: EX100

Requisites: Pre MATH0007, Pre MATH0011, Pre MATH0008, Pre MATH0013, Pre MATH0009, Pre MATH0041

Aims & learning objectives:
Aims: To provide an accessible but rigorous treatment of initial-value problems for nonlinear systems of ordinary differential equations. Foundations will be laid for advanced studies in dynamical systems and control. The material is also useful in mathematical biology and numerical analysis. Objectives: Conversance with existence theory for the initial-value problem, locally Lipschitz righthand sides and uniqueness, flow, continuous dependence on initial conditions and parameters, limit sets.
Content:
Topics will be chosen from the following: Motivating examples from diverse areas. Existence of solutions for the initial-value problem. Uniqueness. Maximal intervals of existence. Dependence on initial conditions and parameters. Flow. Global existence and dynamical systems. Limit sets and attractors.


MATH0063: Mathematical biology 2

Semester 2

Credits: 6

Contact:

Topic: Mathematics

Level: Level 3

Assessment: EX100

Requisites:

Aims & learning objectives:
Aims: The aim of the course is to introduce students to applications of partial differential equations to model problems arising in biology. The course will complement Mathematical Biology I where the emphasis was on ODEs and Difference Equations. Objectives: Students should be able to derive and interpret mathematical models of problems arising in biology using PDEs. They should be able to perform a linearised stability analysis of a reaction-diffusion system and determine criteria for diffusion-driven instability. They should be able to interpret the results in terms of the original biological problem.
Content:
Topics will be chosen from the following: Partial Differential Equation Models: Simple random walk derivation of the diffusion equation. Solutions of the diffusion equation. Density-dependent diffusion. Conservation equation. Reaction-diffusion equations. Chemotaxis. Examples for insect dispersal and cell aggregation. Spatial Pattern Formation: Turing mechanisms. Linear stability analysis. Conditions for diffusion-driven instability. Dispersion relation and Turing space. Scale and geometry effects. Mode selection and dispersion relation. Applications: Animal coat markings. "How the leopard got its spots". Butterfly wing patterns.


MATH0065: Viscous fluid mechanics

Semester 1

Credits: 6

Contact:

Topic: Mathematics

Level: Level 3

Assessment: EX100

Requisites:

Aims & learning objectives:
Aims: To introduce the general theory of continuum mechanics and, through this, the study of viscous fluid flow. Objectives: Students should be able to explain the basic concepts of continuum mechanics such as stress, deformation and constitutive relations, be able to formulate balance laws and be able to apply these to the solution of simple problems involving the flow of a viscous fluid.
Content:
Topics will be chosen from the following: Vectors: Linear transformation of vectors. Proper orthogonal transformations. Rotation of axes. Transformation of components under rotation. Cartesian Tensors: Transformations of components, symmetry and skew symmetry. Isotropic tensors. Kinematics: Transformation of line elements, deformation gradient, Green strain. Linear strain measure. Displacement, velocity, strain-rate. Stress: Cauchy stress; relation between traction vector and stress tensor. Global Balance Laws: Equations of motion, boundary conditions. Newtonian Fluids: The constitutive law, uniform flow, Poiseuille flow, flow between rotating cylinders.


MATH0066: Numerical solution of partial differential equations

Semester 2

Credits: 6

Contact:

Topic: Mathematics

Level: Level 3

Assessment: EX75 CW25

Requisites: Pre MATH0010, Pre MATH0014

Aims & learning objectives:
Aims: To teach a broad understanding of discretisation methods for elliptic, hyperbolic and parabolic PDEs. Objectives: Students should be able to apply a range of standard methods for the most important PDEs arising in applications and should be able to perform an analysis of these methods applied to model problems.
Content:
Topics will be chosen from the following: Introduction: examples of physically relevant PDEs and their associated boundary conditions. Well-posed problems. Finite difference methods for parabolic and hyperbolic PDEs. Consistency, stability and convergence. Discrete maximum principles. Finite element method: variational formulation of Poisson's equation. Basis functions in one and two space dimensions. Assembly of the stiffness matrix. Best approximation property. Convergence properties.


MATH0067: Numerical solution of boundary-value problems

Semester 2

Credits: 6

Contact:

Topic: Mathematics

Level: Undergraduate Masters

Assessment: EX75 CW25

Requisites: Pre MATH0007, Pre MATH0011, Pre MATH0051

Aims & learning objectives:
Aims: To teach the basic notions behind the formulation and implementation of approximation techniques for elliptic PDEs based on variational principles. Objectives: An ability to implement and analyse the finite element method for a range of elliptic boundary value-problems.
Content:
Topics will be chosen from the following: Variational principles and weak forms of elliptic equations. Linear and quadratic finite element approximation on triangles and quadrilaterals. Stiffness matrix assembly. Isoparametric mapping. Quadrature. Preconditioned conjugate gradient method. Convergence theory for symmetric elliptic problems. Mixed boundary conditions. Connection with the finite difference method. Discrete maximum principles. Extensions to be chosen from: Monotone semilinear problems, Convection-diffusion problems, Obstacle problems. THIS UNIT IS ONLY AVAILABLE IN ACADEMIC YEARS STARTING IN AN EVEN YEAR.


MATH0068: Finite difference methods for evolutionary problems

Semester 2

Credits: 6

Contact:

Topic: Mathematics

Level: Undergraduate Masters

Assessment: EX75 CW25

Requisites: Pre MATH0010, Pre MATH0014, Pre MATH0041

Aims & learning objectives:
Aims: To teach an understanding of linear stability theory and its application to ODEs and evolutionary PDEs. Objectives: The students should be able to analyse the stability and convergence of a range of numerical methods and assess the practical performance of these methods through computer experiments.
Content:
Topics will be chosen from the following: Solution of initial value problems for ODEs by Linear Multistep methods: local accuracy, order conditions; formulation as a one-step method; stability and convergence. Introduction to physically relevant PDEs. Well-posed problems. Truncation error; consistency, stability, convergence and the Lax Equivalence Theorem; techniques for finding the stability properties of particular numerical methods. Numerical methods for parabolic and hyperbolic PDEs. THIS UNIT IS ONLY AVAILABLE IN ACADEMIC YEARS STARTING IN AN ODD YEAR.


MATH0069: Programming language implementation techniques

Semester 2

Credits: 6

Contact:

Topic: Computing

Level: Level 3

Assessment: EX75 CW25

Requisites: Pre MATH0029

Aims & learning objectives:
Aims: To acquire an appreciation of the suitability of different techniques for the analysis and representations for programming languages, followed by the various means to interpret them. Objectives: To be able to choose suitable techniques for lexing, parsing, type analysis, intermediate representation, transformation and interpretation given the properties of the language to be implemented.
Content:
Construction of lexical analysers, recursive descent parsing, construction of LR parser tables, type checking, polymorphic type synthesis, continuation passing style, combinators, lambda lifting, super-combinators, abstract interpretation, storage management, byte-code interpreters, code-threaded interpreters, partial evaluation, staging transformations.


