Chemistry Unit Catalogue
Unit Catalogue

CHEY0001: Introductory Chemistry

Semester 1

Credits: 6

Contact:

Level: Level 1

Assessment: EX80 CW20

Requisites: Ex CHEY0007

Aims & learning objectives:
To introduce current ideas of atomic structure, covalent bonding and coordination chemistry fundamental to more advanced chemistry topics. After studying this unit, students should be able to:
* Name the first 36 elements, their symbols and electronic configurations.
* Name the four quantum numbers and their allowed values.
* Draw radial and angular functions for s, p, d orbitals.
* Draw simple MO diagrams and use them to predict bond order and magnetic properties.
* Derive the shapes of molecules using the VSEPR method.
Content:
Bohr model of the atom, quantization, properties of waves, Schrödinger equation and its solutions, anuglar and radial functions, quantum numbers. The Periodic Table, Aufbau Principle, Hunds Rules; ionisation energy, electron affinity and electronegativity. Basic molecular orbital theory, application to homo- and heteronuclear diatomics. Introduction to coordination chemistry: shape, VSEPR, hybridization and isomerism.


CHEY0002: Kinetics & Mechanism 1

Semester 1

Credits: 6

Contact:

Level: Level 1

Assessment: EX80 CW20

Requisites: Ex CHEY0007, Ex CHEY0008

Aims & learning objectives:
To introduce the concept of reaction mechanism in the context of key reactions of organic and inorganic chemistry. To provide a grounding in the measurement and analysis of reaction rates, and in the concepts of molecular kinetics. After studying this Unit, students should be able to:
* Draw mechanisms for some of the fundamental reactions of organic chemistry,
* Describe the use of kinetic and stereochemical experiments to determine reaction mechanism.
* Predict chemical reactivity from knowledge of acid/base and nucleophile/electrophile properties.
* Analyse, interpret and account for reaction rate data and its temperature dependence.
* Describe the connection between molecular kinetic properties and measured macroscopic gas phase features.
Content:
Moles and molecules, formal charge, polarity. Acids, bases, electrophiles, nucleophiles. Resonance, conjugation, tautomerism. Reaction energy profiles, equilibria and rates; kinetic and thermodynamic control. Electrophilic addition to carbonyl compounds; addition/elimination for acyl derivatives. Rates of reaction: definition and analysis of rate law, order and rate constant, connection with mechanism. Temperature dependence of rates; rate-determining step, uni- and ter-molecular reactions. Molecular kinetics: ideal gas equation; calculation of pressure and temperature, internal energy, heat capacities and quantisation. Real gases, van der Waals equation, critical point.


CHEY0003: Functional Group Interconversions

Semester 1

Credits: 6

Contact:

Level: Level 1

Assessment: EX80 CW20

Requisites: Ex CHEY0008

Aims & learning objectives:
The characteristic properties of functional groups (FG's) and methods for their interconvertion are the foundations of organic chemistry. The aim of this unit is to provide a sound grasp of these topics to form a basis for further of the subject. After studying this unit, students should be able:
* To recognise, give examples of, systematically name (IUPAC) and represent diagrammatically the various FG's.
* To explain the electronic structure, bonding, and shape of the various FG's and to extapolate this to describe the origins of reactivity of these groups.
* To describe the general properties, reactions and methods of synthesis for monofunctionalized organic compounds.
* To extend the above discussion to encompass aromatic counterparts.
* To explain the special stability of aromatic compounds and how this affects reactivity.
Content:
Properties, isomerision, synthesis and interconversion reactions of alkanes, alkenes, alkynes, haloalkanes, alcohols, ethers, amins, ketones, aldehydes, and carboxylic acids with their derivatives. To describe and account for the differences and similarities between the above groups and their aromatic counterparts.


CHEY0004: Equilibria in chemical systems

Semester 2

Credits: 6

Contact:

Level: Level 1

Assessment: EX80 CW20

Requisites: Ex CHEY0007

Aims & learning objectives:
To introduce the basic chemical principles governing phase behaviour, chemical reactions and processes in terms of the thermodynamic properties of the components. After studying this Unit, students should be able to:
* Define the three laws of thermodynamics and solve simple problems involving their application
* Define the relationship between Gibbs free energy and chemical equilibrium and calculate the latter from data under a range of conditions.
* Draw and interpret a range of phase diagrams and make predictions as to phase behaviour
* Account for the main types of intermolecular forces found in liquids and solutions
* Perform qualitative and quantitative analyses and problems involving thermodynamic data.
Content:
Definition of chemical systems and changes in internal energy and enthalpy. Calculation of U, H, S, G under a range of temp., pressure and composition conditions. Relation between free energy and equilibrium constants with examples drawn from chemical reactions, redox and electrochemical processes. Phase behaviour of solids, liquids and gases. Intermolecular forces in liquids and gases. Ideal and non-ideal gases and solutions. Emphasis will be placed on the solution of a rabge of types of problems involving the correlation and prediction of system behaviour from thermodynamic data.


CHEY0005: Introduction to solid state and main group chemistry

Semester 2

Credits: 6

Contact:

Level: Level 1

Assessment: EX80 CW20

Requisites: Pre CHEY0001, Ex CHEY0007

Aims & learning objectives:
To introduce inorganic solid state chemistry, modern ideas about chemical bonding and the chemistry of s- and p- block elements. After studying this Unit students should be able to:
* Define basic crystallographic concepts.
* Describe the main types of inorganic structures through cell-projection diagrams.
* Provide a theoretical treatment for lattice energies.
* Describe the basic principles of s- and p-block chemistry, including hydrogen.
* Use the redox properties of the s- and p-block elements to predict and rationalise chemical reactions.
* Describe the bonding and structures of selected interhalogen and noble gas compounds.
Content:
Solid state structures, radius ratio rule, cell projections for common structural types, lattice energy. Chemical bonding theory, shapes of molecules. The s-block elements, properties related to reactivity and size. H-bonding. Oxidation states of the p-block elements, stability, lone-pair effect, free energy (Frost) diagrams. Chemistry of the halogens and noble gases and their inter-relationship.


CHEY0006: Spectroscopy

Semester 2

Credits: 6

Contact:

Level: Level 1

Assessment: EX80 CW20

Requisites: Ex CHEY0007

Aims & learning objectives:
The Unit will provide an introduction to the principles of molecular spectroscopy, developing from the basic quantum mechanics of simple molecules to the interpretation of spectra of complex molecules. After studying this Unit, students should be able to:
* Define the terms wavefunction and eigenvalue.
* Relate physical models to quantisation of molecular and electronic energies.
* Predict the pure rotation and vibration-rotation spectra of linear diatomic molecules.
* Describe the origin of microwave, IR, NMR and electronic spectra.
* Identify organic species from IR, NMR and UV spectra.
Content:
Basic principles of quantum mechanics; wavefunctions, eigenvalues and operators. Introduction to electromagnetic radiation. Rotational spectroscopy; rigid rotor model. Vibrational spectroscopy. Linear ditomics and polyatomic molecules. Vibration-rotation spectroscopy. Electronic spectra of conjugated compounds. IR spectra of functional group containing compounds. Origins and applications of proton and carbon NMR spectra. Introduction to mass spectrometry.


CHEY0009: Foundation chemistry laboratory

Semester 1

Credits: 3

Contact:

Level: Level 1

Assessment: PR100

Requisites: Co CHEY0010, Co CHEY0011, Co CHEY0012, Ex CHEY0007, Ex CHEY0008

This unit is only available to students on Chemistry programmes. Aims & learning objectives:
This foundation course is designed to impart some of the essential basic techniques and skills in practical chemistry that will be important throughout the degree course. Interpretation of results obtained in the light of theories and concepts developed in other units will also be an aim. After following the Unit, students should be able to:
* Assemble and use straightforward apparatus for preparative and analytical chemistry
* Accurately report observations and measurements made in the laboratory
* Use PC's for communication and basic data analysis and use Library sources for finding chemical information
* Perform accurate analytical measurements using selected titrimetric and spectrophotometric methods.
* Prepare standard solutions and perform straifghtforward purification techniques such as recrystallisation
* Interpret results in terms of an appropriate theoretical framework and draw appropriate conclusions
* Quantitatively assess the significance of measurements made in the laboratory
Content:
A series of quantitative and qualitative experiments and exercises will be performed. These will illustrate some basic principles of volumetric and spectrophotometric analytical chemistry. Methods used will include acid-base and redox titrimetry, absorption and fluorescence spectrophotometry. The accuracy and limitations of thermochemical measurements will be explored. The use of these techniques in "real" situations will be used to develop an understanding of precision and accuracy in chemical measurements. Basic manipulative techniques such as crystallisation and purification of compounds will be performed. An introduction to using PCs and spreadsheets for analysing results, for e-mail and chemical simulation will be covered as will Library sources of data.


CHEY0010: Inorganic chemistry laboratory 1

Semester 1

Credits: 3

Contact:

Level: Level 1

Assessment: PR100

Requisites: Pre CHEY0009, Co CHEY0011, Co CHEY0012, Ex CHEY0008

This unit is only available to students on Chemistry programmes. Aims & learning objectives:
To introduce students to the basic techniques of synthetic and analytical inorganic chemistry. To foster a good scientific style in the presentation of data and to develop students' ability to manipulate and interpret scientific data. After studying this Unit students should be able to:
* Make careful observations of chemical reactions and explain them in terms of chemical equations.
* Perform straightforward synthetic and purification procedures
* Use volumetric glassware and balances in the correct manner.
* Manipulate and present scientific data in a clear and logical way, including the use of significant figures.
Content:
Analysis by titration, flame photometry and spectrophotometry; preparation of compounds selected from Group 14 - 17 elements and their reaction chemistry; ion-exchange chromatography; modelling ionic and covalent bonding.


