| 1 | Understanding the concepts and principles of physics (classical and modern) and related fields in general. |
| 2 | Solving physics problems using analytical and computational methods. |
| 3 | Modeling and predicting physical phenomena with physical models and mathematical models. |
| 4 | Understanding the basic principles of measurement, experiments, instrumentation, and electronics, including sensor technology, data acquisition, data processing, data validation, data analysis, and drawing conclusions. |
| 5 | Applying physics principles to various fields such as medical physics, geophysics, advanced materials, radiation physics, plasma physics, computational physics, electronics, and instrumentation. |
| 6 | Understanding appropriate research methods in physics for producing final projects, writing scientific papers, seminars, and national or international competitions. |
| 7 | Equipping with skills in Indonesian and English languages, entrepreneurship, computing (IT), experimental and field practices with excellent competence to work independently or in teams. |