MATH0070: Computer algebra

Semester 2

Credits: 6

Contact:

Topic: Computing

Level: Level 3

Assessment: EX75 CW25

Requisites:

Students must have A-level Mathematics, normally Grade B or better, or equivalent, in order to undertake this unit. Aims & learning objectives:
Aims: To show how computer algebra can be used to solve some interesting mathematical problems Objectives: To understand the practical possibilities and limitations of symbolic computation, and to see how it is related to numerical computation.
Content:
Introduction to Reduce. Data representation questions. Normal and canonical forms. Polynomials, algebraic numbers, elementary numbers. Polynomial algebra: GCD and factorization algorithms, modular methods. LLL algorithm. Numerical and symbolic methods for solving systems of nonlinear equations: Newton, Wu's method, Gröbner bases. Introduction to integration.


MATH0072: Safety-critical computer systems

Semester 1

Credits: 6

Contact:

Topic: Computing

Level: Level 3

Assessment: EX100

Requisites:

Aims & learning objectives:
Aims: To give an appreciation of the current state of safe systems development. To develop an understanding of risk in systems. To give a foundation in hazard analysis models and techniques. To show how safety principles may be built into all stages of the software development process. Objectives: At the end of this course a student should be able to demonstrate the following skills: An understanding of the nature of risk in developing computer-based systems. The ability to choose and apply appropriate hazard analysis models for simple safety-related problems. An understanding of how to approach the design of safety-critical software systems.
Content:
The nature of risk: computers and risk; how accidents happen; human error. System safety: historical approaches to system safety; basic concepts and terminology. Managing the development of safety-critical systems. Modelling human error and the accident process. Hazard analysis: basic principles; models and techniques. Safety principles in the software lifecycle: hazard analysis as part of requirements analysis; designing for safety; designing the human-machine interface; verification of safety in computer systems.


MATH0073: Advanced algorithms & complexity

Semester 1

Credits: 6

Contact:

Topic: Computing

Level: Level 3

Assessment: EX100

Requisites: Pre MATH0028

Aims & learning objectives:
Aims: To present a detailed introduction to one of the central concepts of combinatorial algorithmics: NP-completeness; to extend this concept to real numbers computations; to study foundations of a more general problem of proving lower complexity bounds. Objectives: to be able to recognise NP-hard problems and prove the appropriate reductions. To cope with NP-complete problems. To know some fundamental methods of proving lower complexity bounds.
Content:
NP-completeness: Deterministic and Nondeterministic Turing Machines; class NP; versions of reducibility; NP-hard and NP-complete problems. Proof of NP-completeness of satisfiability problem for Boolean formulae. Other NP-complete problems: clique, vertex cover, travelling salesman, subgraph isomorphism, etc. Polynomial-time approximation algorithms for travelling salesman and some other NP-complete graph problems. Real Numbers Turing machines: Definitions; completeness of real roots existence problem for 4-degree polynomials. Lower complexity bounds: Straight-line programs and their complexities; complexity of matrix-vector multiplication; complexity of polynomial evaluation.


MATH0075: Advanced computer graphics

Semester 1

Credits: 6

Contact:

Topic: Computing

Level: Level 3

Assessment: EX75 CW25

Requisites:

Aims & learning objectives:
Aims: The primary aims are to understand the ways of representing, rendering and displaying pictures of three-dimensional objects (in particular). In order to achieve this it will be necessary to understand the underlying mathematics and computer techniques. Objectives: Students will be able to distinguish modelling from rendering. They will be able to describe the relevant components of Euclidean and projective geometry and their relationships to matrix algebra formulations. Students will know the difference between solid- and surface-modelling and be able to describe typical computer representations of each. Rendering for raster displays will be explainable in detail, including lighting models and a variety of visual effects and defects. Students will be expected to describe the sampling problem and solutions for both static and moving pictures.
Content:
Euclidean and projective geometry transformations. Modelling: Mesh models and their representation. Constructive solid geometry and its representation. Specialised models. Rendering: Raster images; illumination models; meshes and hidden surface removal; scan-line rendering. CSG: ray-casting; visual effects and defects. Rendering for animation. Ordered dither; resolution; aliasing; colour.


MATH0076: Proposal writing

Semester 1

Credits: 6

Contact:

Topic: Computing

Level: Level 3

Assessment: CW100

Requisites:

Aims & learning objectives:
Aims: To develop skills in writing and criticquing technical proposals. To develop abilities in requirements extraction. Objectives: To demonstrate skills in the above aims by examination of case-studies and the writing of the proposal for the project to be undertaken in the following semester.
Content:
Effective and ineffective written communication. When to use graphs, diagrams and pictures. Proposal structure. Styles of written English. Developing your own style. Interviewing. Selecting your project and preparing your proposal.


MATH0077: Formal software development

Semester 1

Credits: 6

Contact:

Topic: Computing

Level: Level 3

Assessment: EX100

Requisites:

Aims & learning objectives:
Aims: To convey to students the idea that software development can be presented as a systematic process of calculation with mathematically secure foundations. Objectives: Students should be able to develop modest programs systematically with a complete understanding of the mathematical foundations of the method advocated, and should understand the relationship between formal and informal methods for practical use.
Content:
Software specification. Informal and formal development methods and their implications for the software life-cycle. Current status of formal development methods. Refinement methods and refinement calculi. Refinement Calculus: Programs, specifications, code, refinement. Types, invariants and feasibility. Assignment and sequencing. Control structures: alternatives and iteration. Introduction to data refinement. Foundations of the Refinement Calculus: Dijkstra's weakest precondition and language semantics in terms of it. Use of the weakest precondition as a basis for the refinement calculus. Proving refinement laws from first principles; deriving one refinement law from another.


MATH0078: Networking

Semester 2

Credits: 6

Contact:

Topic: Computing

Level: Level 3

Assessment: EX100

Requisites: Pre MATH0025

Aims & learning objectives:
Aims: To understand the Internet, and associated background and theory, to a level sufficient for a competent domain manager. Objectives: Students should be able to explain the acronyms and concepts of the Internet and how they relate. Students should be able to state the steps required to connect a domain to the Internet, and be able to explain the issues involved to both technical and non-technical audiences. Students should be able to discuss the ethical issues involved, and have an "intelligent layman's" grasp of the legal issues and uncertainties. Students should be aware of the fundamental security issues, and should be able to advise on the configuration issues surrounding a firewall.
Content:
The ISO 7-layer model. The Internet: its history and evolution - predictions for the future. The TCP/IP stack: IP, ICMP, TCP, UDP, DNS, XDR, NFS and SMTP. Berkeley Introduction to packet layout: source routing etc. The CONS/CLNS debate: theory versus practice. Various link levels: SLIP, 802.5 and Ethernet, satellites, the "fat pipe", ATM. Performance issues: bandwidth, MSS and RTT; caching at various layers. Who 'owns' the Internet and who 'manages' it: RFCs, service providers, domain managers, IANA, UKERNA, commercial British activities. Routing protocols and default routers. HTML and electronic publishing. Legal and ethical issues: slander/libel, copyright, pornography, publishing versus carrying. Security and firewalls: Kerberos.