CHEY0010: Inorganic chemistry laboratory 1

Semester 2

Credits: 3

Contact:

Level: Level 1

Assessment: PR100

Requisites: Pre CHEY0009, Co CHEY0011, Co CHEY0012, Ex CHEY0007

This unit is only available to students on Chemistry programmes. Aims & learning objectives:
To introduce students to the basic techniques of synthetic and analytical inorganic chemistry. To foster a good scientific style in the presentation of data and to develop students' ability to manipulate and interpret scientific data. After studying this Unit students should be able to:
* Make careful observations of chemical reactions and explain them in terms of chemical equations.
* Perform straightforward synthetic and purification procedures
* Use volumetric glassware and balances in the correct manner.
* Manipulate and present scientific data in a clear and logical way, including the use of significant figures.
Content:
Analysis by titration, flame photometry and spectrophotometry; preparation of compounds selected from Group 14 - 17 elements and their reaction chemistry; ion-exchange chromatography; modelling ionic and covalent bonding.


CHEY0011: Organic chemistry laboratory 1

Semester 1

Credits: 3

Contact:

Level: Level 1

Assessment: PR100

Requisites: Pre CHEY0009, Co CHEY0010, Co CHEY0012, Ex CHEY0008

This unit is only available to students on Chemistry programmes. Aims & learning objectives:
To provide an introduction to the basic techniques of experimental organic chemistry. After studying the Unit, students should be able to
* Assemble and use basic apparatus for experimental organic chemistry
* Perform straightforward synthesis and purification methods
* Relate the mechanistic organic chemistry from lectures Units to the appropriate laboratory experiment.
Content:
Reactions of double bonds, electrophilic addition. Reactions involving the carbonyl group, to include; the aldol reaction, synthesis of esters and amides. Electrophilic aromatic substitution. Retrieval of information from the scientific literature.


CHEY0011: Organic chemistry laboratory 1

Semester 2

Credits: 3

Contact:

Level: Level 1

Assessment: PR100

Requisites: Pre CHEY0009, Co CHEY0010, Co CHEY0012, Ex CHEY0007

This unit is only available to students on Chemistry programmes. Aims & learning objectives:
To provide an introduction to the basic techniques of experimental organic chemistry. After studying the Unit, students should be able to
* Assemble and use basic apparatus for experimental organic chemistry
* Perform straightforward synthesis and purification methods
* Relate the mechanistic organic chemistry from lectures Units to the appropriate laboratory experiment.
Content:
Reactions of double bonds, electrophilic addition. Reactions involving the carbonyl group, to include; the aldol reaction, synthesis of esters and amides. Electrophilic aromatic substitution. Retrieval of information from the scientific literature.


CHEY0012: Physical chemistry laboratory 1

Semester 1

Credits: 3

Contact:

Level: Level 1

Assessment: PR100

Requisites: Pre CHEY0009, Co CHEY0010, Co CHEY0011, Ex CHEY0008

This unit is only available to students on Chemistry programmes. Aims & learning objectives:
To provide a basic training in laboratory skills for Physical Chemistry. To relate experimental work to the scientific theory behind the experiment and thus give a fuller understanding of the theory. After studying this Unit, the student should be able to:
* Use scientific apparatus with care and confidence
* Make essential observations accurately and estimate the possible errors.
* Produce a scientific report of their work.
* Gain a critical appreciation of the purpose, significance and limitations of any experimental study.
Content:
A series of experiments based on principles introduced during lecture units which may include: Determination of thermodynamic properties of chemical reactions using thermochemical and electrochemical approaches. Spectroscopic analysis of compounds to measure physical properties. Study of the rates of chemical reactions by a number of methods.


CHEY0012: Physical chemistry laboratory 1

Semester 2

Credits: 3

Contact:

Level: Level 1

Assessment: PR100

Requisites: Pre CHEY0009, Co CHEY0010, Co CHEY0011, Ex CHEY0007

This unit is only available to students on Chemistry programmes. Aims & learning objectives:
To provide a basic training in laboratory skills for Physical Chemistry. To relate experimental work to the scientific theory behind the experiment and thus give a fuller understanding of the theory. After studying this Unit, the student should be able to:
* Use scientific apparatus with care and confidence
* Make essential observations accurately and estimate the possible errors.
* Produce a scientific report of their work.
* Gain a critical appreciation of the purpose, significance and limitations of any experimental study.
Content:
A series of experiments based on principles introduced during lecture units which may include: Determination of thermodynamic properties of chemical reactions using thermochemical and electrochemical approaches. Spectroscopic analysis of compounds to measure physical properties. Study of the rates of chemical reactions by a number of methods.


CHEY0013: Characterization methods

Semester 1

Credits: 6

Contact:

Level: Level 2

Assessment: EX80 CW20

Requisites: Pre CHEY0006

Aims & learning objectives:
To provide an introduction to a number of techniques for characterisation of chemical compounds. After studying this Unit, students should be able to:
* Describe the principles underlining the techniques studied.
* Interpret and make calculations based on simple X-ray diffraction patterns.
* Interpret and predict NMR and ESR spectra from a number of nucleii.
* Obtain chemical information from more advanced 1H NMR spectral methods.
* Identify the fundamental processes that lead to absorption, emission and scattering of electromagnetic radiationfrom molecular species.
Content:
Overview of X-ray generation and use of filters. Crystal classes, lattices and unit cells. Bragg's Law. Uses of powder diffraction. General principles of NMR - magnetic properties of nuclei, sensitivity and abundance. Spectra of I = 1/2 nuclei. Chemical shifts and coupling constants. Problems with I>1/2 nuclei. Interpretation of NMR spectra. Homotopic and diastereotopic protons. Exchange processes. Correlated spectra. The Nuclear Overhauser effect. Magnetic properties of the electron and the origin and interpretation of ESR spectra. Mass spectrometry. IR vibrational spectra of complex molecules. Scattering, rotational and vibrational Raman spectroscopy. Emission spectroscopy. The fate of steady states. Alternative emission processes.


CHEY0014: Synthesis of organic molecules

Semester 1

Credits: 6

Contact:

Level: Level 2

Assessment: EX80 CW20

Requisites: Pre CHEY0003, Pre CHEY0008

Aims & learning objectives:
To provide the student with a working knowledge of important classes of organic transformations, including mechanisms. To give an overview of retrosynthetic analysis as a valuable method for the design of an organic molecule. After studying this Unit, students should be able to:
* account for the importance of selectivity in organic synthesis.
* demonstrate the important relationship between structure and reactivity for organic molecules.
* design syntheses of heterocyclic and alicyclic compounds from common starting materials
* apply retrosynthesis methods to a selected range of compounds
Content:
The principles of retrosynthesis. The use of carbon nucleophiles in retrosynthesis. Malonate ester synthesis and applications. Umpolung reagents. Alkene synthesis, including Wittig reaction. Oxidation reactions of alkenes and alcohols. Reduction reactions of ketones and other carbonyl compounds. Protecting groups and strategy in organic synthesis. Introduction to selectivity; substrate selectivity, regioselectivity. Chemoselectivity - oxidation and reduction. Stereoselectivity - diastereoselective and enantioselective synthesis. Conformation of cyclohexanes - the importance of stereochemistry to reactivity - carbohydrates. Description and synthesis of heterocycles. Routes to pyrroles, furan, thiophene, pyridine and indoles and their reactivity. Synthesis and reactivity of pyridines, quinolines and isoquinolines. Synthesis and reactivity of 3- and 4-membered ring heterocycles.


CHEY0015: Transition metal chemistry

Semester 1

Credits: 6

Contact:

Level: Level 2

Assessment: EX80 CW20

Requisites: Pre CHEY0005, Pre CHEY0007, Co CHEY0020

Aims & learning objectives:
After studying this Unit, students should be able to:
* Describe bonding models that can be applied to a consideration of the properties of transition metal compounds.
* Describe the basis of colour and magnetism in transition metal compounds.
* Appreciate the chemistry of transition metal compounds containing metal-carbon s- and p-bonds.
Content:
General properties of transition metal compounds. Bonding theories e.g. Crystal Field Theory and its applications and limitations. Multi-electron systems: Russell-Saunders coupling and its application to d-d electronic spectra and magnetochemistry. Explanation of structural and chemical properties of transition metal- ligand complexes particularly metal carbonyls. Organometallics - nomenclature, electron counting, hapticities. Metal-carbon s- and p-bonding and examples of each. Applications and uses of organometallic compounds. Reaction mechanisms in inorganic compounds.


CHEY0016: Interfacial chemistry

Semester 2

Credits: 6

Contact:

Level: Level 2

Assessment: EX80 CW20

Requisites: Co CHEY0022

Pre CHEY0004 or CHEY0007 Aims & learning objectives:
To provide an introduction to the physical chemistry of interfaces and to demonstrate its significance in catalysis and colloid science. After studying this units, students should be able to:
* Describe and define the types of adsorption at solid surfaces
* Explain the qualitative and quantitative basis of catalysis and physical adsorption
* Define surface tension and solve simple problems involving its application
* Define and interpret the forces between two colloids
* Describe the different processes which control reactions at solid/liquid interfaces
Content:
Introduction to surfaces. chemisorption versus physisorption. adsorbed amounts. Types of isotherms: Langmuir Isotherm. determination of heat of adsorption,BET isotherm: Introduction to heterogeneous catalysis. Kinetics of catalysis. Langmuir Hinshelwood mechanism. Eley Rideal mechanism. Catalysis examples Modern surface science techniques. Molecular basis and consequences of surface tension. Colloid stability. Micellisation. Gibbs equation.reactions at solid/liquid interfaces. Mass transport, surface reactivity.


