MChemPhys Chemical Physics
UCAS code: F333
Duration: 5 years
College: Science and Engineering
Introducing MChemPhys Chemical Physics
Chemical Physics is the keystone interdisciplinary subject that lies at the apex of two major fields of physical science. Its range and compass are broad, from the fundamental physics of individual atoms and molecules through to soft and hard condensed matter physics, dealing with a spectrum of matter from the molecules of life through to the latest technological materials.
A chemical physicist in the 21st century is armed with the tools to make significant contributions to a sustainable, secure and healthy future for the coming generations through the development of efficient renewable energy sources, smart materials and devices, and targeted medicinal therapies.
A chemical physics degree from Edinburgh provides the intellectual framework for understanding the properties of matter from fundamentals to the frontiers of current research. It also focuses strongly on the wide range of analytical and experimental skills necessary to practice the subject. It provides insight into research via a final-year research project working at the cutting edge of the subject.
This degree programme is accredited by both the Royal Society of Chemistry and the Institute of Physics.
The MChemPhys degree programme covers topics in all branches of the discipline from their fundamentals to the most advanced understanding and application. In the early years, there is a commitment to providing a solid foundation in the core subjects of chemistry, mathematics and physics.
The extra year of study (compared to the corresponding BSc degree) exposes the student to a wider range of advanced knowledge, with a greater emphasis on the methods, intellectual approaches and practical skills required to conduct original scientific research along with associated IT skills.
Greater leadership and organisational skills are fostered by extensive group-based learning and open-ended projects. In the final year, direct experience of research is engendered by an in-depth individual research project with a choice of location and context.
You will spend approximately a third of your first year in chemistry lectures, laboratory classes and small-group tutorials. For all students a mathematics course is also required. The remainder of your curriculum can be chosen from a broad range of courses from across the University.
You continue with your chemistry course, which again takes up about a third of your time. Additional courses such as Environmental Chemistry, Materials Chemistry, Chemical Pharmacology or courses in physics or mathematics may be required or recommended for your specific programme but most programmes still allow considerable choice of option subjects at this stage.
The range of option courses available over the first two years allows real flexibility to maintain options to transfer between different programmes within the College of Science & Engineering.
You will study compulsory chemistry courses that provide a foundation for the remaining honours years. If you are studying the Chemical Physics programme you will take a combination of chemistry and physics courses.
In the final year of your BSc, or the penultimate year of your MChem or MChemPhys, you will take compulsory courses from your programme and will choose from a range of other advanced chemistry courses. Students on the BSc programmes will have the choice between a final year research project or a science education placement with a local school, the latter providing ideal preparation for future study towards a teaching qualification.
You will undertake a full-year research project. You will have the choice between remaining in Edinburgh to work on projects supervised by a staff member in Chemistry or Physics, or seeking to secure a place to undertake your project while on placement in industry, a government research institute, or in the chemistry department of one of our exchange partner universities around the world.
Find out more about the compulsory and optional courses in this degree programme.
To give you an idea of what you will study on this programme, we publish the latest available information. However, please note this may not be for your year of entry, but for a different academic year.
In modern teaching and research laboratories. In first year your lectures take place in the Central Area and thereafter all teaching and laboratory work is at the University's King's Buildings campus.
A year-long placement in industry can be included as part of our MChemPhys programme.
These placements will form the final year of your programme and be largely comprised of research project work.
Those students who do not undertake one of these options will complete a final year research project in Edinburgh occupying the full year.
Industrial placements may be located in the UK or overseas and include companies such as Unilever, Akzo Nobel and Procter and Gamble, and research institutes such as the Los Alamos National Laboratory and Rutherford Appleton Laboratory.
Each year a very high proportion of MChemPhys students undertake one of these Industrial or Year Abroad placements.
A year-long placement with one of our partner chemistry departments at a range of universities overseas can be included as part of our MChemPhys programme.
These placements will form the final year of your programme and be largely comprised of research project work. Year Abroad locations include USA, Singapore, Hong Kong, Taiwan, South Korea, Australia, Russia and many European countries.
How will I learn?
You will be taught through a combination of lectures, laboratory classes, workshops and small-group tutorials.