MATH0079: Computer speech processing

Semester 2

Credits: 6

Contact:

Topic: Computing

Level: Level 3

Assessment: EX100

Requisites:

Aims & learning objectives:
Aims: To introduce the essential concepts and techniques of automatic speech processing and to use speech processing as an illustration of an area of active research and development in computer technology that is both novel and lies near the limits of present capability. Objectives: Students will be able to i) outline the essential processes of human speech production and read and write simple phonetic transcriptions, ii) to demonstrate an understanding of signal processing, iii) to describe, compare and contrast digital schemes for sampling, coding and analysing speech, iv) to comprehend the theoretical and practical issues in automatic speech processing and v) to explain, and assess major speech synthesis and recognition techniques.
Content:
Speech production: the articulatory system; acoustic-phonetics and prosody; phonetic transcription and co-articulation; phonemes, phones, phonology and allophones. Speech signals: their nature, characterisation and representation in different domains; theory of elementary signal processing. Speech coding and analysis: simple PCM; sampling and quantisation errors; other coding schemes for data compression and feature extraction. Speech synthesis: articulatory, formant and other types of synthesis; synthesis by rule and text-to-speech synthesis. Speech recognition: matching complex and variable patterns; segmentation of connected and continuous speech; speaker dependence; time variations and warping; statistically-oriented techniques for recognition and some current methods; recognition versus understanding. THIS UNIT IS ONLY AVAILABLE IN ACADEMIC YEARS STARTING IN AN EVEN YEAR.


MATH0080: Computer vision

Semester 2

Credits: 6

Contact:

Topic: Computing

Level: Level 3

Assessment: EX100

Requisites: Pre MATH0021

Aims & learning objectives:
Aims: To present a broad account of computer vision, with the emphasis on the image processing required for its low level stages. Objectives: To induce an appreciation of the processes involved in robotic vision and how this differs from human vision.
Content:
Image formation. Colour versus monochrome. Preprocessing of the image. Edge finding: elementary methods and their shortcomings; sophisticated methods such as those of Marr-Hildreth, Canny, and Prager. Optical flow. Hough transform. Global and local region segmentation techniques: histogram techniques, region growing. Representation of the results of low level processing. Some image interpretation methods employing probability arguments and fuzzy logic. Hardware. Practical problems based on an image processing package. THIS UNIT IS ONLY AVAILABLE IN ACADEMIC YEARS STARTING IN AN ODD YEAR.


MATH0081: Hardware architecture & compilation

Semester 1

Credits: 6

Contact:

Topic: Computing

Level: Level 3

Assessment: EX100

Requisites: Pre MATH0029

Aims & learning objectives:
Aims: To demonstrate the impact that computer architecture is having on compiler design. To explore trends in hardware development, and examine techniques for efficient use of machine resources, Objectives: Students should be able to describe the philosophy of RISC and CISC architectures. They should know at least one technique for register allocation, and one technique for instruction scheduling. They should be able to write a simple code generator.
Content:
Description of several state-of-the-art chip designs. The implications for compilers of RISC architectures. Register allocation algorithms (colouring, DAGS, scheduling). Global data-flow analysis. Pipelines and instruction scheduling; delayed branches and loads. Multiple instruction issue. VLIW and the Bulldog compiler. Harvard architecture and Caches. Benchmarking.


MATH0082: Double module project

Semester 2

Credits: 12

Contact:

Topic: Computing

Level: Level 3

Assessment: CW100

Requisites: Pre MATH0076

Aims & learning objectives:
Aims: To satisfy as many of the objectives as possible as set out in the individual project proposal. Objectives: To produce the deliverables identified in the individual project proposal.
Content:
Defined in the individual project proposal.


MATH0084: Linear models

Semester 1

Credits: 6

Contact:

Topic: Statistics

Level: Level 3

Assessment: EX100

Requisites: Pre MATH0035, Pre MATH0002, Pre MATH0003, Pre MATH0005, Pre MATH0008

Aims & learning objectives:
Aims: To present the theory and application of normal linear models and generalised linear models, including estimation, hypothesis testing and confidence intervals. To describe methods of model choice and the use of residuals in diagnostic checking. Objectives: On completing the course, students should be able to (a) choose an appropriate generalised linear model for a given set of data; (b) fit this model using the GLIM program, select terms for inclusion in the model and assess the adequacy of a selected model; (c) make inferences on the basis of a fitted model and recognise the assumptions underlying these inferences and possible limitations to their accuracy.
Content:
Normal linear model: Vector and matrix representation, constraints on parameters, least squares estimation, distributions of parameter and variance estimates, t-tests and confidence intervals, the Analysis of Variance, F-tests for unbalanced designs. Model building: Criteria for use in model selection including Mallows Cp statistic, the PRESS criterion, Akaike's information criterion. Subset selection and stepwise regression methods with applications in polynomial regression and multiple regression. Effects of collinearity in regression variables. Implications of model choice on subsequent inferential statements. Uses of residuals: Probability plots, added variable plots, plotting residuals against fitted values to detect a mean-variance relationship, standardised residuals for outlier detection, masking. Generalised linear models: Exponential families, standard form, statement of asymptotic theory for i.i.d. samples, Fisher information. Linear predictors and link functions, statement of asymptotic theory for the generalised linear model, applications to z-tests and confidence intervals, ³¦²-²tests and the analysis of deviance. Residuals from generalised linear models and their uses. Applications to bioassay, dose response relationships, logistic regression, contingency tables.


MATH0085: Time series

Semester 1

Credits: 6

Contact:

Topic: Statistics

Level: Level 3

Assessment: EX100

Requisites: Pre MATH0035

Aims & learning objectives:
Aims: To introduce a variety of statistical models for time series and cover the main methods for analysing these models. Objectives: At the end of the course, the student should be able to
* compute and interpret a correlogram and a sample spectrum
* derive the properties of ARIMA and state-space models
* choose an appropriate ARIMA model for a given set of data and fit the model using the MINITAB package
* compute forecasts for a variety of linear methods and models.
Content:
Introduction: Examples, simple descriptive techniques, trend, seasonality, the correlogram. Probability models for time series: Stationarity; moving average (MA), autoregressive (AR), ARMA and ARIMA models. Estimating the autocorrelation function and fitting ARIMA models. Forecasting: Exponential smoothing, Box-Jenkins method. Stationary processes in the frequency domain: The spectral density function, the periodogram, spectral analysis. Bivariate processes: Cross-correlation function, cross spectrum. Linear systems: Impulse response, step response and frequency response functions. State-space models: Dynamic linear models and the Kalman filter. THIS UNIT IS ONLY AVAILABLE IN ACADEMIC YEARS STARTING IN AN ODD YEAR.


MATH0086: Medical statistics

Semester 1

Credits: 6

Contact:

Topic: Statistics

Level: Level 3

Assessment: EX100

Requisites: Pre MATH0035, Pre MATH0003, Pre MATH0005

Aims & learning objectives:
Aims: To introduce students to the statistical needs of medical research and describe commonly used methods in the design and analysis of clinical trials. Objectives: On completing the course, students should be able to (a) recognise the statistically important features of a medical research problem and, where appropriate, suggest a suitable clinical trial design; (b)· analyse data collected from a comparative clinical trial, ncluding crossover and case-control studies, binary response data and survival data.
Content:
Drug development: Phases I to IV of drug development and testing. Ethical considerations. Design of clinical trials: Defining the patient population, the trial protocol, possible sources of bias, randomisation, blinding, use of placebo treatment, stratification, balancing prognostic variables across treatments by "minimisation". Formulation of clinical trials as hypothesis testing and decision problems. Sample size calculations, use of pilot studies, adaptive methods. Analysis of clinical trials: Patient withdrawals, "intent to treat" criterion for inclusion of patients in analysis, inclusion of stratification variables in the analysis. Interim analyses: Repeated significance tests, O'Brien and Fleming's stopping rule, sample size calculations. Statistical analysis following a group sequential trial, contrast between frequentist and Bayesian analyses. Crossover trials: Two treatment, two period design. Discussion of more complex designs. Case-control studies. Binary data: Comparison of treatments with binary outcomes, inclusion of prognostic variables in logit and probit models. Survival data: Life tables, censoring. Parametric models for censored survival data. Kaplan-Meier estimate, Greenwood's formula, the proportional hazards model, logrank test, Cox's proportional hazards regression model. THIS UNIT IS ONLY AVAILABLE IN ACADEMIC YEARS STARTING IN AN ODD YEAR.