CHEY0017: Kinetics & mechanism 2

Semester 1

Credits: 6

Contact:

Level: Level 2

Assessment: EX80 CW20

Requisites:

Pre CHEY0002 or (CHEY0007 and CHEY0008) Aims & learning objectives:
To illustrate how the rate and mechanism of a chemical reaction can be understood in terms of the chemical structure of molecules. After studying this Unit, students should be able to:
* Describe the synthetic chemistry of carbocations, anions and radical species and describe some of the mechanisms involved in their reaction.
* Describe some experimental methods for investigating reaction rate and mechanism.
* Account for the temperature dependence of reaction rates.
* Define the stereochemical implications of a range of common mechanisms.
* Summarise how the mechanism of a reaction may be found from structural and kinetic data.
Content:
Evidence for mechanisms and intermediates; principles for acceptability;. Solvent and substituent effects on equilibria. Rates for reactions of various kinetic orders, and kinetic treatment of more complex mechanisms. Theoretical treatments of reaction kinetics and examples of their application. Reactions in solution. Catalysis by acids and bases.; Nucleophilic catalysis. Stereochemistry and mechanism. Aspects of the chemistry of carbocations, carbanions, radicals, carbenes, nitrenes, and arynes. Experimental methods for fast reactions. Basic photochemical processes. Applications of photochemistry. New methods of studying reactions: molecular beams; infra-red chemiluminescence.


CHEY0018: Environmental aspects of chemistry

Semester 2

Credits: 6

Contact:

Level: Level 2

Assessment: EX80 CW20

Requisites:

Pre CHEY0005 OR CHEY0007 Aims & learning objectives:
To provide an introduction to various aspects of chemistry which have an impact on the environment. To promote an understanding of the major chemical processes contributing to the structure and stability of the biosphere. To provide an insight into the effects of human activities on the atmosphere. After studying the Unit, students should be able to:
* select appropriate techniques for the analysis of compounds or elements in a range of situations.
* describe the principles behind as well as the usefulness and significance of a selected range of analytical methods.
* describe factors affecting nuclear stability and outline selected applications of radioactive decay processes.
* describe qualitative and quantitative aspects of selected radioactive decay processes.
* account for the physical structure and composition of the atmosphere.
* describe natural and anthropogenic sources of N,O and halogen containing species and relate their reactivity to ozone forming and depleting reactions and to global warming.
Content:
Revision of basic analytical methods (titrimetry, spectroscopy) and statistical treatment of results. Electrochemical methods of analysis. Techniques for metals in the environment (AAS, AFS, ICP-MS). Chromatographic methods, with emphasis on applications for organics in the environment The nature, properties and applications of radioactivity and radioactive elements. Production and recycling of nuclear fuels. General features determining the composition of the biosphere. Major chemical cycles and dynamic versus thermodynamic control. Atmospheric chemistry and the roles of N, O and halogens in relation to ozone producing cycles and organic radicals.The Greenhouse effect.


CHEY0019: Structure & bonding in chemical systems

Semester 2

Credits: 6

Contact:

Level: Level 2

Assessment: EX80 CW20

Requisites:

Aims & learning objectives:
To provide an introduction to a range of tools that enable us to investigate a range of chemical properties and relate them to molecular structure and bonding. After studying the Unit, students should be able to:
* identify symmetry elements in and define the point group of a molecule
* fully assign the vibrational spectra (IR and Raman) using Group Theory
* Use Group Theory to draw MO diagrams for simple chemical species
* use quantum mechanical methods to generate and rationalise the structure and bonding in organic molecules.
* rationalise the reactivity of molecules in terms of sterochemical considerations
Content:
The concept of symmetry and symmetry operations and their use to generate point groups for molecular species. Group theory and vibrational spectroscopy. Solving the Schrodinger equation and the calculation of energy levels. Development of the variation method applied to diatomics and hydrocarbons. Calculation of electronic and bonding energies,the relationship between molecular orbitals, electron density and reactivity. Extensions to pericyclic reactions. Importance of frontier molecular orbitals (FMO) to cycloaddition reactions, endo selectivity of Diels-Alder reaction and FMO analysis of sigmatropic rearrangements. Stereochemical considerations in complex molecules.


CHEY0020: Inorganic chemistry laboratory 2

Semester 1

Credits: 3

Contact:

Level: Level 2

Assessment: PR100

Requisites: Pre CHEY0010, Co CHEY0015, Co CHEY0023

This unit is only available to students on Chemistry programmes. Aims & learning objectives:
To provide experience in synthetic inorganic chemistry and introduce a range of experimental techniques. After studying this Unit, students should be able to:
* Perform straightforward syntheses of coordination and organometallic compounds.
* Analyse compounds using a number of physical methods.
* Deduce structural information from physical methods of analysis.
* Write a clear and concise account of the experimental work undertaken and the deductions made from it.
Content:
The experiments have been designed to illustate some of the important features of coordination and organometallic chemistry. Compounds will be prepared and information obtained from a number of physical methods including IR spectroscopy, NMR, UV/visible spectroscopy, atomic absorption, measurement of magnetic moment and thermal decomposition. Experiments illustrating specfic techniques such as column chromatography and photochemistry will also be performed.


CHEY0021: Organic chemistry laboratory 2

Semester 2

Credits: 3

Contact:

Level: Level 2

Assessment: PR100

Requisites: Pre CHEY0011, Co CHEY0020, Co CHEY0022, Co CHEY0023

This unit is only available to students on Chemistry programmes. Aims & learning objectives:
The aim of this Unit is to extend and develop laboratory skills and techniques necessary for competent practical organic chemists. To complement some of the lecture material presented in other Year 2 units and to provide experience in synthetic organic chemistry and, in particular, spectroscopic interpretation of structural features of componds. After studying this Unit, students should be able to:
* To recognise the relationship of the experiments to the lecture material presented in the other year 2 units.
* To interpret spectroscopic data of a wide variety and to relate this to the spatial, structural and chemical features of the compounds synthesised in the laboratory.
* To apply their experience in synthetic organic chemistry to other organic reactions.
* To demonstrate their practical skills and techniques to a good level of ability.
Content:
Experiments designed to illustrate the wide diversity of organic chemistry ranging from physical principles to organic synthesis and through to biological and natural product chemistry. These experiments will extend existing, and introduce new, skills and techniques to the students.


CHEY0022: Physical chemistry laboratory 2

Semester 2

Credits: 3

Contact:

Level: Level 2

Assessment: PR100

Requisites: Pre CHEY0012, Co CHEY0016, Co CHEY0020, Co CHEY0021, Co CHEY0023

Aims & learning objectives:
To build on existing physical chemistry techniques and reinforce lecture material. After studying this unit, students should be able to:
* Use spreadsheets to analyse data in a competent manner.
* Understand the importance of advanced experimental design and safety
* Perform sophisticated experiemental manipulation
* Evaluate complicated results in terms of the theory underlying the experiment
* Write coherent scientific reports on obtained data
Content:
6 self contained experiments to include: surface analysis, polymer viscosities, phase equilibria, electrochemical techniques, photochemistry and colloid science.


CHEY0023: Computational chemistry laboratory

Semester 1

Credits: 3

Contact:

Level: Level 2

Assessment: PR100

Requisites: Co CHEY0020

This unit is only available to students on Chemistry programmes. Aims & learning objectives:
A practical introduction to the use of computational packages for molecular modelling as tools for the solution of chemical problems. After studying this Unit, students should be able to:
* Build and manipulate computational molecular models to assist interpretation of chemical structue, bonding and properties.
* Use computer packages to perform calculations to opitmise molecular geometry, determine atomic charges and electrostatic potentials, display molecular orbitals and normal modes of vibration.
* Analyse and interpret vibrational-rotational spectra for diatomic molecules.
* Index, interpret and perform simple calculations based on powder X-ray diffraction photographs of crystalline materials with rubic Bravais lattices.
* Use software packages to draw simple chemical structures and to access a chemical database
Content:
Molecular mechanics with NEMESIS: conformations of six-membered rings and peptides. Molecular orbital calculations with SPARTAN : qualitative MO theory and molecular vibrations. X-ray powder diffraction. Infra-red spectrum of HCI. Structure drawing with ISIS/Draw. Introduction to Beilstein electronic database.


CHEY0024: Inorganic & computational chemistry laboratory

Semester 1

Credits: 3

Contact:

Level: Level 2

Assessment: PR100

Requisites: Pre CHEY0009, Pre CHEY0010

This unit is only available to students on Chemistry with Management programmes. Aims & learning objectives:
Two aspects of practical chemistry will be introduced in this Unit. It aims to demonstrate the utility of synthetic inorganic chemistry and the use of computational packages for molecular modelling as tools for the solution of chemical problems. After studying this Unit, students should be able to:
* Build and manipulate computational molecular models to assist interpretation of chemical structue, bonding and properties.
* Use computer packages to perform calculations to opitmise molecular geometry, determine atomic charges and electrostatic potentials, display molecular orbitals and normal modes of vibration.
* Perform straightforward syntheses of coordination and organometallic compounds.
* Analyse compounds using a number of physical methods.
* Deduce structural information from physical methods of analysis.
Content:
Experiments designed to illustrate the important features of metal d-block chemistry coordination chemistry, organometallics and metal-metal bonded compounds. Interpretation of spectra. Computation techniques to be introduced will include Molecular mechanics, energy minimization and geometry optimization. Databases for chemical structures and chemical synthesis design.


