120 physics
typical requirements SQA Higher:
GCE A-Level: ILC Higher: IB Diploma:
Essential subjects: why study at dundee?
AAAB ABB
AAAB 32 points with 6, 5, 5 at HL
Mathematics and a science or engineering subject (H, A-L, ILC H, HL). Physics for MSci.
SQA Advanced Higher: AB + AB (H) in different subjects GCE A-Level: IB Diploma:
advanced entry (to Level 2) AAB
34 points with 6, 6, 5 at HL Essential subjects:
Mathematics and physics (AH, A-L, HL).
other qualifications
Please see ‘Engineering, Physics and Mathematics’ on page 140 for details.
degree programmes (with UCAS Codes) MSci Physics
BSc Physics BSc Physics and Mathematics
BSc Physics and Renewable Energy Science MSci Physics and Renewable Energy Science
See also degrees in: Electronic Engineering and Physics (page 86)
See making your application on page 32.
professional accreditation Our degrees are accredited by the Institute of Physics.
what’s so good about physics at dundee?
Our degree programmes offer considerable flexibility depending on your interests and career plans.
what is the best thing about your course? The physics department, which works closely with electronic engineering and renewable energy, is relatively small, but therefore very concentrated. This means that there are plenty of excellent and empathetic staff members available to students, and so you feel welcomed, unique, appreciated, and important from the first day of first year until graduation comes around.
David Bajek, graduated in 2011 with BSc (Hons) Physics
www.dundee.ac.uk/prospectus/physics
F303 F300 FG31 FH32 FH3F
Physics, the most fundamental of all sciences, involves the exploration of nature in the broadest possible sense. Physicists study the behaviour and properties of matter and energy in a huge variety of contexts, ranging from the sub-nuclear scale (particle physics) to the behaviour of the material Universe as a whole (cosmology). The goal is to uncover the fundamental truths about nature and where possible, to exploit that basic knowledge for the benefit of mankind.
Physics has been studied at Dundee since the 1880s and research undertaken here has had a tremendous impact on the modern world.
• The electronic devices driving pixels in virtually all laptop computers were first conceived and made here.
• Ground-breaking work on satellite-borne environmental monitoring was also initiated here, as well as seminal investigations into molecular structures using x-ray analysis.
Our current staff are working in some of the most exciting areas of cutting-edge physics. Many such areas are also those earmarked by the government as the critical scientific topics for the future: renewable energy and the environment; robust sensors; and physics applied to medicine and biology. We explore the properties of solar cells, develop new compact laser sources, study how lasers can be used to modify and control the properties of metals and semiconductors, and trap individual aerosol droplets to see how their behaviour impacts on the environment around us. One of our main research investment areas is in exploring the boundaries of biophysics and laser science, especially in medical contexts where the University of Dundee as a whole boasts a world renowned reputation. Biophysics research is undertaken at state-of-the-art facilities within the University’s Institute for Medical Science and Technology and also at Ninewells Hospital. Your final year project could be developing optical techniques to examine cancerous tissue excised from hospital patients – using physics to make a real difference to people’s lives. Or you might choose to investigate the behaviour of positrons in solar cell materials with the aim of identifying missing atom defects that degrade performance.
One unique aspect of life as a physics undergraduate at Dundee is the facility to not only undertake a major research project in Honours, but to become directly involved with the active research groups in Level 1: a fast-track route to applying the knowledge and skills that we will teach you.
employability
The prospects for physics graduates are excellent. As one of our graduates, the analytical and problem solving skills that you will have gained, together with practical abilities on state-of-the-art instrumentation, will allow entry to a diverse spectrum of job possibilities. Many of our graduates now work for technology companies involved in the design and manufacture of electronic and optical devices.
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