MATH0087: Optimisation methods of operational research

Semester 1

Credits: 6

Contact:

Topic: Statistics

Level: Level 3

Assessment: EX100

Requisites: Pre MATH0002, Pre MATH0005

Aims & learning objectives:
Aims: To present methods of optimisation commonly used in OR, to explain their theoretical basis and give an appreciation of the variety of areas in which they are applicable. Objectives: On completing the course, students should be able to
* recognise practical problems where optimisation methods can be used effectively
* implement the simplex and dual simplex algorithms, Dantzig's method for the transportation problem and the Ford-Fulkerson algorithm
* explain the underlying theory of linear programming problems, including duality.
Content:
The Nature of OR: Brief introduction. Linear Programming: Basic solutions and the fundamental theorem. The simplex algorithm, two phase method for an initial solution. Interpretation of the optimal tableau. Duality. Sensitivity analysis and the dual simplex algorithm. Brief discussion of Karmarkar's method. Applications of LP. The transportation problem and its applications, solution by Dantzig's method. Network flow problems, the Ford-Fulkerson theorem. Non-linear Programming: Revision of classical Lagrangian methods. Kuhn-Tucker conditions, necessity and sufficiency. Illustration by application to quadratic programming.


MATH0088: Data collection

Semester 1

Credits: 6

Contact:

Topic: Statistics

Level: Level 3

Assessment: EX100

Requisites: Pre MATH0035

Aims & learning objectives:
Aims: To illustrate the principles of experimental design in randomised and factorial designs and a variety of sample survey methods. To present components of variance estimation in random effects models and discuss its application in industrial quality improvement. Objectives: On completing the course, students should be able to
* identify the features of a proposed study that affect the choice of experimental design
* choose a suitable, efficient design for a study and explain how the data collected under this design should ultimately be analysed
* design and analyse a components of variance experiment
* design and analyse a sample survey.
Content:
Principles of experimental design: Randomisation and the avoidance of bias. Advantages of orthogonal parameter estimates. Efficiency and optimal designs. Practical considerations. Observational studies: Confounding factors, reduction of bias by matching and regression modelling. The scope of inference from observational data. Randomised designs: Completely randomised and randomised block designs. Factorial designs: Complete factorial designs, confounding and fractional factorials, applications to modern quality improvement. Random effects: Split plot designs, statistical models and analyses. Sample surveys: Simple random sampling, stratified sampling, two-stage sampling, cluster sampling, quota sampling. Inference about the mean of a finite population. Randomised response methods for sensitive questions. THIS UNIT IS ONLY AVAILABLE IN ACADEMIC YEARS STARTING IN AN EVEN YEAR.


MATH0089: Applied probability & finance

Semester 1

Credits: 6

Contact:

Topic: Statistics

Level: Level 3

Assessment: EX100

Requisites: Pre MATH0034

Aims & learning objectives:
Aims: To develop and apply the theory of probability and stochastic processes to examples from finance and economics. Objectives: At the end of the course, students should be able to
* formulate mathematically, and then solve, dynamic programming problems
* describe the Capital Asset Pricing Model and its conclusions
* price an option on a stock modelled by a single step of a random walk
* perform simple calculations involving properties of Brownian motion.
Content:
Dynamic programming: Markov decision processes, Bellman equation; examples including consumption/investment, bid acceptance, optimal stopping. Infinite horizon problems; discounted programming, the Howard Improvement Lemma, negative and positive programming, simple examples and counter-examples. Utility theory: Risk aversion, the Capital Asset Pricing Model. Option pricing for random walks: Arbitrage pricing theory, prices and discounted prices as Martingales, hedging. Brownian motion: Introduction to Brownian motion, definition and simple properties. Exponential Brownian motion as the model for a stock price, the Black-Scholes formula. THIS UNIT IS ONLY AVAILABLE IN ACADEMIC YEARS STARTING IN AN EVEN YEAR.


MATH0090: Multivariate analysis

Semester 2

Credits: 6

Contact:

Topic: Statistics

Level: Level 3

Assessment: EX100

Requisites: Pre MATH0035, Pre MATH0008

Aims & learning objectives:
Aims: To develop facility in the analysis and interpretation of multivariate data. Objectives: At the end of the course, students should be able to
*· use graphical methods to identify possible structure in high-dimensional data
*· select appropriately among a variety of techniques for dimensionality reduction
*· combine classical inferential methods with more recent computationally-intensive techniques to produce more in-depth analyses than were possible before the computer era.
Content:
Introduction: Graphical exploratory analysis of high-dimensional data. Revision of matrix techniques, eigenvalue and singular value decompositions. Principal components analysis: Derivation and interpretation, approximate reduction of dimensionality, scaling problems. Factor analysis. Multidimensional distributions: The multivariate normal distribution, its properties and estimation of parameters. One and two sample tests on means, the Wishart distribution, Hotelling's T-squared. The multivariate linear model. Canonical correlations and canonical variables: Discriminant analysis, classification problems and cluster analysis. Topics selected from: Metrics and similarity coefficients; multi-dimensional scaling; clustering algorithms; correspondence analysis, the biplot, Procrustes analysis and projection pursuit; Classification and Regression Trees.


MATH0091: Applied statistics

Semester 2

Credits: 6

Contact:

Topic: Statistics

Level: Level 3

Assessment: CW100

Requisites: Pre MATH0084

Aims & learning objectives:
Aims: To give students experience in tackling a variety of "real-life" statistical problems. Objectives: During the course, students should become proficient in
* formulating a problem and carrying out an exploratory data analysis
* tackling non-standard, "messy" data
* presenting the results of an analysis in a clear report.
Content:
Formulating statistical problems: Objectives, the importance of the initial examination of data, processing large-scale data sets. Analysis: Choosing an appropriate method of analysis, verification of assumptions. Presentation of results: Report writing, communication with non-statisticians. Using resources: The computer, the library. Project topics may include: Exploratory data analysis. Practical aspects of sample surveys. Fitting general and generalised linear models. The analysis of standard and non-standard data arising from theoretical work in other blocks.