CHEY0025: Physical & organic chemistry laboratory

Semester 2

Credits: 3

Contact:

Level: Level 2

Assessment: PR100

Requisites: Pre CHEY0011, Pre CHEY0012

This unit is only available to students on Chemistry with Management programmes. Aims & learning objectives:
To build on existing practical chemistry techniques and reinforce lecture material. After studying this unit, students should be able to:
* Use spreadsheets to analyse data in a competent manner.
* Understand the importance of experimental design and safety
* Evaluate complicated results in terms of the theory underlying the experiment
* Write coherent scientific reports on obtained data
* To interpret spectroscopic data of a wide variety and to relate this to the spatial, structural and chemical features of the compounds synthesised in the laboratory.
* To apply their experience in synthetic organic chemistry to other organic reactions.
* To demonstrate their practical skills and techniques to a good level of ability.
Content:
Experiments involving surface analysis, colloid science, and reaction kinetics requiring computer based analysis of results. Synthesis of organic compounds and interpretation of information obtained from physical methods.


CHEY0030: Chemistry of d- and f- block elements

Semester 2

Credits: 3

Contact:

Level: Level 3

Assessment: EX100

Requisites: Pre CHEY0015

Aims & learning objectives:
To provide an introduction to more advanced aspects of and recent developments in coordination chemistry. After studying this Unit, students should be able to:
* Demonstrate an understanding of how and why the coordination chemistry of the second and third row elements differs from that of the first row transition and f-block elements.
* Account for the considerable current research attention attracted by the heavier transition metals.
* Account for the bonding features relating to structural and reactivity patterns.
Content:
Ligand design - steric and electronic effects and extremes of coordination. Supramolecular coordination chemistry. Metal-metal bonds and cluster compounds. Bonding/reactivity patterns in selected d- and f-block examples. Polymerization using transition metal catalysts.


CHEY0032: Complex fluids

Semester 2

Credits: 3

Contact:

Level: Level 3

Assessment: EX100

Requisites: Pre CHEY0016

Aims & learning objectives:
To summarise the main factos which determine the physical properties of liquid crystals, surfactants and microemulsions. After studying this Unit, the students should be able to:
* Classify the main type of liquid crystalline mesophases.
* Describe the structures formed by amphiliphilic molecules in soluction and acount for their stablity.
* Draw and interpret the X-ray scattering from liquid crystalline structures.
* Account for the formation of microemulsions.
* Deduce basic structural information from small angle neutron scattering measurements.
Content:
Definitions of Complex fluids. Liquid crystal structures - nematic, columnar and smectic phaes. Scattering techniques. Optical properties of LC phases. Theories of LC phase formation. Self assembly. Spheres, rods and lamellar structures. Probing structure by neutron scattering, NMR, Microemulsions. Phase behaviour in colloidal suspension.


CHEY0033: Electrochemistry

Semester 2

Credits: 3

Contact:

Level: Level 3

Assessment: EX100

Requisites: Pre CHEY0016

Aims & learning objectives:
This course provides an introduction to kinetic electrochemistry. Students will be able to demonstrate an understanding of how electrode kinetics and mass transport phenomenon influence experimental electrochemical measurements. The course will provide a general overview of the applications of electrochemistry in the `real' world. After styding this Unit, students should be able to:
* Define the relationship between mass transport and electron transfer processes in electrochemical measurements.
* Analyse current-voltage behaviourfor potential step and cyclic voltammetry measurements.
* Identify the structure of the electrical double layer at charged metal solution-interfaces.
Content:
Introduction to electrode kinetics. Models of electron transfer. Theory. How voltage influences the rate constant for electronics reactions. Mass transport; convertion, diffusion and migration. Experimental techniques: voltammetry-cyclic and potential s tep measurements. Hydrodynamic systems - the rotating disc and dropping mercury electrodes. Microelectrodies. Devices for the investigation of rapid chemical reactions. The structure of the electrode/solution interface: the electrical double layer. Spectroelectrochemistry, infra red, UV/VIS and ESR. Fuel cells, solar cells and batteries.


CHEY0035: Asymmetric synthesis

Semester 2

Credits: 3

Contact:

Level: Level 3

Assessment: EX100

Requisites: Pre CHEY0014

Aims & learning objectives:
To introduce some topics of current research interest to students with a specialised interest in organic chemistry and to explain the importance and history of new developments and their significance. After studying the Unit, students should be able to
* Quote examples of organic reactions in current use for synthesising industrially important compounds
* Describe methods for the control of stereochemistry of organic reactions
* Account for the synthetic methods used and the reaction mechanisms of the selected reactions
Content:
Introduction to and examples of asymmetric catalysis. Catalytic asymmetric hydrogenation. Asymmetric oxidations - epoxidation and dehydroxylation. Enantiopure Lewis acids. The use of auxilliaries to control the stereochemistry of organic reactions. SAMP and RAMP hydrazones; Evans auxilliaries in enolate alkylation reactions. Control of syn/anti stereochemistry in the aldol reaction. Stereoselective Diels Alder reactions in synthesis.


CHEY0036: Biopolymers

Semester 2

Credits: 3

Contact:

Level: Level 3

Assessment: EX100

Requisites: Pre CHEY0014

Aims & learning objectives:
To provide an overview of biopolymer structures (protein, carbohydrate, nucleic acids) and biopolymer biosynthesis. To understand the relationship between proteins and DNA, how proteins are made, how DNA may be sequences and why this should be important.
Content:
Peptide chemistry and peptide sequencing and synthesis; monosaccharide and oligosaccharide chemistry, including stereochemistry; synthesis of disaccharides; brief resume of DNA and genes; the genetic code and gene malfunction; chemical synthesis of DNA; why it is important; definition of an oligonucleotide; chemical synthesis of oligonucleotides using solid phase techniques; DNA sequencing: definition; importance; two methods for sequencing DNA.


CHEY0037: Synthesis of medicinal compounds

Semester 2

Credits: 3

Contact:

Level: Level 3

Assessment: EX100

Requisites: Pre CHEY0014

Aims & learning objectives:
To introduce and illustrate how advanced synthetic organic chemistry is used in the preparation of medicinally valuable compounds. After studying this Unit, students should be able to:
* Use reterosynthetic analysis to plan synthetic routes to a range of complex target molecules.
* Define reagents and strategies for the assembly of defined stereochemical arrays.
* Design rational analogues, or modified compounds from given medicinal agents.
Content:
The unit will illustrate the complex relationship between organic chemistry and medicine. Several disease areas will be selected and compounds used to treat them considered. The focus of the unit will be the methods used to synthesise those compounds. Areas covered will include:- Prostaglandens, b-Lactams, ionophoro antibiotics and anti-cancer drugs.


CHEY0038: Neutron scattering for chemists

Semester 2

Credits: 3

Contact:

Level: Level 3

Assessment: EX100

Requisites: Pre CHEY0016

Aims & learning objectives:
To provide an introduction to the theory and practice of modern neutron scattering as applied to chemical systems After studying this units, students should be able to:
* Define and describe scattering parameters for neutrons
* Describe typical neutron scattering experimental set-up
* Discuss the use of isotopic substitution and contrast variation
* Analyse small angle scattering data
* Discuss in detail neutron scattering from interfaces
Content:
Introduction:Why neutrons. Scattering theory. Properties of the neutron and production of high fluxes. Experimental detail - neutron spectrometers. Detection of neutrons. Coherent and Incohernet scattering. Elastic and inelastic scattering. Small Angle scattering. Neutron reflection.


CHEY0039: Computational chemistry

Semester 2

Credits: 3

Contact:

Level: Level 3

Assessment: EX100

Requisites: Pre CHEY0019

Aims & learning objectives:
To provide an introduction to computational chemistry describing the range of chemical problems relating to inorganic and biological materials that are accessible to these techniques. After studying the Unit, students should be able to:
* demonstrate the relationship between interatomic forces and chemical properties and identify where computer simulation techniques can be used
* describe the usefulness and limitations of selected methods in a variety of chemical situations
Content:
Definitions of terms such as ensembles and periodic boundaries. Description of energy minimisation methods. Introduction to zeolite catalysts and the role of energy minimisation in understanding their properties. Introduction to molecular dynamics and its use in calculating thermodynamic and diffusion properties. The role of molecular dynamics in modelling diffusion. Introduction to Monte Carlo techniques, including applications e.g. crystal growth. Use of empirical calculations in protein folding and extension to bioinformatic techniques.


CHEY0040: Chemistry research project 1

Semester 1

Credits: 12

Contact:

Level: Undergraduate Masters

Assessment: DS55 OR30 OT15

Requisites: Co CHEY0049

Only available to students on MChem Sandwich programmes Year 4. Aims & learning objectives:
To allow students to experience a practical research project typical of research in an academic environment. To further develop and reinforce the skills necessary for research work. After studying the Unit, students should be able to:
* Demonstrate advanced experimental techniques appropriate to the chosen project
* Record experimental observations and data in an efficient manner
* Present results in a variety of formats and place them into context of other researchers' work
* Demonstrate the ability to plan and conduct an experimental programme
Content:
A research topic will be selected in conjunction with a supervising member of staff and a program of experimental work planned. In addition to the experimental aspects, appropriate library work will be conducted. Aspects of project planning, safety, report writing skills and oral presentations will be introduced as appropriate.


CHEY0042: Inorganic cages & clusters

Semester 2

Credits: 3

Contact:

Level: Level 3

Assessment: EX100

Requisites: Pre CHEY0015

Aims & learning objectives:
To provide an introduction to the chemistry of main Group cages, clusters and inorganometallic compounds with special reference to the structure/electron count relationships found in boranes. After studying this Unit, students should be able to:
* Predict the structure and reactivity of boranes, heteroboranes and metalloboranes.
* Describe recent advances in the field of Boron chemistry
Content:
PSEP theory (Wades rules). Isolobal theory. Synthesis and reactivity of boranes and metalloboranes. Transition metal boryls. Weakly coordinating anions. BNCT. Other selected main group cahes and clusters including Sintl ions. Compounds that deviate from Wades rules.


