The Theoretical Physics course at the university covers a wide range of fundamental knowledge. This direction is ideal for those who have a special interest in mathematics and its application to solving non-standard problems, and pays great attention to the analysis of theoretical materials.

A student studying physics will have to take many courses to deepen his knowledge. These classes often include the study of applied physics, quantum theory, advanced mathematics and quantum mechanics. Thanks to the course work and research, the student can get not only theoretical knowledge, but also apply it in practice. After graduation, you will receive specialized knowledge about the theoretical structure of the main topics in physics. The program is perfect for students with a mathematical mindset.

Program features

For the first two years, you will follow a curriculum similar to standard courses. Students will delve into such key topics as electromagnetism, relativity and quantum physics. As a student studying in the theoretical direction, you will take an additional mathematical module instead of a physics module. This basic program will give you a good knowledge base in physics, mathematics and experimental methods, and will also prepare you for advanced research.

Thanks to a wide selection of theoretical elective modules in the last year of study, you will have more opportunities to immerse yourself in the specialization. You will be able to independently develop and conduct research in one of the university's research groups.

Many of the modules of the course are directly related to scientific projects, so you will be able to put your knowledge into practice, your research may be related to discoveries in different fields. Laboratory and computational work will become an integral part of the training. Practice is an important part of the physics curriculum: you will have access to state-of-the-art equipment, as well as data collected during large experiments.

Physics is a science that relies on data, so students need to understand how to analyze it. You will attend laboratory classes to master a wide range of skills, learn how to use equipment, conduct experiments, interpret the information received and analyze the results. You will gain a deep understanding of how to use computers as tools for modeling and understanding physics. This includes the use of computers to perform complex calculations and data analysis, as well as the use of programming languages.

Career

A physics degree is an excellent starting point for a career in research, as well as for a range of professions in business, finance, information technology and data analytics. Make the most of any opportunities to gain relevant work experience. This will help you acquire practical skills in addition to your academic studies. If you want to develop in the scientific field, then working as a part-time laboratory assistant will be a great start. Whatever career you are interested in, gaining relevant experience will help increase your chances of a successful career.

The best universities for studying theoretical physics: Massachusetts Institute of Technology, Oxford University (https://studyqa.com/uni/university-of-oxford), Stanford University, Cambridge University (https://studyqa.com/uni/university-of-cambridge).