MATH0092: Statistical inference

Semester 2

Credits: 6

Contact:

Topic: Statistics

Level: Level 3

Assessment: EX100

Requisites: Pre MATH0033

Aims & learning objectives:
Aims: To develop a formal basis for methods of statistical inference and decision making, including criteria for the comparison of procedures. To give an in depth description of Bayesian methods and the asymptotic theory of maximum likelihood methods. Objectives: On completing the course, students should be able to
* identify and compute admissible, minimax and Bayes decision rules
* calculate properties of estimates and hypothesis tests
* derive efficient estimates and tests for a broad range of problems, including applications to a variety of standard distributions.
Content:
Revision of standard distributions: Bernoulli, binomial, Poisson, exponential, gamma and normal, and their interrelationships. Sufficiency and Exponential families. Decision theory: Admissibility and minimax decision rules; Bayes risk and Bayes rules. Bayesian inference; prior and posterior distributions, conjugate priors. Point estimation: Bias and variance considerations, mean squared error. Cramer-Rao lower bound and efficiency. Unbiased minimum variance estimators and a direct appreciation of efficiency through some examples. Bias reduction. Asymptotic theory for maximum likelihood estimators. Hypothesis testing: Hypothesis testing, review of the Neyman-Pearson lemma and maximisation of power. Maximum likelihood ratio tests, asymptotic theory. Compound alternative hypotheses, uniformly most powerful tests, locally most powerful tests and score statistics. Compound null hypotheses, monotone likelihood ratio property, uniformly most powerful unbiased tests. Nuisance parameters, generalised likelihood ratio tests.


MATH0093: Stochastic processes

Semester 2

Credits: 6

Contact:

Topic: Statistics

Level: Level 3

Assessment: EX100

Requisites: Pre MATH0003, Pre MATH0005, Pre MATH0032, Ex MATH0036

Aims & learning objectives:
Aims: To present a formal description of Markov chains and Markov processes, their qualitative properties and ergodic theory. To apply results in modelling real life phenomena, such as biological processes and queueing systems, and in controlling such systems. Objectives: On completing the course, students should be able to
* classify the states of a Markov chain and find its ergodic distribution
* calculate generating functions, waiting time distributions and limiting behaviour of queues
* apply these results to solve OR type problems of process control.
Content:
Markov chains: Definitions and examples, n-step transition probabilities, equilibrium and stationary distributions, classification of states and ergodic theorems, multiplicative chains. Markov processes with discrete states in continuous time: Properties of the Poisson process, birth and death processes, immigration/emigration processes, equilibrium distributions. Queues: Kendall's classification system and examples, M/M/1 including time dependent solution, M/M/k and other Markov queues, the method of stages, machine interference, the queue M/G/l, priority systems.


MATH0094: Probability theory

Semester 2

Credits: 6

Contact:

Topic: Statistics

Level: Undergraduate Masters

Assessment: EX100

Requisites: Pre MATH0034, Pre MATH0042

Aims & learning objectives:
Aims: To teach Probability (and Statistics) in a rigorous mathematical context. Objectives: On completing the course, students should be able to
* describe with precision distributional and sample path aspects of long-term behaviour
* deduce the consequences of this theory in the wide range of real-world problems to which it applies.
Content:
Foundations: First and second Borel-Cantelli lemmas, 0-1 law, Weak Law of Large Numbers, Strong Law of Large Numbers when X has finite fourth moment, Weierstrass's Theorem. Distributions: Characteristic functions and inversion formula. Weak convergence, Skorokhod representation. The Central Limit Theorem and analogues. Convergence of distributions on [0,1], [0,¥] and S¹. Weyl's Theorem. Ergodic theory: Measure preserving transformations, ergodicity. Riesz proof of the Ergodic Theorem. Applications to Markov chains, Strong Law of Large Numbers and continued fractions.


MATH0105: Industrial placement

Academic Year

Credits: 60

Contact:

Topic:

Level: Level 2

Assessment:

Requisites:



MATH0106: Study year abroad (BSc)

Academic Year

Credits: 60

Contact:

Topic:

Level: Level 2

Assessment:

Requisites:



MATH0107: Study year abroad (MMath)

Academic Year

Credits: 60

Contact:

Topic:

Level: Undergraduate Masters

Assessment:

Requisites:



MATH0115: Mathematical structures

Semester 1

Credits: 6

Contact:

Topic: Mathematics

Level: Level 1

Assessment: EX100

Requisites:

Students must have A-level Mathematics, normally Grade C or better, or equivalent, in order to undertake this unit. Aims & learning objectives:
Aims: To provide a thorough grounding in the elements of mathematics necessary for an understanding and analysis of computational concepts and processes and to lay the foundations for MATH0004. Objectives: To be able to perform accurately algorithms for combinatorial and arithmetical problems and to construct simple proofs.
Content:
Numbers: Natural numbers, integers, prime numbers, statement of prime decomposition theorem, complex numbers. Algebra: Permutations and combinations, proof by induction, Binomial Theorem. Graphs and Trees: Node/ edge representation of graphs, adjacency matrices, directed graphs, binary relations, decision trees, Huffman codes, graph alogrithms, Euler and Hamilton circuits. Matrix Algebra.


MATH0117: Project (MMath)

Semester 1

Credits: 6

Contact:

Topic: Mathematics

Level: Undergraduate Masters

Assessment: CW100

Requisites:

Aims & learning objectives:
Aims: To satisfy as many of the objectives as possible as set out in the individual project proposal. Objectives: To produce the deliverables identified in the individual project proposal.
Content:
Defined in the individual project proposal.


MATH0118: Management statistics

Semester 2

Credits: 5

Contact:

Topic:

Level: Level 3

Assessment: EX60 CW40

Requisites: Pre MATH0097

Aims & learning objectives:
This unit is designed primarily for DBA Final Year students who have taken the First and Second Year management statistics units but is also available for Final Year Statistics students from the School of Mathematical Sciences. Well qualified students from the IMML course would also be considered. It introduces three statistical topics which are particularly relevant to Management Science, namely quality control, forecasting and decision theory. Aims: To introduce some statistical topics which are particularly relevant to Management Science. Objectives: On completing the unit, students should be able to implement some quality control procedures, and some univariate forecasting procedures. They should also understand the ideas of decision theory.
Content:
Quality Control: Acceptance sampling, single and double schemes, SPRT applied to sequential scheme. Process control, Shewhart charts for mean and range, operating characteristics, ideas of cusum charts. Practical forecasting. Time plot. Trend-and-seasonal models. Exponential smoothing. Holt's linear trend model and Holt-Winters seasonal forecasting. Autoregressive models. Box-Jenkins ARIMA forecasting. Introduction to decision analysis for discrete events: Revision of Bayes' Theorem, admissability, Bayes' decisions, minimax. Decision trees, expected value of perfect information. Utility, subjective probability and its measurement.


MATH0125: Markov processes & applications

Semester 2

Credits: 6

Contact:

Topic: Statistics

Level: Level 3

Assessment: EX100

Requisites:

Aims & learning objectives:
Aims: To study further Markov processes in both discrete and continuous time. To apply results to random walks, networks of queues, communication networks, electrical networks, biological processes and elsewhere. Objectives: On completing the course, students should be able to:
* formulate an appropriate Markovian model for a given real life problem and apply suitable theoretical results to obtain a solution;
* calculate basic probabilities of a simple random walk using the excursion process;
* classify a birth process as explosive or non-explosive.
Content:
Topics from: Discrete-time chains; random walks, the Strong Markov Property, reflecting random walks as queueing models in one or more dimensions, electrical networks. Models of interference in communication networks, the ALOHA model. Branching processes. Continuous-time chains: Explosion. Open and closed migration processes, networks of queues, partial balance. The Wright-Fisher and Moran models, the coalescent. The Poisson process in time and space.