In your first two years you will undertake 20 hours per week of timetabled study. Normally an additional 15 to 20 hours is dedicated to preparing for tutorials, writing lab reports or private study. Later years include more practical learning and research project work.
Acquisition of knowledge and understanding is achieved mainly through lectures, laboratory classes, tutorials/workshops and project work. Lectures are assessed via formal 'unseen' examinations.
In all courses understanding is reinforced by small group tutorials and/or by problem solving workshops.
Written communication, report writing and IT skills are developed via laboratory reports, posters, essays and project reports.
Oral presentation skills are acquired via formal presentations.
Practical skills and an awareness of the safety aspects of laboratory work and risk-assessment are developed progressively over the first four years of the course and through a substantial research project in the final year conducted either in an academic or industrial context.
How will I be assessed?
You will be assessed through a combination of coursework, reports on laboratory practicals, presentations, exams and performance and reporting on your final year research project.
Find out more about this programme's aims, what you will learn, how you will be assessed and what skills and knowledge you will develop.
To give you an idea of what to expect from this programme, we publish the latest available information. However, please note this may not be for your year of entry, but for a different academic year.
Chemical physics graduates find careers in petrochemical, pharmaceutical and nuclear industries, and in other key technology sectors; they also utilise their acute numerical, problem-solving and analytical skills in sectors such as IT, finance, marketing, or advertising.
All our programmes include training, practice, and feedback in communication skills, team working, and exposure to the latest technology of scientific information retrieval and organisation.
A high proportion of our graduates progress to a higher degree, typically a PhD.
The typical offer is likely to be:
- SQA Highers: AAAA.
- A Levels: AAA.
- IB: 37 points with 666 at HL.
Minimum entry requirements
- SQA Highers: AABB by end of S5 or AABBB/AAAB from S4-S6, with a minimum of BBB achieved in one year of S4-S6, to include Mathematics at Grade A, Physics and Chemistry (preferably at Grade A).
- A Levels: ABB in one sitting, in Chemistry, Mathematics and Physics.
- IB: 32 points overall and award of IB Diploma with 555 at HL to include Chemistry, Mathematics and Physics.
We welcome applications from students studying a wide range of international qualifications.
We welcome applications from mature students and accept a range of qualifications.
Academic Technology Approval Scheme
If you are not an EU, EEA or Swiss national, you may need an Academic Technology Approval Scheme clearance certificate in order to study this programme.
For direct entry to second year the minimum requirements must be exceeded, including the following:
- SQA Advanced Highers: AAA in Chemistry, Mathematics and Physics.
- A Levels: A*AA in one sitting, in Chemistry, Mathematics and Physics.
- IB: 38 points overall and award of IB Diploma with 666 at HL to include Chemistry, Mathematics and Physics.
Other entry pathways
Entry to many degrees in Science & Engineering is possible via other qualifications (eg HNC/D, Access, SWAP).
You must provide evidence that your written and spoken English is at a level that will enable you to succeed in your studies.
English language tests
If English is not your first language, you must have one of the following qualifications as evidence of your spoken and written English:
- IELTS Academic module overall 6.5 with 5.5 in each component
- TOEFL iBT 92 or above with 20 in each section
- Cambridge English: Advanced or Proficiency overall 176 with 162 in each component
- Pearson Test of English (Academic): Total 61 with at least 51 in each ""Communicative Skills"" section
- Trinity ISE: ISE II with a distinction in all four components
SQA and GCSE
For SQA and GCSE students, unless a higher level is specified in the stated entry requirements, a pass is required in English at the following grades or higher:
- SQA National 5 Grade C
- SQA Standard Grade 3
- SQA Intermediate 1 Grade A
- SQA Intermediate 2 Grade C
- GCSE Grade C or 4
- IB Standard Level Grade 5
This information is part of a government initiative to enhance the material that higher education institutions provide about their degree programmes.
It is one of many sources of information which will enable you to make an informed decision on what and where to study.
Please note that some programmes do not have Unistats data available.
You will require a white lab coat, which cost £10 in 2016. You must also purchase three core text books in Year 1, which cost £120 in 2016.
For more information on how much it will cost to study with us and the financial support available see our fees and funding information.