

High Drop-out Rate Alert
16% of students drop out or transfer from this specific course. Consider asking why on an open day.
MSci Physics with Computing with Industrial Experience
About this course
Physics and computing have become increasingly intertwined disciplines. Modern physics relies on computational tools for modelling, simulation, and data analysis, while computing draws on the mathematical and theoretical frameworks that physics has developed. At the University of Bristol, the BSc Physics with Computing with Industrial Experience runs over four years of full-time study and includes a foundation year alongside an industrial experience year, giving you both the preparatory support you may need before entering the main degree and a substantial period of professional engagement before graduation. Bristol is a leading research university in physics, and the programme gives you access to a department with real scientific depth. The physics content takes you from classical mechanics, electromagnetism, and thermodynamics into quantum mechanics, statistical physics, condensed matter, and the physics of particles and the cosmos. The computing strand develops your programming skills and your ability to use computational tools for scientific modelling, simulation, and data analysis, which are essential capabilities in modern experimental and theoretical physics. These skills are valuable not just within physics but across the range of quantitative and scientific careers that physics graduates enter. The industrial experience year provides you with extended professional experience in a relevant setting, building practical competence and professional networks alongside your academic development. Physics graduates with computing skills are among the most versatile and employable in the STEM graduate pool. Technology companies, financial services, defence and intelligence, pharmaceutical and biomedical research, telecommunications, and scientific computing firms all recruit from this combination. The data analysis and modelling skills developed in the programme are specifically valuable in the growing field of data science, where physical scientists bring a rigour and precision that complements more software-oriented backgrounds. Many graduates go on to doctoral research in physics or related computational disciplines, while others move directly into quantitative roles in industry. The industrial experience year significantly strengthens graduate employment prospects and provides a bridge between academic study and professional practice.
Syllabus & Modules
Typical curriculumStudent Satisfaction
National Student Survey - 130 respondents (73% response rate)
Similarly Ranked Alternatives
What comes next? π
Choosing the right university starts with choosing the right school. Explore transparent, data-driven school profiles powered by official DfE statistics.
Explore Schools on WhatSchool.ai β