CHEY0043: Group work in practical chemistry

Semester 1

Credits: 6

Contact:

Level: Level 3

Assessment: OT100

Requisites: Co CHEY0063

Only available to students in the Department of Chemistry Aims & learning objectives:
To introduce students to an extended piece of practical chemistry involving planning and executing experimental work and reporting the results in a number of formats. Other factors such as communication skills and teamwork will be emphasised. After completing this Unit, students should be able to:
* Demonstrate skills in planning and executing practical problems in Chemistry
* Work in a team - allocation and correlation of tasks and collection of data
* Present the results of an investigation in written report and poster formats
* Demonstrate experimental skills appropriate to the chosen project
Content:
Students will work in small groups on problems of an investigative nature selected from a list of available projects. A problem will be set and appropriate experimental protocols will need to be researched and designed. After completion of the work, a variety of reporting formats will be used (poster, report) to emphasise students' communication skills.


CHEY0043: Group work in practical chemistry

Semester 2

Credits: 6

Contact:

Level: Level 3

Assessment: OT100

Requisites:

Only available to students in the Department of Chemistry Aims & learning objectives:
To introduce students to an extended piece of practical chemistry involving planning and executing experimental work and reporting the results in a number of formats. Other factors such as communication skills and teamwork will be emphasised. After completing this Unit, students should be able to:
* Demonstrate skills in planning and executing practical problems in Chemistry
* Work in a team - allocation and correlation of tasks and collection of data
* Present the results of an investigation in written report and poster formats
* Demonstrate experimental skills appropriate to the chosen project
Content:
Students will work in small groups on problems of an investigative nature selected from a list of available projects. A problem will be set and appropriate experimental protocols will need to be researched and designed. After completion of the work, a variety of reporting formats will be used (poster, report) to emphasise students' communication skills.


CHEY0047: Advanced chemistry research project 1

Semester 1

Credits: 24

Contact:

Level: Undergraduate Masters

Assessment: OR30 OT70

Requisites: Co CHEY0048

Only available to students on MChem (non-Sandwich) programmes Year 4. Aims & learning objectives:
To allow students to experience a practical research project typical of research in an academic environment. To further develop and reinforce the skills necessary for research work. After studying the Unit, students should be able to:
* Demonstrate advanced experimental techniques appropriate to the chosen project
* Record experimental observations and data in an efficient manner
* Present results in a variety of formats and place them into context of other researchers' work
* Demonstrate the ability to plan and conduct an experimental programme
Content:
A research topic will be selected in conjunction with a supervising member of staff and a program of experimental work planned. In addition to the experimental aspects, appropriate library work will be conducted. Aspects of project planning, safety, report writing skills and oral presentations will be introduced as appropriate.


CHEY0048: Advanced chemistry research project 2

Semester 2

Credits: 18

Contact:

Level: Undergraduate Masters

Assessment: OR30 OT70

Requisites:

Only available to students on MChem (non-Sandwich) programmes Year 4. Aims & learning objectives:
To allow students to experience a practical research project typical of research in an academic environment. To further develop and reinforce the skills necessary for research work. After studying the Unit, students should be able to:
* Demonstrate advanced experimental techniques appropriate to the chosen project
* Record experimental observations and data in an efficient manner
* Present results in a variety of formats and place them into context of other researchers' work
* Demonstrate the ability to plan and conduct an experimental programme
Content:
A research topic will be selected in conjunction with a supervising member of staff and a program of experimental work planned. In addition to the experimental aspects, appropriate library work will be conducted. Aspects of project planning, safety, report writing skills and oral presentations will be introduced as appropriate.


CHEY0049: Chemistry research project 2

Semester 2

Credits: 12

Contact:

Level: Undergraduate Masters

Assessment: DS55 OR30 OT15

Requisites: Co CHEY0040

Only available to students on MChem Sandwich programmes Year 4. Aims & learning objectives:
To allow students to experience a practical research project typical of research in an academic environment. To further develop and reinforce the skills necessary for research work. After studying the Unit, students should be able to:
* Demonstrate advanced experimental techniques appropriate to the chosen project
* Record experimental observations and data in an efficient manner
* Present results in a variety of formats and place them into context of other researchers' work
* Demonstrate the ability to plan and conduct an experimental programme
Content:
A research topic will be selected in conjunction with a supervising member of staff and a program of experimental work planned. In addition to the experimental aspects, appropriate library work will be conducted. Aspects of project planning, safety, report writing skills and oral presentations will be introduced as appropriate.


CHEY0050: The chemical literature

Semester 1

Credits: 6

Contact:

Level: Level 3

Assessment: RT60 OR40

Requisites: Co CHEY0063

Aims & learning objectives:
To introduce students to the skills necessary in retrieving information from a variety of Chemical Literature sources and preparation of an in-depth report on a topic. After studying the Unit, students should be able to
* Recognise and use appropriate text and electronic sources of chemical information
* Assemble information from a number of sources into a coherent report
* Prepare and deliver an oral presentation using appropriate visual aids
Content:
In conjunction with a supervisor, a topic of recent research or other chemical significance will be selected. Several key references will be identified and the student will use these as a basis to prepare a detailed, critical survey of the area. In addition to `paper' sources, computer based data retrieval systems will be used. Students will prepare a written report and also a short oral presentation on the selected topic.


CHEY0050: The chemical literature

Semester 2

Credits: 6

Contact:

Level: Level 3

Assessment: RT60 OR40

Requisites:

Aims & learning objectives:
To introduce students to the skills necessary in retrieving information from a variety of Chemical Literature sources and preparation of an in-depth report on a topic. After studying the Unit, students should be able to
* Recognise and use appropriate text and electronic sources of chemical information
* Assemble information from a number of sources into a coherent report
* Prepare and deliver an oral presentation using appropriate visual aids
Content:
In conjunction with a supervisor, a topic of recent research or other chemical significance will be selected. Several key references will be identified and the student will use these as a basis to prepare a detailed, critical survey of the area. In addition to `paper' sources, computer based data retrieval systems will be used. Students will prepare a written report and also a short oral presentation on the selected topic.


CHEY0053: Professional studies in chemistry

Semester 1

Credits: 6

Contact:

Level: Undergraduate Masters

Assessment: CW100

Requisites: Ex CHEY0055, Ex CHEY0062

Only available to students on M.Chem programmes not involving industrial placement Aims & learning objectives:
To introduce students to a number of factors affecting the professional practice of Chemistry in the academic world. After studying the unit, students should be able to:
* DescribeUniversity policies on training and intellectual property rights
* Describe the environmental aspects of the work of the University
* Cost a research project and prepare a case for its support
* Describe some of the legislative, Governmental and economic factors affecting the University's performance
Content:
Students will be expected to research a range of the following factors within the University and complete a report describing policies in. Structural and economic factors of the modern academic structure in the UK; Industrial liason, Safety; Environmental impact of scientific activities; Intellectual property rights; costs of chemical research; personal and management skills.


CHEY0053: Professional studies in chemistry

Semester 2

Credits: 6

Contact:

Level: Undergraduate Masters

Assessment: CW100

Requisites: Ex CHEY0055, Ex CHEY0062

Only available to students on M.Chem programmes not involving industrial placement Aims & learning objectives:
To introduce students to a number of factors affecting the professional practice of Chemistry in the academic world. After studying the unit, students should be able to:
* DescribeUniversity policies on training and intellectual property rights
* Describe the environmental aspects of the work of the University
* Cost a research project and prepare a case for its support
* Describe some of the legislative, Governmental and economic factors affecting the University's performance
Content:
Students will be expected to research a range of the following factors within the University and complete a report describing policies in. Structural and economic factors of the modern academic structure in the UK; Industrial liason, Safety; Environmental impact of scientific activities; Intellectual property rights; costs of chemical research; personal and management skills.


CHEY0054: Industrial placement (Bsc hons)

Academic Year

Credits: 60

Contact:

Level: Level 3

Assessment: RT100

Requisites: Ex CHEY0055, Ex CHEY0058, Ex CHEY0060

Available for students on BSc sandwich courses in the Department of Chemistry. May also be available to Natural Science students depending on individual circumstances. Aims & learning objectives:
To provide students with an opportunity to gain a years experience of working in a chemical company or related organisation. The placement will allow students to:
* Apply knowledge and skills gained at University to real applications of Chemistry and related areas
* Demonstrate a range of "key skills" such as team work, time and project management, oral and written communication
* Participate in an extended programme of experimental work and develop practical skills appropriate to the area of work.
Content:
A research project and/or training programme will be conducted in a company or organisation approved by the Department of Chemistry. The content will depend on the precise requirements of the placement company.


CHEY0055: Industrial placement (MChem)

Academic Year

Credits: 48

Contact:

Level: Level 3

Assessment: OT100

Requisites: Co CHEY0062, Ex CHEY0054, Ex CHEY0058, Ex CHEY0060

Available only for students on M.Chem. with Industrial Training degree scheme. Students must also take CHEY0061 (Distance learning units). Aims & learning objectives:
To provide students with an opportunity to gain a years experience of working in a chemical company or related organisation. During the placement, students will be expected to:
* Apply knowledge and skills gained at University to real applications of Chemistry and related areas
* Demonstrate a range of "key skills" such as team work, time and project management, oral and written communication
* Participate in an extended programme of experimental work and develop practical skills appropriate to the area of work.
* Participate in discussions concerning their work and contribute ideas as appropriate
* Prepare an oral presentation, a poster and an extended written report at appropriate times during the placement
Content:
A research project will be conducted in a company or organisation approved by the Department of Chemistry. The content will depend on the precise requirements of the placement


CHEY0058: Study year abroad (Bsc hons)

Academic Year

Credits: 60

Contact:

Level: Level 2

Assessment:

Requisites: Ex CHEY0054, Ex CHEY0055

Aims & learning objectives:
Please see the Director of Studies for detailed information about the Study Year Abroad.
Content:
12 months assessed study in an overseas University approved by the Department of Chemistry and including a major project involving chemical research.


