Applied Physics is introduced as follows:
Applied Physics is a comprehensive discipline that combines the basic theories of physics and experimental techniques, with the primary goal of solving practical problems.
The Applied Physics program prepares students with basic knowledge of physics and experimental skills, and enables them to apply the principles and methods of physics to the fields of engineering and technology, materials science, energy development, and medical imaging, thereby promoting technological innovation and practical applications.
Courses in the applied physics program typically cover core physics knowledge such as classical mechanics, electromagnetism, optics, thermodynamics, quantum mechanics, and materials science. Students also learn practical skills such as experimental techniques, data analysis and computational methods to be able to perform physics experiments and data processing.
In the Applied Physics program, students will learn how to apply their knowledge of physics to solve real-world problems, such as developing novel materials, designing and optimizing electronic devices, investigating optical imaging techniques, and conducting energy research. They will master the basic principles of physics and experimental techniques, but will also need to be able to work across disciplines and solve real-world problems.
Career Opportunities in Applied Physics:
1, Scientific Research Institutions
Graduates can be engaged in physics-related scientific research in universities, research institutes, laboratories and other scientific research institutions, participate in scientific research projects, carry out experiments and data analysis, and promote the development of the discipline and innovation.
2. Engineering and Technology Fields
Graduates can enter the field of engineering and technology, and participate in the application of the principles of physics and technology development. For example, designing and optimizing electronic devices, optical instruments, sensors, etc., engineering design, testing and manufacturing.
3. Energy Industry
Graduates can engage in research and development in the energy industry, including research on new energy technologies, energy storage and conversion, and energy efficiency, contributing to innovation and sustainable development in the energy sector.
4, medical imaging and medical equipment
Graduates can work in medical equipment companies, hospitals and other organizations engaged in the research and development, production and maintenance of medical imaging equipment, to participate in the research and application of medical imaging technology.