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BSc Physics with Astrophysics
About this course
Physics with astrophysics is the study of the physical universe at its largest scales, using the same laws that govern everyday phenomena to understand objects and events from planetary systems and stellar evolution to galaxies and the structure of spacetime itself. Astrophysics provides some of the most extreme and illuminating contexts in which the principles of physics can be explored and tested, from the nuclear reactions at the heart of stars to the behaviour of matter in the intense gravitational fields near black holes. For students who want to engage with physics in its most expansive form, astrophysics offers both intellectual inspiration and rigorous scientific challenge. At the University of Bath, this three-year full-time degree develops a thorough grounding in physics, covering classical and quantum mechanics, electromagnetism, thermodynamics, relativity, and the mathematical methods that underpin them all, with astrophysical content woven throughout. In your final year you will complete a project worth significant credits, choosing from a wide range of experimental, theoretical, and computational options, many of which connect to current departmental research. Alternatives include an industry team project, where you investigate a real scientific problem posed by an industrial partner, or a communicating physics project, where you design and deliver public engagement activities based on the department's research. A range of final-year option modules allows you to shape the degree around your own interests and career direction. Physics with astrophysics graduates are highly sought after in both the scientific world and the broader economy. Within research, graduates pursue postgraduate study and academic careers in astrophysics, cosmology, gravitational wave astronomy, planetary science, and exoplanet research. The quantitative, analytical, and computational skills developed by a physics degree are valued across finance, technology, data science, engineering, government scientific services, and defence. Teaching, science communication, space industry roles, and work with observatories and space agencies are also common destinations. The degree provides a rigorous and adaptable foundation for any career requiring strong mathematical reasoning and the ability to model complex systems.
Syllabus & Modules
Typical curriculumStudent Satisfaction
National Student Survey - 10 respondents (71% response rate)
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