CHEY0060: Study year abroad (MChem)

Academic Year

Credits: 54

Contact:

Level: Level 3

Assessment: OT100

Requisites: Ex CHEY0054, Ex CHEY0055

Aims & learning objectives:
Please see the Director of Studies for detailed information about the Study Year Abroad.
Content:
12 months assessed study in an overseas University approved by the Department of Chemistry and including a major project involving chemical research.


CHEY0061: Distance learning units

Academic Year

Credits: 6

Contact:

Level: Level 3

Assessment:

Requisites:

Aims & learning objectives:
Please see the Director of Studies for more information about the topics to be studied.
Content:
Two 3 credit units will be selected from those available and will be studied by a variety of distance learning methods.


CHEY0062: Professional studies in chemistry (distance learning)

Academic Year

Credits: 6

Contact:

Level: Level 3

Assessment: RT100

Requisites: Co CHEY0055, Ex CHEY0053

Only available to students on M.Chem programmes with industrial placement Aims & learning objectives:
To introduce students to a number of factors affecting the professional practice of Chemistry in the workplace. Consideration will be given to a range of situations encountered in modern chemical practice at the company on which they are on placement. After studying the unit, students should be able to:
* Describe the company policies on training and intellectual property rights
* Describe the environmental aspects of the work of their company.
* Cost a research project and prepare a case for its support
* Describe the market strategies and economic factors affecting the company's performance
* Describe the development of one of the company's major products
Content:
Students will be expected to research a range of the following factors within the placement company and complete a report describing company position and policies in. Structural and economic factors of the modern chemical industry; Safety; Environmental impact of the chemical industry; Intellectual property rights; costs of chemical research; personal and management skills.


CHEY0063: Chemistry research project

Semester 1

Credits: 12

Contact:

Level: Level 3

Assessment: OR40 OT60

Requisites: Co CHEY0043, Co CHEY0050

Only available to students on Chemistry programmes Year 3/4 Aims & learning objectives:
To allow students to experience a practical research project typical of research in an academic environment. To further develop and reinforce the skills necessary for research work. After studying the Unit, students should be able to:
* Demonstrate advanced experimental techniques appropriate to the chosen project
* Record experimental observations and data in an efficient manner
* Present results in a variety of forms and place them into context of other researchers' work
* Demonstrate the ability to plan and conduct an experimental programme
Content:
A research topic will be selected in conjunction with a supervising member of staff and a program of experimental work planned. In addition to the experimental aspects, appropriate library work will be conducted. Aspects of project planning, safety, report writing skills and oral presentations will be introduced as appropriate.


CHEY0063: Chemistry research project

Semester 2

Credits: 12

Contact:

Level: Level 3

Assessment: OR40 OT60

Requisites: Co CHEY0043, Co CHEY0050

Only available to students on Chemistry programmes Year 3/4 Aims & learning objectives:
To allow students to experience a practical research project typical of research in an academic environment. To further develop and reinforce the skills necessary for research work. After studying the Unit, students should be able to:
* Demonstrate advanced experimental techniques appropriate to the chosen project
* Record experimental observations and data in an efficient manner
* Present results in a variety of forms and place them into context of other researchers' work
* Demonstrate the ability to plan and conduct an experimental programme
Content:
A research topic will be selected in conjunction with a supervising member of staff and a program of experimental work planned. In addition to the experimental aspects, appropriate library work will be conducted. Aspects of project planning, safety, report writing skills and oral presentations will be introduced as appropriate.


CHEY0064: Supramolecular chemistry

Semester 2

Credits: 3

Contact:

Level: Level 3

Assessment: EX100

Requisites: Pre CHEY0015

Aims & learning objectives:
To look at chemistry `beyond the molecule' and how a variety of intermolecular interactions can be exploited in terms of molecular recognition both in solution and in the solid state. After studying this Unit, students should be able to:
* To describe some important examples of host-guest chemistry.
* To relate the self-organisastion of simple molecules to the wider aspects of chemistry.
* To highlight future applications of supramolecular chemistry.
Content:
Introduction to supramolecular chemistry - concepts of molecular recognition, self-assembly, complementarity and receptor-substrate relationships. Host-guest chemistry. Cation and anion recognition and molecular sensors. Catenanes and rotaxanes. Molecular machines and supramolecular catalysis. Ligand design - steric and electronic effects. Use of coordination to control shape. Helices, squares and grids. Coordination polymers. Hydrogen bonding - introduction, molecular recognition and crystal engineering. Weaker interactions - p-p stacking C-HO interactions and d¹º - d¹º interactions (aurophilicity).


CHEY0066: Inorganic mechanisms & catalysis

Semester 2

Credits: 3

Contact:

Level: Level 3

Assessment: EX100

Requisites: Pre CHEY0015

Aims & learning objectives:
To develop an understanding of Inorganic reaction mechanisms and modern homogeneous catalytic processes. After studying this Unit, students should be able to:
* Describe substitution reactions of 4- and 6- coordinate transition metal compounds.
* Account for electron transfer processes
* Appreciate catalytic cycles and the mechanisms that underpin them.
Content:
Reaction types - associative, dissociative, interchange. Trans- effect and solvent participation in reactions of 4 coordinate complexes. Eigen-Wilkins mechanism; inner and outer electron transfer. Simple markus theory. Organometallic mechanisms; Monsanto hydroformylation and hydrogenation reactions.


CHEY0067: Introduction to polymer chemistry

Semester 2

Credits: 3

Contact:

Level: Level 3

Assessment: EX100

Requisites:

Aims & learning objectives:
This core unit will introduce the basic concepts needed to describe the synthesis and characterisation of a range of polymers in order to understand how their properties can be controlled. After studying the Unit, students should be able to:
* Demonstrate an understanding of how polymer structure can be influenced by the methods of synthesis and how this affects material properties.
* Describe and explain methods for synthesis by step- and chain growth polymerization
* Perform a range of numerical problems concerning polymerization chemistry
Content:
Classification and types of polymers. Synthesis of polymers with examples taken from several different classes (addition, step-growth, ring opening, organometallic) with the emphasis on how physicochemical considerations influence the polymer structure. Characterisation of polymers (molecular weight and chain length, spectroscopy, thermal methods). Structure and morphology of polymers and how this influences properties. Polymer solutions and thermodynamics of polymer mixtures. A survey of recent applications taken from current research and industrial topics.


CHEY0068: Physical organic chemistry

Semester 2

Credits: 3

Contact:

Level: Level 3

Assessment: EX100

Requisites: Pre CHEY0017

Aims & learning objectives:
To revise some basic concepts in physical organic chemistry and develop a number of ideas used to correlate reactivity and mechanism in a range of otrganic reactions. After studying the Unit, students should be able to:
* Describe some experimental tools for investigating reaction mechanisms and the use of some theoretical models for their correlation and interpretation
* Solve a range of problems involving numerical and mechanistic information
Content:
Energy changes in equilibria and reactivity. Transition states and saddle points. Activation parameters. Analysis of reaction coordinates. Principle of Least Nuclear Motion. Hammond Postulate. More O'Ferrall - Jencks diagrams. Rate - equilibrium correlations. Hammett equation as an example of a linear free-energy relatiionship. Signficance of s and r for reactivity and mechanism. Complex Hammett plots : change in mechanism vs. change in rate-determining step. Equilibrium and kinetic isotope effects. Primary and secondary effects and their significance. Heavy-atom effects. Solvent isotope effects.


CHEY0069: Advanced structural methods

Semester 1

Credits: 3

Contact:

Level: Level 3

Assessment: EX100

Requisites: Pre CHEY0013

Aims & learning objectives:
To describe and give examples of some modern techniques for investigating the structure of a range of inorganic molecules. After studying the Unit, students should be able to:
* Describe the physical basis, limitations and information available from a range of structural methods such as X-Ray crystallography, NMR, NQR and Mossbaurer Spectroscopics.
* Solve a range of problems involving numerical and spectroscopic information
Content:
Brief introduction to crystallography. Crystal systems and lattices. Unit cells. Periodicity in lattices. Space group diagrams. Data collection procedures and solving crystal structures. Atomic scattering factors and structure factors. R factors. Revision of basic principles of NMR spectroscopy. Variable temperature and 2-D NMR. NMR of paramagnetic compounds. Quadrupolar nuclei, relaxation and linewidths. Origin of NQR spectra. Mossbauer spectroscopy - origins and problems. Isomer shift and quadupole splitting.


CHEY0070: New developments in organic chemistry

Semester 1

Credits: 3

Contact:

Level: Level 3

Assessment: EX100

Requisites: Pre CHEY0014

Aims & learning objectives:
To describe some modern aspects of organic synthesis, including the control of stereochemistry and an introduction to medicinal chemistry After studying this Unit, students sould be able to:
* Understand the basic principles of organic chemistry taught in earlier modules.
* Explain how stereochemistry can be controlled in organic synthesis
* Discuss contemporary methods of drug discovery and medicinal chemistry
* Explain why combinatorial chemistry can benefit the drug discovery process
Content:
Stereochemistry of addition to carbonyl groups and alkenes. Directed reactions. Selectivity in hydroboration, epoxidation and hydrogenation. Selectivity in [3,3]-sigmatropic processes. An introduction to medicinal chemistry. The discovery and mode of action of sulfonamide drugs. Penicllins and the semi-synthesis of new antibiotics. The principles of combinatorial chemistry. The advantages of solid phase organic synthesis using resins.


