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BSc Physics with Nuclear Technology
About this course
Physics with nuclear technology combines a rigorous grounding in the fundamental science of matter and energy with a focused specialisation in the principles and applications of nuclear science. Physics at degree level addresses the behaviour of the universe at every scale, from elementary particles and quantum mechanics to thermodynamics, electromagnetism, optics, and the structure of materials. Nuclear technology applies the principles of nuclear and particle physics to practical contexts: the generation of electrical power, the production of medical isotopes, radiation detection and protection, and the management of nuclear materials. At Nottingham Trent University, this three-year, full-time programme develops your understanding of core physics alongside the specific knowledge of nuclear physics and reactor technology that the specialism requires. You will study classical and quantum mechanics, electromagnetism, thermodynamics, and wave physics as the foundation, before engaging with nuclear structure, radioactive decay, fission and fusion reactions, particle detection, and the engineering and safety principles of nuclear power generation. The nuclear technology thread gives the programme a distinctive vocational relevance: nuclear energy is central to the UK's energy strategy, and trained physicists with nuclear expertise are in consistent demand. A typical entry tariff of 104 UCAS points reflects the programme's accessibility to students with a solid scientific background who may not have the highest A-level tariffs. The degree develops strong quantitative skills, scientific reasoning, and the ability to apply physical principles to complex real-world systems. Laboratory work and computational methods form important parts of the training. Graduates work in the nuclear energy sector, radiation protection, medical physics, materials science, defence, and scientific research. Others enter roles in engineering, data analysis, and technology more broadly. Many pursue postgraduate study in physics, nuclear engineering, or related fields.
Syllabus & Modules
Typical curriculumStudent Satisfaction
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