MATH0128: Project (BSc)

Semester 2

Credits: 6

Contact:

Topic: Mathematics

Level: Level 3

Assessment: CW100

Requisites:

Aims & learning objectives:
Aims: To satisfy as many of the objectives as possible as set out in the individual project proposal. Objectives: To produce the deliverables identified in the individual project proposal.
Content:
Defined in the individual project proposal.


PHYS0002: Properties of matter

Semester 1

Credits: 6

Contact:

Topic:

Level: Level 1

Assessment: EX80 CW20

Requisites:

Students must have A-level Physics or Chemistry and A-level Mathematics to undertake this unit. Aims & learning objectives:
The aims of this unit are to gain insight into how the interplay between kinetic and potential energy at the atomic level governs the formation of different phases and to demonstrate how the macroscopic properties of materials can be derived from considerations of the microscopic properties at the atomic level. After taking this unit the student should be able to - use simple model potentials to describe molecules and solids - solve simple problems for ideal gases using kinetic theory - describe the energy changes in adiabatic and isothermal processes - derive thermodynamic relationships and analyse cycles - derive and use simple transport expressions in problems concerning viscosity, heat and electrical conduction.
Content:
Balance between kinetic and potential energy. The ideal gas - Kinetic Theory; Maxwell- Boltzmann distribution; Equipartition. The real gas - van der Waals model. The ideal solid - model potentials and equilibrium separations of molecules and Madelung crystals. Simple crystal structures, X-ray scattering and Bragg's law. First and second laws of thermodynamics, P-V-T surfaces, phase changes and critical points, thermodynamic temperature and heat capacity of gases. Derivation of mechanical (viscosity, elasticity, strength, defects) and transport properties (heat and electrical conduction) of gases and solids from considerations of atomic behaviour. Qualitative understanding of viscosity (Newtonian and non-Newtonian) in liquids based on cage models.


PHYS0004: Relativity & astrophysics

Semester 2

Credits: 6

Contact:

Topic:

Level: Level 1

Assessment: EX80 CW20

Requisites:

Students must have A-level Physics and Mathematics to undertake this unit. Aims & learning objectives:
The aims of this unit are to introduce the concepts and results of special relativity and to provide a broad introduction to astronomy and astrophysics. An additional aim is that the student's appreciation of important physical phenomena such as gravitation and blackbody radiation should be reinforced through their study in astrophysical contexts. After taking this unit, the student should be able to - write down the essential results and formulae of special relativity - describe the important special relativity experiments (real or thought) - solve simple kinematic and dynamical special relativity problems - give a qualitative account of how the sun and planets were formed - describe how stars of differing masses evolve - give a simple description of the expanding Universe and its large-scale structure - solve simple problems concerning orbital motion, blackbody radiation, cosmological redshift, stellar luminosity and magnitude.
Content:
Special Relativity: Galilean transformation. Speed of light - Michelson-Morley experiment; Einstein's postulates. Simultaneity; time dilation; space contraction; invariant intervals; rest frames; proper time; proper length. Lorentz transformation. Relativistic momentum, force, energy. Doppler effect. Astrophysical Techniques: Telescopes and detectors. Invisible astronomy : X-rays, gamma-rays, infrared and radio astronomy. Gravitation: Gravitational force and potential energy. Weight and mass. Circular orbits; Kepler's Laws; planetary motion. Escape velocity. Solar System: Earth-Moon system. Terrestrial planets; Jovian planets. Planetary atmospheres. Comets and meteoroids. Formation of the solar system. The interstellar medium and star birth. Stellar distances, magnitudes, luminosities; black-body radiation; stellar classification; Hertzsprung-Russell diagram. Stellar Evolution: Star death: white dwarfs, neutron stars. General Relativity: Gravity and geometry. The principle of equivalence. Deflection of light; curvature of space. Gravitational time dilation. Red shift. Black holes. Large scale structure of the Universe. Galaxies: Galactic structure; classification of galaxies. Formation and evolution of galaxies. Hubble's Law. The expanding universe. The hot Big Bang. Cosmic background radiation and ripples therein.


PHYS0024: Contemporary physics

Semester 1

Credits: 6

Contact:

Topic:

Level: Level 3

Assessment: ES100

Requisites:

Students should have taken an appropriate selection of Year 1 and Year 2 Physics units in order to undertake this unit. Aims & learning objectives:
The aim of this unit is to enable students to find out about some of the most exciting developments in contemporary Physics research. While taking this unit the student should be able to - demonstrate good time management skills in allocating appropriate amounts of time for the planning, research and writing of reports - carry out literature searching methods for academic journals and computer-based resources in order to research the topics studied - develop the ability to extract and assimilate relevant information from extensive sources of information - develop structured report writing skills - write a concise summary of each seminar, at a level understandable by a final year undergraduate unfamiliar with the subject of the seminar - write a detailed technical report on one of the seminar subjects of the student's choice, displaying an appropriate level of technical content, style and structure.
Content:
This unit will be based around 5 or 6 seminars from internal and external speakers who will introduce topics of current interest in Physics. Students will then choose one of these subjects on which to research and write a technical report. Topics are likely to include recent developments in: Astrophysics and Cosmology; Particle Physics; Medical Physics; Laser Physics; Semiconductor Physics; Superconductivity; Quantum Mechanical Simulation of Matter.


PHYS0029: Thermodynamics & statistical mechanics

Semester 2

Credits: 6

Contact:

Topic:

Level: Level 3

Assessment: EX80 CW20

Requisites: Pre PHYS0002, Pre PHYS0008

Aims & learning objectives:
The aims of this unit are to develop an appreciation of the concepts of classical thermodynamics and their application to physical processes and to introduce the concepts of statistical mechanics, showing how one builds from an elementary treatment based on ways of arranging objects to a discussion of Fermi-Dirac and Bose systems, simple phase transitions, and more advanced phenomena. After taking this unit, the student should be able to - define terms such as isobaric, isothermal, adiabatic, etc. and state and apply the 1st and 2nd Laws - calculate work done and heat interchanges as various paths are followed on a PV diagram - explain the operation of, and carry out calculations for, heat engines and refrigerators - write down the Clausius -Clapeyron equation and describe its applications - carry out simple calculations on various Virial equations of state - solve problems using Maxwell's relations in various contexts - define entropy, temperature, chemical potential in statistical terms - derive the Boltzmann, Planck, Fermi-Dirac and Bose-Einstein distribution functions and apply them to simple model systems - outline the mean-field approach to phase transitions in strongly interacting systems, and appreciate its limitations.
Content:
Classical thermodynamics; First and second laws of thermodynamics. Isothermal and adiabatic processes. Thermodynamic temperature scale, heat engines, refrigerators, the Carnot cycle, efficiency and entropy. Thermodynamic functions, Maxwell's relations and their applications. Specific heat equations, phase changes, latent heat equations and critical points. Statistical Mechanics; Basic postulates. Systems in thermal contact and thermal equilibrium. Statistical definitions of entropy, temperature and chemical potential. Boltzmann factor and partition function illustrated by harmonic oscillator and two-state system. Planck distribution: photons, radiation, phonons. Fermions and Bosons: Fermi-Dirac and Bose-Einstein distribution functions. Properties of Fermi systems: ground state of a Fermi gas, density of states; Fermi gas at non-zero temperature; electrons in solids, models of white dwarf and neutron stars. Properties of Bose systems: Bose-Einstein condensation, superfluidity and superconductivity. Applications of Statistical Mechanics to classical and quantum systems such as non-reacting and reacting mixtures of classical gases; equilibrium of two-phase assemblies; models of magnetic crystals, the Ising model; mean-field and other approaches to phase transitions in ferromagnets and binary alloys; elementary kinetic theory of transport processes; transport theory using the relaxation-time approximation: electrical conductivity, viscosity; propagation of heat and sound.