CHEY0071: Organoelement chemistry

Semester 1

Credits: 3

Contact:

Level: Level 3

Assessment: EX100

Requisites: Pre CHEY0014

Aims & learning objectives:
To describe some modern aspects of organic synthesis, including, the use of unconventional elements in synthesis. After studying this Unit, students sould be able to:
* Understand the basic principles of organic chemistry taught in earlier modules.
* Define the role of transition metals as catalysts in modern organic chemistry
* Describe some of the important organic reactions based on main group elements
* Integrate concepts from inorganic chemistry with a mechanistic understanding of organoelement chemistry.
Content:
Transition metal catalysed coupling reactions and carbonylation reactions. Catalytic reactions involving alkenes (especially the Heck reaction). Other applications of transition metals to organic synthesis. General aspects of organosilicon chemistry, The use of sulfur ylides in alkene formation. Organoboron and organophosphorus chemistry. Stereochemistry of addition to carbonyl groups and alkenes. Directed reactions. Selectivity in hydroboration, epoxidation and hydrogenation.


CHEY0072: Main group ring systems

Semester 1

Credits: 3

Contact:

Level: Level 3

Assessment: EX100

Requisites: Pre CHEY0015

Aims & learning objectives:
To consider the synthesis, structure, bonding and uses of main group ring compounds with particular emphasis on the transition from ionic to covalent systems. After studying the Unit, students should be able to:
* Explain the solid state and solution structures of a range of main group ring compounds (i.e. those containing Li, Mg, Al, B, Si, P and S)
* Describe how these compounds are synthesised and how their structure and bonding varies
* Describe some uses of these compounds
* Interpret analytical data (e.g. NMR) in order to elucidate structures
Content:
The structure, bonding and synthesis of organolithium ring systems. A detailed examination of lithium amide and imide structures leading to a general theory of ring stacking and laddering. Comparison of Li, Mg and Al ring systems. A survey of the synthesis, structure and bonding of B-N, Si-N, P-N and S-N ring systems.


CHEY0073: Transition metal rings & clusters

Semester 1

Credits: 3

Contact:

Level: Level 3

Assessment: EX100

Requisites: Pre CHEY0015

Aims & learning objectives:
To introduce the basic principles of assembling basic structural units to form large molecular assemblies. After studying the Unit, students should be able to:
* Explain how the structures of cages and clusters may be rationalised and predicted
* Discuss the methods of synthesis and characterisation of large molecule assemblies
* Interpret structural and spectroscopic data provided for molecular assemblies.
Content:
A description of the synthesis and structural characteristics of rings, cages, dendrimers, polymers and clusters that contain transition metals. Electron counting schemes in clusters. Simple methods of characterising dendrimers, polymers and clusters using NMR, IR and other spectroscopic techniques.


CHEY0074: Photochemistry

Semester 2

Credits: 3

Contact:

Level: Level 3

Assessment: EX100

Requisites: Pre CHEY0016

Aims & learning objectives:
To revise the basic principles of photo chemistry taught in previous units and to introduce techniques for the study of and applications of photochemistry. After studying the Unit, students should be able to:
* Account for the formation and decay of electronically excited states in molecules
* Describe modern instrumental methods for photochemical investigation
* Solve a range of quantitative problems in these topics.
Content:
Absorption and emission of light. Jablonskii scheme. Excited state kinetics and quenching. Experimental methods. Properties and reactions of excited states. Examples of photochemical processes including photosynthesis, photography, solar energy conversion and atmospheric photochemistry.


CHEY0075: Statistical thermodynamics

Semester 1

Credits: 3

Contact:

Level: Level 3

Assessment: EX100

Requisites: Pre CHEY0016

Aims & learning objectives:
To introduce the basic principles and some applications of Statistical Thermodynamics After studying the Unit, students should be able to:
* Use basic statistical thermodynamic techniques to derive bulk properties of compunds from theoretical or spectroscopic data
* Assess the reliability of statistical approaches under different conditions
* Solve straightforward poroblems using the techniques introduced
Content:
Description of energy partition, the Boltzmann Distribution Law. and quantum statistics. Derivation of partition functions, their use to calculate properties and comparison with experimental techniques. Evaluation of equilibrium and rate constants. Statistical thermodynamics of solids. Introduction to lattice dynamics, definitions of phonons and phonon dispersion curves. Comparison of real materials with Debye and Einstein models.


CHEY0076: Applied chemistry

Semester 2

Credits: 6

Contact:

Level: Level 2

Assessment: CW40 EX40 OT20

Requisites: Pre CHEY0003, Pre CHEY0004, Pre CHEY0005

Aims & learning objectives:
To introduce the chemical principles behind a number of commonly encountered "everyday" situations. The students' "transferrable skills" will also be developed. After studying the Unit, students should be able to:
* Describe the chemical principles underlying the examples chosen for study.
* Prepare and present a poster on a chemical topic
* To analyse information from a range of sources to prepare a summary report
* Appreciate some of the factors involved in the industrial and commercial practice of chemistry
Content:
The Unit will consist of discussion of a number of case studies. A number of products which are commonly encountered in everyday life will be selected and their preparation on an industrial scale discussed. Other factors relating to their use will be discussed as appropriate. Examples will include:
* Liquid crystals as displays - synthesis, development and application
* OTC pharmaceuticals - synthesis on an industrial scale, scale-up and IPR issues
* Detergents - synthesis, formulation, mode of action, environmental impact
* Organic polymers - textiles, packaging, recycling
* Agrochemicals - fertilizers, pesticides: synthesis, analysis, environmental issues
* Preparation of silicon based products for "high technology" uses In addition, the role of Professional bodies such as RSC and SCI will be described. The assessments will be designed to allow students to further develop presentational and other key skills related to their potential practice as professional chemists.


CHEY0081: Industrial placement (MChem - half year)

Academic Year

Credits: 24

Contact:

Level: Level 3

Assessment: RT34 OR33 OT33

Requisites:

Students must also take CHEY0061 (Distance learning units). Aims & learning objectives:
To provide students with an opportunity to gain experience of working in a chemical company or related organisation. During the placement, students will be expected to:
* Apply knowledge and skills gained at University to real applications of Chemistry and related areas
* Demonstrate a range of "key skills" such as team work, time and project management, oral and written communication
* Participate in an extended programme of experimental work and develop practical skills appropriate to the area of work.
* Participate in discussions concerning their work and contribute ideas as appropriate.
Content:
A research project will be conducted in a company or organisation approved by the Department of Chemistry. The content will depend on the precise requirements of the placement. The placement will last a minimum of 24 weeks.


CHEY0082: Industrial placement (BSc - half year)

Academic Year

Credits: 30

Contact:

Level: Level 2

Assessment: OT100

Requisites:

Aims & learning objectives:
To provide students with an opportunity to gain experience of working in a chemical company or related organisation. The placement will allow students to:
* Apply knowledge and skills gained at University to real applications of Chemistry and related areas
* Demonstrate a range of "key skills" such as team work, time and project management, oral and written communication
* Participate in an extended programme of experimental work and develop practical skills appropriate to the area of work.
Content:
A research project and/or training programme will be conducted in a company or organisation approved by the Department of Chemistry. The content will depend on the precise requirements of the placement company. The placement will last a minimum of 24 weeks.


CHEY0083: Study period abroad (MChem - half year)

Academic Year

Credits: 24

Contact:

Level: Level 3

Assessment: RT34 OR33 OT33

Requisites:

Aims & learning objectives:
Students will gain experience of living and studying in a University outside the UK. They will have the opportunity to develop personal and linguistic skills in addition to developing their knowledge and understanding of chemistry and its applications. After studying this Unit, students should be able to:
* develop personal and interpersonal communication skills
* demonstrate the ability to work and interact effectively in a group environment in which cultural norms and ways of operating may be unfamiliar
* operate effectively with people from a different cultural background
* (where appropriate) improve their knowledge of the host language by attending classes therein and interacting with native speakers.
Content:
A period of up to 6 months will be spent in an approved University outside the UK. The precise programme of study will normally involve a project in a chemical science as well as attendance at appropriate other classes. The programme will vary considerably depending on the host University but will be largely related to the chemical sciences and will be agreed in advance with the Director of Studies. The academic level of the programme will be at a similar level to those taken by MChem students at Bath.


CHEY0084: Study period abroad (BSc - half year)

Academic Year

Credits: 30

Contact:

Level: Level 2

Assessment: OT100

Requisites:

Aims & learning objectives:
Students will gain experience of living and studying in a University outside the UK. They will have the opportunity to develop personal and linguistic skills in addition to developing their knowledge and understanding of chemistry and its applications. After studying this Unit, students should be able to:
* develop personal and interpersonal communication skills
* demonstrate the ability to work and interact effectively in a group environment in which cultural norms and ways of operating may be unfamiliar
* operate effectively with people from a different cultural background
* (where appropriate) improve their knowledge of the host language by attending classes therein and interacting with native speakers.
Content:
A period of up to 6 months will be spent at an approved University outside the UK. The precise programme of study will normally involve a short research project as well as attendance at appropriate other classes. The programme will vary considerably depending on the host University but will be agreed in advance with the Director of Studies.


EDUC0001: Exploring effective learning

Semester 1

Credits: 6

Contact:

Level: Level 1

Assessment: CW100

Requisites:

Aims & learning objectives:
This unit is intended for those students who wish to explore their own learning and to develop strategies for improving it. The unit reviews learning in lectures, tutorials, seminars etc and assessment as encountered by students in higher education. Starting from the students own approaches to learning it considers more effective ways based on experience and research.
Content:
The nature of learning; what is learnt (skills, knowledge, values etc.); learning styles; learning in groups; autonomy in learning; communication as part of the learning process; study skills; presentation skills; time management; assessment and being assessed. This is the recommended unit for those wishing to do one education unit in the year, outside their degree programme.


