| Course title | Plasma Physics |
|---|---|
| Course code | UFY/FP |
| Organizational form of instruction | Lecture |
| Level of course | Bachelor |
| Year of study | not specified |
| Frequency of the course | In each academic year, in the summer semester. |
| Semester | Summer |
| Number of ECTS credits | 3 |
| Language of instruction | Czech, English |
| Status of course | Compulsory, Compulsory-optional, Optional |
| Form of instruction | Face-to-face |
| Work placements | This is not an internship |
| Recommended optional programme components | None |
| Lecturer(s) |
|---|
|
| Course content |
|
1. Introduction to plasma physics 2. Kinetic theory of gases 3. Atom structure, ionisation 4. Introduction to physical chemistry 5. Collision process in plasma bulk 6. Plasma and its categories 7. Low-temperature plasma 1 8. Low-temperature plasma 2 9. Sources of laboratory plasma 10. Kinetic description of low-temperature plasma - Boltzman eq. 11. High-temperature plasma 12. Plasma application potential
|
| Learning activities and teaching methods |
Monologic (reading, lecture, briefing), Laboratory, Practical training
|
| Learning outcomes |
|
The course aims on the introduction to plasma physics and ionized media; definition of plasma, processes in plasma bulk (ionization, dissociation, collisions), plasma radiation, low-temperature and high-temperature plasma, plasma sources, application in technology. The aim is to broad the general knowledge and to demonstrate the possible scientific orientation following the current trends in the scientific and application areas.
Students will get basic knowledge of plasma and ionized media. He / she will be able to solve simple practical problems and numerical examples. Studentd will be theoretically prepared for another related subjects (vacuum physics, plasma technology, plasma in biomedicine). |
| Prerequisites |
|
basic knowledge of mathematics, general physics and electricity and magnetism
UFY/FYZ2 |
| Assessment methods and criteria |
|
Oral examination, Test
Understanding of the topic within the frame given by the plan. Assesment methods and criteria linked to learning outcomes: exam: passing the test min 75%, proof of knowledge at the oral exam min 75%. |
| Recommended literature |
|
| Study plans that include the course |
| Faculty | Study plan (Version) | Category of Branch/Specialization | Recommended semester | |
|---|---|---|---|---|
| Faculty: Faculty of Science | Study plan (Version): Measuring and Computer Technology (1) | Category: Electrical engineering, telecommunication and IT | - | Recommended year of study:-, Recommended semester: Summer |
| Faculty: Faculty of Science | Study plan (Version): Biophysics (1) | Category: Physics courses | - | Recommended year of study:-, Recommended semester: Summer |
| Faculty: Faculty of Science | Study plan (Version): Secondary Schools Teacher Training in Physics (2012) | Category: Pedagogy, teacher training and social care | - | Recommended year of study:-, Recommended semester: Summer |
| Faculty: Faculty of Science | Study plan (Version): Biophysics (1) | Category: Physics courses | - | Recommended year of study:-, Recommended semester: Summer |
| Faculty: Faculty of Science | Study plan (Version): Physics for future teachers (1) | Category: Physics courses | - | Recommended year of study:-, Recommended semester: Summer |
| Faculty: Faculty of Science | Study plan (Version): Physics (1) | Category: Physics courses | 2 | Recommended year of study:2, Recommended semester: Summer |
| Faculty: Faculty of Science | Study plan (Version): Biophysics (1) | Category: Physics courses | - | Recommended year of study:-, Recommended semester: Summer |
| Faculty: Faculty of Science | Study plan (Version): Biophysics (1) | Category: Physics courses | - | Recommended year of study:-, Recommended semester: Summer |