PHYS0030: Quantum mechanics

Semester 2

Credits: 6

Contact:

Topic:

Level: Level 3

Assessment: EX80 CW20

Requisites:

Students must have A-level Physics in order to undertake this unit and must have undertaken appropriate maths units provided by either the Departments of Physics or Mathematical Sciences. Aims & learning objectives:
The aims of this unit are to show how a mathematical model of considerable elegance may be constructed, from a few basic postulates, to describe the seemingly contradictory behaviour of the physical universe and to provide useful information on a wide range of physical problems. After taking this unit the student should be able to: - discuss the dual particle-wave nature of matter - explain the relation between wave functions, operators and experimental observables - justify the need for probability distributions to describe physical phenomena - set up the Schröödinger equation for simple model systems - derive eigenstates of energy, momentum and angular momentum - apply approximate methods to more complex systems.
Content:
Introduction: Breakdown of classical concepts. Old quantum theory. Quantum mechanical concepts and models: The "state" of a quantum mechanical system. Hilbert space. Observables and operators. Eigenvalues and eigenfunctions. Dirac bra and ket vectors. Basis functions and representations. Probability distributions and expectation values of observables. Schrodinger's equation: Operators for position, time, momentum and energy. Derivation of time-dependent Schrodinger equation. Correspondence to classical mechanics. Commutation relations and the Uncertainty Principle. Time evolution of states. Stationary states and the time-independent Schrodinger equation. Motion in one dimension: Free particles. Wave packets and momentum probability density. Time dependence of wave packets. Bound states in square wells. Parity. Reflection and transmission at a step. Tunnelling through a barrier. Linear harmonic oscillator. Motion in three dimensions: Stationary states of free particles. Central potentials; quantisation of angular momentum. The radial equation. Square well; ground state of the deuteron. Electrons in atoms; the hydrogen atom. Hydrogen-like atoms; the Periodic Table. Spin angular momentum: Pauli spin matrices. Identical particles. Symmetry relations for bosons and fermions. Pauli's exclusion principle. Approximate methods for stationary states: Time independent perturbation theory. The variational method. Scattering of particles; the Born approximation.


PHYS0031: Simulation techniques

Semester 2

Credits: 6

Contact:

Topic:

Level: Level 3

Assessment: EX80 CW20

Requisites: Pre PHYS0020

Aims & learning objectives:
The aims of this unit are to identify some of the issues involved in constructing mathematical models of physical processes, and to introduce major techniques of computational science used to find approximate solutions to such models. After taking this unit the student should be able to - dedimensionalise an equation representing a physical system - discretise a differential equation using grid and basis set methods - outline the essential features of each of the simulation techniques introduced - give examples of the use of the techniques in contemporary science - use the simulation schemes to solve simple examples by hand - describe and compare algorithms used for key processes common to many computational schemes.
Content:
Construction of a mathematical model of a physical system; de-dimensionalisation, order of magnitude estimate of relative sizes of terms. Importance of boundary conditions. The need for computed solutions. Discretisation using grids or basis sets. Discretisation errors. The finite difference method; review of ODE solutions. Construction of difference equations from PDEs. Boundary conditions. Applications. The finite element method; Illustration of global, variational approach to solution of PDEs. Segmentation. Boundary conditions. Applications. Molecular Dynamics and Monte-Carlo Methods; examples of N-body problems, ensembles and averaging. The basic MD strategy. The basic MC strategy; random number generation and importance sampling. Applications in statistical mechanics. Simulated annealing. Computer experiments. Solving finite difference problems via random walks. Other major algorithms of computational science; the Fast Fourier Transform, matrix methods, including diagonalisation, optimisation methods, including non-linear least squares fitting.


UNIV0002: French comparative employee relations A

Semester 1

Credits: 6

Contact:

Topic: French

Level: Level 2

Assessment: EX100

Requisites: Pre MANG0079

Aims & learning objectives:
To introduce students to comparative frameworks for analysing employment relations in Western European countries: to give students a basic understanding of employment relations in Western European countries, with particular emphasis on France and Britain. After successfully completing this course, students should be able to apply theories of employment relations to specific cases, understand and explain differences between national employment relations systems.
Content:
The course will include lectures on managing the employment relationship, trade unions, industrial conflict, the State and the law, theories of employment relations, comparative frameworks; and explaining 'societal' difference.


UNIV0003: German comparative employee relations A

Semester 1

Credits: 6

Contact:

Topic: German

Level: Level 2

Assessment: EX50 ES50

Requisites: Pre MANG0079

Aims & learning objectives:
a) To describe and analyse the changing features of employee relations in the UK. This introduction to the subject provides the basis for comparative work later in the course. b) To introduce students to the specific legal, institutional and cultural dimensions of industrial relations in Germany. Comparisons with the UK will serve to highlight the main characteristics of the German situation and to sensitise students to the reasons behind the complex pattern of relations existing between the "social partners" as represented by state, unions, employers and employees.
Content:
Employee relations: an introduction; Trade Unions; Employers and Managers; Industrial Conflict; State and the Law.


UNIV0004: European business environment 2: Financial & national perspective of France

Semester 2

Credits: 5

Contact:

Topic:

Level: Level 2

Assessment: EX50 CW50

Requisites: Pre MANG0082

Aims & learning objectives:
Building on European Business Environment - European Integration and Legal Structure - to understand selected national perspectives of the Member States with respect to their business interests and be aware of comparative financial issues
Content:
The content will cover: European Monetary Union; the "Franc fort"; the French banking system; the importance of cross-border trade; Accounting in Europe; global harmonisation of financial reporting; foreign exchange; practical issues in convergence and a common currency; capital markets and universal banking.


UNIV0006: European business environment 2: Financial & national perspective of Germany

Semester 2

Credits: 5

Contact:

Topic:

Level: Level 2

Assessment: EX50 CW50

Requisites: Pre MANG0082

Aims & learning objectives:
Building on European Business Environment - European Integration and Legal Structure - to understand selected national perspectives of the Member States with respect to their business interests and be aware of comparative financial issues
Content:
The content will cover: European Monetary Union; Federalism in Germany: a model for Europe; new perspectives from German integration; the single currency and the D.Mark; the importance of cross-border trade; Accounting in Europe; global harmonisation of financial reporting; foreign exchange; practical issues in convergence and a common currency; capital markets and universal banking


UNIV0007: The internationalisation of business 2 - French

Semester 2

Credits: 5

Contact:

Topic:

Level: Level 3

Assessment: EX70 PR15 OT15

Requisites: Pre MANG0085, Ex MANG0060

Aims & learning objectives:
The course will build on the ideas introduced in unit 1 (MANG0085) concerning foreign direct investment (FDI) and the multinational enterprise. It will discuss these in the European and, particularly French, context. Through case studies and simulation, the course will demonstrate and analyse examples of international business. It will analyse inward and outward FDI as it affect France.
Content:
Geographic and industry studies illustrating theories of international business, the motivations and different forms of multinational operation and the risks involved. Foreign direct investment in the European Union and countries potentially included in enlargement - intra-EU and from outside the region. Assessments, motivations and the options available. France and international business; internationalisation of French companies; FDI in France; French FDI abroad; French international business in the wider Europe. International business simulation - an all day role play seminar concerning decisions and developments in a European industry. b) foreign direct investment in the European Union - intra-EU and from outside the region. Assessments, motivations and the options available. France and International Business; Internationalisation of French companies; FDI in France; French FDI abroad; French international business in the wider Europe International Business simulation - an all day role play seminar concerning decisions and developments in a European industry.


