Programme title: MChem Chemistry (Mathematical and Computational Chemistry)

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Faculty of Life Sciences Programme Specification Programme title: MChem Chemistry (Mathematical and Computational Chemistry) Academic Year: 2018/19 Degree Awarding Body: Final and interim award(s): University of Bradford MChem (FHEQ) level 7] BSc (Honours) Chemistry (FHEQ) level 6] BSc Chemistry (FHEQ) level 6] Diploma of Higher Education (FHEQ) level 5] Certificate of Higher Education (FHEQ) level 4] Programme accredited by: Subject to The Royal Society of Chemistry 1 Programme duration: UCAS code: QAA Subject benchmark statement(s): Date of Senate Approval: Date last confirmed and/or minor modification approved by Faculty Board 4 Years Full Time Chemistry (2015) October 2017 Introduction The Chemistry programmes at the University of Bradford are designed around the university s key mission statement Making Knowledge Work. Our degrees will give students a solid background in the chemical sciences, but then allow students to focus on the application of chemistry in specific areas of modern chemistry. These areas have been chosen to reflect the main employment destinations for 21 st 1 Students can apply for membership of the Royal Society of Chemistry (RSC) Route Code: CFS4IFL-D018 University of Bradford 1

century chemistry graduates: Materials Chemistry, Analytical Chemistry, Medicinal Chemistry and Computational Chemistry. The Mathematical and Computational chemistry degree programme has been structured to give the students an integrated experience between the core chemistry and computational aspects of the work. During the first two years, students will develop a sound understanding of theoretical and practical aspects of chemistry with core content delivered in the traditional inorganic, organic and physical chemistry areas. At the same time their mathematical and computational skills will be developed through specialised modules in these topics. The third year will introduce students to specialist content in medicinal, materials and analytical chemistry, whilst the computational chemistry content will investigate the applicability of methods covered in first and second year to current research topics and industrial applications. Students will also have the opportunity to study a specific subject to a greater depth during an extended dissertation. It is possible to exit after stage 3 with a BSc (Honours) in Chemistry. In the Masters year, students will specialise in computational chemistry. The advanced study in the chosen area will allow students to develop a deeper understanding of the application of chemistry to solving real-world problems. Masters-level training focuses on deploying training in real-world settings. Academic research experience involves working on students own project as part of a research team alongside post-graduate and post-doctoral researchers at the University. As a Bradford Chemistry graduate, students will be uniquely placed to deploy the skills that have developed across the programmes to Make Knowledge Work. Programme Aims The programme is intended to: develop an enthusiasm for chemistry and an appreciation of its application in different contexts provide opportunities for students to develop a systematic knowledge and understanding of the core principles of chemistry develop computational and mathematical skills required to solve problems within chemical sciences. enable students to develop a core range of chemistry-related practical skills develop students ability to think critically and creatively develop collaborative and group working skills develop awareness of sustainability in the context of the chemical sciences equip students with subject and key skills necessary to facilitate transition to employment in both chemical and non-chemical employment or further study extend students comprehension of key chemical concepts and provide an in-depth understanding of applied areas of chemistry provide a supportive educational environment, which meets the needs of students from a variety of backgrounds enable students to become autonomous learners and prepare students for the lifelong learning skills required to be adaptable over the course of their career enable students to develop the ability to carry out experiments independently and assess the significance of their outcome develop the ability to adapt and apply methodology to the solution of unfamiliar problems instil a critical awareness of advances at the forefront of the chemical sciences Route Code: CFS4IFL-D018 University of Bradford 2

Programme Learning Outcomes To be eligible for the award of Certificate of Higher Education at FHEQ level 4, students will be able to: LO1 LO2 LO3 LO4 LO5 LO6 LO7 Describe the physical world using the language of chemistry. Describe chemical reactions in terms of the change in structure of organic and inorganic compounds and materials, and in the change of measurable physical attributes of these. Accurately and reliably communicate the results of practical experiments in sufficient detail to allow the experiment to be reproduced from their description alone. Locate the information required to handle potentially hazardous material with due reference to COSHH protocols and regulations, and risk assessment procedures. Work collaboratively to analyse a given problem, and to prepare an oral presentation. Quantify the environmental impact of experiments using Green Chemistry metrics. Develop and demonstrate computational development skills to solve numerical chemical problems. Additionally, to be eligible for the award of Diploma of Higher Education at FHEQ level 5, students will be able to: LO8 LO9 Interpret the structure and reactivity of organic and inorganic molecules and compounds by considering appropriate bonding models. Discuss the way in which organic and inorganic compounds react at a molecular level with emphasis on mechanistic tools of interpretation. LO10 Explain and apply computational models to describe molecular structure and bonding. LO11 Explain physical processes, both in terms of classical thermodynamics and in terms of the quantisation of energy. LO12 Interpret results of computational experiments, commenting specifically on the significance of the data produced. LO13 Interpret the results of practical experiments, commenting specifically on the significance of the associated data produced. LO14 Use appropriate technology and media to effectively communicate scientific ideas to their peers. LO15 Evaluate their skill sets against subject-specific requirements and identify areas for professional and personal development. LO16 Establish a collaborative approach to tackling chemical problems. Route Code: CFS4IFL-D018 University of Bradford 3