EDUC0002: Learning: Theory & context

Semester 2

Credits: 6

Contact:

Level: Level 1

Assessment: CW100

Requisites:

Aims & learning objectives:
This unit will consider more theoretical aspects of learning. It will consider theories of learning and their application in particular situations including schools, colleges, universities and lifelong learning. It will also explore the implications of new technologies for learning and the impact of visual literacy on learning.
Content:
Learning theories; information processing; experiential learning; metacognition; reflection; language and learning; memory. Contexts for learning: schools, further education, higher education, distance and open learning, the workplace, lifelong learning. It is advisable to have done EDUC0001 before this unit, but it is not a requirement. However, Natural Science students must have taken EDUC0001 in order to undertake this unit.


EDUC0115: Undergraduate certificate in education

Academic Year

Credits: 60

Contact:

Level: Level 3

Assessment:

Requisites:

Aims & learning objectives:
Students will complete the study associated with the Postgraduate Certificate in Education.
Content:
The content is identical to that taught on the Postgraduate Certificate in Education. Students must comply with the requirements for entry onto PGCE including a satisfactory interview before they may opt for the UGCE year. Please see the Director of Studies for further information. There is an expectation that students wishing to take the UGCE year would complete, at least, EDUC0005 in their second year.


MANG0028: Emerging patterns of thought belief & action

Semester 1

Credits: 5

Contact:

Level: Level 2

Assessment: CW60 ES40

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 2

Credits: 5

Contact:

Level: Level 3

Assessment: EX80 CW20

Requisites:

Students should already have taken MANG0005, or MANG0083 or MANG0070, or MANG0169. 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:

Level: Level 3

Assessment: EX60 ES40

Requisites:

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.


MANG0039: Employment law

Semester 1

Credits: 5

Contact:

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:

Level: Level 3

Assessment: EX50 ES50

Requisites:

Students should have taken MANG0006 or MANG0070, or ECOI0006 AND ECOI0007. IMML students must take MANG0059 in the next semester if they take this unit. 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.


MANG0044: Organisational change & design

Semester 1

Credits: 5

Contact:

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:

Level: Level 3

Assessment: EX60 CW40

Requisites:

Students should have taken MANG0029, or MANG0031, or MANG0070 or MANG0083. If the unit runs in semester 2, MSc students must have taken MANG0169. 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.


MANG0048: Strategic analysis

Semester 1

Credits: 5

Contact:

Level: Level 3

Assessment: EX60 ES40

Requisites:

Students must have taken MANG0034 or, MANG0070 or MANG0081 in order to study this unit. DBA students must choose MANG0065 as well, if they choose 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 declining sectors; managing ambiguity and complexity in the multi-firm (global) corporate environment. Case studies are used to explore and interpret issues.


MANG0050: Supply management

Semester 1

Credits: 5

Contact:

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:

Level: Level 3

Assessment: EX60 CW40

Requisites:

Students should have taken MANG0006 or MANG0070, or MANG0169. 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:

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:

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:

Level: Level 3

Assessment: EX60 CW40

Requisites:

Students should have taken MANG0029, or MANG0031, or MANG0070 or MANG0080, or MANG0169. 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:

Level: Level 3

Assessment: EX50 ES50

Requisites:

Students should have taken MANG0008 or MANG0070, or ECOI0006 AND ECOI0007. 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


MANG0058: Ecological thinking & action in management

Semester 2

Credits: 5

Contact:

Level: Level 3

Assessment: CW60 ES40

Requisites:

Students should have taken MANG0005 or MANG0070 or MANG0080, or MANG0169, or PSYC0052. 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:

Level: Level 3

Assessment: ES100

Requisites: Pre MANG0040

Pre: Economics students must have taken ECOI0006 AND ECOI0007. 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.


MANG0060: Europe & international business management

Semester 2

Credits: 5

Contact:

Level: Level 3

Assessment: EX60 CW40

Requisites: Ex MANG0085

Students should have taken MANG0006 or MANG0070, or MANG0169, or ECOI0006 AND ECOI0007. Aims & learning objectives:
To provide students with broad course addressing international business management considerations. Students should be able to;
* show an appreciation of the complexity of the international environment businesses have to operate in.
* understand the underlying patterns, motivations for and modes of international trade and investment.
* appreciate the role of national and supra-national organisations in the formation of international trade and investment policies.
Content:
The course will: introduce the subject of international business; outline its historical evolution to show how prevalent it has become today; consider the complexities of management in the international business environment; establish why firms engage in international trade investment; outline the use of policy instruments which encourage/ discourage trade and investment; outline the modes of entry available to firms. Examples of European organisations, institutions and policies will be used in teaching this unit.


MANG0062: International business law

Semester 2

Credits: 5

Contact:

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.


MANG0063: International marketing

Semester 2

Credits: 5

Contact:

Level: Level 3

Assessment: EX100

Requisites: Ex ESML0136, Ex ESML0139

Pre MANG0034 or MANG0070, or MANG0167 Aims & learning objectives:
1. To develop an understanding of the concepts of international marketing, and of the international environment in which companies operate. 2. To develop an understanding of international marketing management and the process of strategy development
Content:
International marketing is usually defined as marketing goods or services across international boundaries, but it usually also includes elements of comparative marketing, and of co-ordination of marketing activities in several markets simultaneously, i.e. multi-domestic marketing. The course includes aspects of the international marketing environment, market selection, market entry methods and channels, international product policy decisions, promotion decisions, and a special focus on exporting.


MANG0066: Strategic management

Semester 2

Credits: 5

Contact:

Level: Level 3

Assessment: EX60 ES40

Requisites: Pre MANG0048

Aims & learning objectives:
To provide an understanding of how strategy is developed and implemented within organisations, of the processes involved, and of the structure and control systems exercised by organisations in its implementation. To examine how the concepts of strategy formulation, implementation and organisation development interplay. Students are expected to contribute actively to class discussion through the preparation of case studies in order to develop their understanding of complex situations.
Content:
Processes of company diagnosis and strategic decision making/evaluation; formulation of value systems, mission statements and objectives; corporate strategy; business planning processes; linking strategic priorities and organisational change in differing competitive contexts.


MANG0067: Treasury management

Semester 2

Credits: 5

Contact:

Level: Level 3

Assessment: EX50 ES50

Requisites:

Pre MANG0008 or MANG0070, or MANG0170. 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 International and domestic aspects of cash management Sources of Return and risk Value at Risk Analysis Portfolio risk 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 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


MANG0070: Business economics

Semester 2

Credits: 5

Contact:

Level: Level 1

Assessment: EX60 CW40

Requisites:

Aims and Learning Objectives: To use the basic tools of economics to introduce students to the nature of the variety of competitive environments within which business firms have to operate. At the end of the unit students should be able to identify the cost and revenue curves of the firm, understand how the concept of elasticity is useful and identify the fundamental characteristics of the various forms of market structure. They should be able to apply their knowledge to the real world and make predictions about the likely outcome of various market interactions.


MANG0071: Organisational behaviour

Semester 1

Credits: 5

Contact:

Level: Level 1

Assessment: EX60 CW40

Requisites:

Aims & learning objectives:
To provide students with a critical look at management and organisations; to uncover issues and assumptions underlying the world of management and evaluate them. By the end of this module, students should be able to understand and critically evaluate a range of approaches to the study of management, organisations and people's behaviour.
Content:
Topics of study will be drawn from the following: The meaning of work; Scientific Management and Human Relations; The nature of managerial work; Weber and bureaucracy; Normality, emotions and feelings; Power, control and resistance; Organisational culture and control; Changes in work organisation; Theories of learning; Leadership; Motivation; Issues of diversity and difference, including gender and race.


MANG0072: Managing human resources

Semester 1

Credits: 5

Contact:

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:

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:

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:

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 .


MATH0103: Foundation mathematics 1

Semester 1

Credits: 6

Contact:

Level: Level 1

Assessment: EX50 CW50

Requisites: Co MATH0104

Aims & learning objectives:
Core 'A' level maths. The course follows closely the essential set book: L Bostock & S Chandler, Core Maths for A-Level, Stanley Thornes ISBN 0 7487 1779 X
Content:
Numbers: Integers, Rationals, Reals. Algebra: Straight lines, Quadratics, Functions, Binomial, Exponential Function. Trigonometry: Ratios for general angles, Sine and Cosine Rules, Compound angles. Calculus: Differentiation: Tangents, Normals, Rates of Change, Max/Min.


MATH0104: Foundation mathematics 2

Semester 2

Credits: 6

Contact:

Level: Level 1

Assessment: EX50 CW50

Requisites: Co MATH0103

Aims & learning objectives:
Core 'A' level maths. The course follows closely the essential set book: L Bostock & S Chandler, Core Maths for A-Level, Stanley Thornes ISBN 0 7487 1779 X
Content:
Integration: Areas, Volumes. Simple Standard Integrals. Statistics: Collecting data, Mean, Median, Modes, Standard Deviation.


XXXX0002: Any other unit(s) up to 6 credits, from around the University, subject to approval

Semester 1

Credits: 6

Contact:

Level: Level 1

Assessment:

Requisites:

This pseudo-unit indicates that you are allowed to choose other unit(s) 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.


XXXX0002: Any other unit(s) up to 6 credits, from around the University, subject to approval

Semester 2

Credits: 6

Contact:

Level: Level 1

Assessment:

Requisites:

This pseudo-unit indicates that you are allowed to choose other unit(s) 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.



Return to Chemistry Programme Catalogue | Programme/Unit Catalogue 2000/01

[University of Bath]