1. Applied nuclear physics
2. Defectoscopy and diagnostics
3. Optical diagnostics and optoelectronics
4. Special materials
5. Progress technologies of material disintegration
For each of branches there are planned two lectures in the total amount of four lessons' hours and four seminars in the total amount of eight lessons' hours. This set is completed by introducing and concluding lectures about role of the applied physics building the bridge between theoretical description of the reality and its application for solution of problems of technical practice. These lectures will be supplemented by seminars with examples from practice, solution of model problems, etc.
2. Defectoscopy and diagnostics
3. Optical diagnostics and optoelectronics
4. Special materials
5. Progress technologies of material disintegration
For each of branches there are planned two lectures in the total amount of four lessons' hours and four seminars in the total amount of eight lessons' hours. This set is completed by introducing and concluding lectures about role of the applied physics building the bridge between theoretical description of the reality and its application for solution of problems of technical practice. These lectures will be supplemented by seminars with examples from practice, solution of model problems, etc.