Additionally, to be eligible for the award of Ordinary Degree of Bachelor at FHEQ level 6, students will be able to: LO17 Accurately apply the range of theories contained within computational, organic, physical and inorganic chemistry to interdisciplinary areas of the chemical sciences. Additionally, to be eligible for the award of Honours Degree of Bachelor at FHEQ level 6, students will be able to: LO18 LO19 LO20 LO21 LO22 LO23 Solve scientific problems by effectively consulting the primary scientific literature and utilising specialist software. Work independently to critically appraise an area of current research within computational chemistry. Use mechanistic concepts to rationalise and discuss the outcome of complex reactions. Justify the application of suitable computational methods to solve problems of chemical structure, bonding and reactivity with reference to theoretical and computational factors. Describe the commercial implications of computational chemistry. Articulate complex scientific arguments in an interview setting. Additionally, to be eligible for the award of Master s Degree at FHEQ level 7, students will be able to: LO24 LO25 LO26 LO27 LO28 Structure a research project to answer a question at the forefront of the computational chemical sciences. Design and implement experiments with due consideration of health and safety protocols in a professional environment. Critically evaluate recent developments in international computational chemistry in the light of the underlying science. Plan and organise themselves independently, so as to make effective use of their time during the implementation of a significant research project. Present the conclusions of their research in a professional and scientifically rigorous manner to their peers, and specialist and nonspecialist audiences. Route Code: CFS4IFL-D018 University of Bradford 4

Curriculum Stage 1 FHEQ Level Module Title Type (Core/ Option) Credits Semester(s) Module Code 4 Organic Chemistry 1 Core 20 1 + 2 CFS4023-B 4 Physical Chemistry 1 Core 20 1 + 2 CFS4024-B 4 Inorganic Chemistry 1 Core 20 1 + 2 CFS4022-B 4 Practical Chemistry 1 for Computational Chemistry 5 Further Engineering Mathematics and Statistics Core 40 1 + 2 CFS4027-D Core 20 1 + 2 ENM5005-B At the end of stage 1, students will be eligible to exit with the award of Certificate of Higher Education if they have successfully completed at least 120 credits and achieved the award learning outcomes. Stage 2 FHEQ Level Module Title Type (Core/ Option) Credits Semester(s) Module Code 5 Organic Chemistry 2 Core 20 1 + 2 CFS5017-B 5 Physical Chemistry 2 Core 20 1 + 2 CFS5018-B 5 Inorganic Chemistry 2 Core 20 1 + 2 CFS5016-B 5 Practical Chemistry 2 Core 40 1 + 2 CFS5019-D 5 Computational Chemistry Core 20 1 + 2 CFS5020-B At the end of stage 2, students will be eligible to exit with the award of Diploma of Higher Education if they have successfully completed at least 240 credits and achieved the award learning outcomes. Stage 3 FHEQ Level Module Title Type (Core/ Option) Credits Semester(s) Module Code 6 Organic Chemistry 3 Core 20 2 CFS6017-B 6 Introduction to Polymer and Colloid Science 6 Bio-organic and Bioinorganic Chemistry Core 20 1 CFS6015-B Core 20 1 CFS6014-B 6 Molecular Analysis Core 20 2 CFS6016-B 6 Computational Chemistry Skills and Independent Research Core 40 1 + 2 CFS6023-D Route Code: CFS4IFL-D018 University of Bradford 5