UNIV0008: The internationalisation of business 2 - German

Semester 2

Credits: 5

Contact:

Topic:

Level: Level 3

Assessment: EX70 PR15 OT15

Requisites: Pre MANG0085, Ex MANG0060

Aims & learning objectives:
The course will build on the ideas introduced in unit 1 (MANG0085) concerning foreign direct investment and the multinational enterprise. It will discuss these in the European and, particularly German, context. It will analyse inward and outward foreign direct investment as it affects Germany. Through case studies and simulation, the course will demonstrate and analyse examples of international business.
Content:
Geographic and industry studies illustrating theories of international business, the motivations and different forms of multinational operation and the risks involved. Foreign direct investment in the European Union and countries potentially included - intra-EU and from outside the region. Assessments, motivations and the options available. Germany and international business; internationalisation of German companies; FDI in German; German FDI abroad; the evolution of German business within Central and Eastern Europe. International business simulation - an all day role play seminar concerning decisions and developments in a European industry. b) foreign direct investment in the European Union - intra-EU and from outside the region. Assessments, motivations and the options available. Germany and the internationalisation of business; Internationalisation of German companies FDI in Germany; German FDI abroad; The evolution of German business with/in Central and Eastern Europe International Business simulation - an all day role play seminar concerning decisions and developments in a European industry.


UNIV0009: Year abroad in France - work placement

Academic Year

Credits: 60

Contact:

Topic: French

Level: Level 2

Assessment: ES100

Requisites: Pre UNIV0004

Aims & learning objectives:

* to promote the development of high-level language skills in French
* to acquire in-depth personal experience of the French culture
* to gain professional experience
Content:
Working in a role in an approved organization which will involve a challenging range of tasks, giving an opportunity to put management studies into practice, while also developing language skills to near fluency.


UNIV0010: Year abroad in Germany - work placement

Academic Year

Credits: 60

Contact:

Topic: German

Level: Level 2

Assessment: ES100

Requisites: Pre UNIV0006

Aims & learning objectives:

* to promote the development of high-level language skills in German
* to acquire in-depth personal experience of the German culture
* to gain professional experience
Content:
Working in a role in an approved organization which will involve a challenging range of tasks, giving an opportunity to put management studies into practice, while also developing language skills to near fluency.


UNIV0011: Year abroad in France - academic exchange

Academic Year

Credits: 60

Contact:

Topic: French

Level: Level 2

Assessment:

Requisites: Pre UNIV0004

Aims & learning objectives:

* to promote the development of high-level language skills in French
* to acquire in-depth personal experience of the French culture
* to gain academic experience in a French/Quebecois business school
Content:
To carry out an agreed programme of work at a French/Quebecois business school. The nature, scope and assessment of this work is to be agreed by the institutions involved in the exchange arrangements.


UNIV0012: Year abroad in Germany - academic exchange

Academic Year

Credits: 60

Contact:

Topic: German

Level: Level 2

Assessment:

Requisites: Pre UNIV0006

Aims & learning objectives:

* to promote the development of high-level language skills in German
* to acquire in-depth personal experience of the German culture
* to gain academic experience in a German business school
Content:
To carry out an agreed programme of work at a German business school. The nature, scope and assessment of this work is to be agreed by the institutions involved in the exchange arrangements.


UNIV0013: Year abroad in France - academic exchange & work placement

Academic Year

Credits: 60

Contact:

Topic: French

Level: Level 2

Assessment:

Requisites: Pre UNIV0004

Aims & learning objectives:

* to promote the development of high-level language skills in France
* to acquire in-depth personal experience of the French culture
* to gain professional experience
Content:
To carry out an agreed programme of work at a French business school. The nature, scope and assessment of this work is to be agreed by the institutions involved in the exchange arrangements.


UNIV0014: Year abroad in Germany - academic exchange & work placement

Academic Year

Credits: 60

Contact:

Topic: German

Level: Level 2

Assessment:

Requisites: Pre UNIV0006

Aims & learning objectives:

* to promote the development of high-level language skills in Germany
* to acquire in-depth personal experience of the German culture
* to gain professional experience
Content:
To carry out an agreed programme of work at a German business school. The nature, scope and assessment of this work is to be agreed by the institutions involved in the exchange arrangements.


UNIV0027: German international marketing communications A

Semester 1

Credits: 6

Contact:

Topic: German

Level: Level 3

Assessment: EX100

Requisites: Pre UNIV0010, Pre UNIV0012, Pre UNIV0014

Aims & learning objectives:
To develop students' understanding of the principles of marketing from their Second Year and to ally it to their own experience on placement, passing on to the international context. It also aims to place the marketing function within social and organisational networks of communication.
Content:
The unit is in two parts. The first (in English over six weeks) provides an introduction to the general principles of international marketing (structural, legal etc.). The second (in German) examines marketing as part of the communications process. i. The International Marketing Environment: Economic, social, political and legal constraints Regional markets Globalisation versus internationalisation ii. Marketing Communications: The communications process; persuasion and propaganda Cultural influences, universals and their effects.


UNIV0028: French international marketing communications A

Semester 1

Credits: 6

Contact:

Topic: French

Level: Level 3

Assessment: EX100

Requisites: Pre UNIV0009, Pre UNIV0011, Pre UNIV0013

Aims & learning objectives:
To develop students' understanding of the applications of the principles of marketing from their Second Year and ally it to their own experience on placement, passing on to the international context. It also aims to place the marketing function within social and organisational networks of communication.
Content:
The unit is in two parts. The first (in English over six weeks) provides for an introduction to the general principles of international marketing (structural, legal etc). The second (in French) examines marketing as part of the communications process. i. The International Marketing Environment: Economic, social, political and legal constraints Regional markets Globalisation versus internationalisation ii. Marketing Communications: The communications process; persuasion and propaganda Cultural influences, universals and their effects.


XXXX0001: Any other units approved by the Director of Studies

Semester 1

Credits: 6

Contact:

Topic:

Level: Level 1

Assessment:

Requisites:

This pseudo-unit indicates that you are allowed to choose other units from around the University subject to the normal constraints such as staff availability, timetabling restrictions, and minimum and maximum group sizes. You should make sure that you indicate your actual choice of units when requested to do so. Details of the University's Catalogue can be seen on the University's Home Page.


XXXX0001: Any other units approved by the Director of Studies

Semester 2

Credits: 6

Contact:

Topic:

Level: Level 1

Assessment:

Requisites:

This pseudo-unit indicates that you are allowed to choose other units from around the University subject to the normal constraints such as staff availability, timetabling restrictions, and minimum and maximum group sizes. You should make sure that you indicate your actual choice of units when requested to do so. Details of the University's Catalogue can be seen on the University's Home Page.