Students will be eligible to exit with the award of Ordinary Degree of Bachelor if they have successfully completed at least 300 credits and achieved the award learning outcomes. Students will be eligible for the award of Honours Degree of Bachelor if they have successfully completed at least 360 credits and achieved the award learning outcomes. Stage 4 FHEQ Level Module Title 7 Advanced Computational Chemistry Type (Core/ Option) Credits Semester(s) Module Code Core 20 1 CFS7031-B 7 Scientific Computation Option 20 1 CFS7032-B 7 Modelling Reactivity and Spectroscopy Option 20 1 CFS7033-B 7 Solid State Modelling Option 20 2 CFS7034-B 7 Computational Biophysics and Structural Biology Option 20 2 CFS7035-B 7 Stage Four Research Project Core 60 1 + 2 CFS7003-E Students will be eligible for the award of MChem if they have successfully completed at least 480 credits and achieved the award learning outcomes. Placement and/or Study Abroad This programme does not provide the option for students to undertake a work placement or period of study abroad as part of their Masters Year. Students wishing to take this option will be transferred to the 4 year MChem Chemistry (Industrial Experience) programme. For further information about study abroad opportunities please refer to http://www.bradford.ac.uk/international/erasmus-and-international-exchanges/ For further information about placement opportunities please refer to http://www.bradford.ac.uk/life-sciences/chemistry-and-forensicsciences/careers/research-placements/ Learning and Teaching Strategy The programme articulates with the Teaching and Learning strategies of the University. Students will be exposed to a variety of teaching methods designed to develop the learning outcomes and to cater for different preferences for learning. A wide variety of teaching methods appropriate to the learning outcomes of the individual modules is employed throughout the programme. These methods progressively focus on student-centred approaches to learning. Thus, students will be expected to take responsibility for their learning as they progress through the programme. In this way, students will develop the attributes needed for life-long learning and continuing professional development. Route Code: CFS4IFL-D018 University of Bradford 6

Learning outcomes 1-17, 20, 21 and 26 will be developed in a number of modules, through a mix of lectures, seminars, laboratory practicals, computational workshops, case studies and directed study. Directed study will include directed reading of selected textbooks, specified source literature and open learning materials, directed Web-based materials, report writing and other assignments. In addition individual project/dissertation work will further help to develop learning outcomes 18, 19, 22-28. Assessment Strategy Students will demonstrate their achievement via written closed-book examinations using constructed (essays, short answers) and selected response (MCQ) questions and a variety of coursework assignments, including laboratory reports, oral presentations and dissertations. The development of learning outcomes 3, 4, 13, 16, 22, 23, 24 and 26 will be through involvement in laboratory, small-group workshops, case-based work and projects (individual and small group). They will be assessed by critical appraisal, case analysis and critique, case presentations, laboratory reports and dissertations Assessment Regulations This Programme conforms to the standard University Assessment Regulations which are available at the link below http://www.bradford.ac.uk/aqpo/ordinances-and-regulations/ However, there are four exceptions to these regulations as listed below: 1. Students who, at initial attempt, do not achieve a module mark of 35.0% or more for Practical Chemistry 1 for Computational Chemistry (stage 1 students) or Practical Chemistry 2 (stage 2 students) will forfeit the right to supplementary assessment and will be required to repeat the modules with attendance. 2. In order for students to progress from Stage 2 to 3 of the programme of the Integrated Degree of Master, students must have an average mark of 55.0% at the first attempt across all 120 credits studied in Stage 2. Students who do not achieve this will be required to transfer to the BSc (Hons) Chemistry Programme. 3. In order to progress between Stage 3 and 4 of the programme of the Integrated Degree of Master, students must have completed 120 credits at stage 3 with a mark of 40.0% or more in each module. Compensation is not permitted. 4. The MChem award is calculated based on the marks accrued in stages 2, 3 and 4 of the programme in the following weightings: Stage 2: 10%, Stage 3: 40%, Stage 4: 50%. The fall-back award of BSc (Hons) will be calculated according to the standard university regulations: Stage 2: 20% and stage 3: 80%. Admission Requirements The University welcomes applications from all potential students and most important in the decision to offer a place is our assessment of a candidate s potential to benefit from their studies and of their ability to succeed on this particular programme. Consideration of applications will be based on a combination of formal academic qualifications and other relevant experience. The minimum entry requirements for the programme are as follows: Route Code: CFS4IFL-D018 University of Bradford 7

A typical offer to someone seeking entry through the UCAS scheme would be 112 UCAS points (equivalent to BBC) with at least 80 points in Chemistry and Mathematics (old tariff: 280 points with at least 200 points in Chemistry and Mathematics). GCSE passes should include: English, Mathematics and a Science at grade C or 4. English language requirements: Minimum IELTS at 6.0, with no subtest less than 5.0, or the equivalent. The UCAS tariff applicable may vary and is published here www.brad.ac.uk/chemistry Applications are welcome from students with non-standard qualifications or mature students (those over 21 years of age on entry) with significant relevant experience. On completion of a UCAS form students will be invited to the School for an Open Day when they will have the opportunity to meet staff, view the facilities and discuss the Bradford experience with current students. Recognition of Prior Learning If applicants have prior certificated learning or professional experience which may be equivalent to parts of this programme, the University has procedures to evaluate and recognise this learning in order to provide applicants with exemptions from specified modules or parts of the programme. Minor Modification Schedule Version Number 1 Brief description of Modification Date of Approval (Faculty Board) Route Code: CFS4IFL-D018 University of Bradford 8

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