SubjectsSubjects(version: 861)
Course, academic year 2019/2020
  
Plasma Physics - AP444003
Title: Plasma Physics
Guaranteed by: Department of Physics and Measurement (444)
Actual: from 2019
Semester: both
Points: 0
E-Credits: 0
Examination process:
Hours per week, examination: 3/0 other [hours/week]
Capacity: winter:unlimited / unknown (unknown)
summer:unknown / unknown (unknown)
Min. number of students: unlimited
Language: English
Teaching methods: full-time
Level:  
For type: doctoral
Note: course is intended for doctoral students only
can be fulfilled in the future
you can enroll for the course in winter and in summer semester
Guarantor: Scholtz Vladimír doc. Ing. Ph.D.
Khun Josef Ing. Ph.D.
Interchangeability : D444012, P444003
Annotation -
Last update: Pátková Vlasta (19.11.2018)
Subject presents the introduction to plasma physics, explains the movement of charged particles in homogenous stationarz fields and in nonhomogenous and nonstationar field. Also explains the elementar actions in plasma. Also provides an overview of technical applications and of possible applications in microbiology, food industry and medicine.
Aim of the course -
Last update: Pátková Vlasta (19.11.2018)

Students will be able to apply the physical principles to the objects in plasmatic state, explain the physical processes in plasma, and will know selected plasma applications.

Literature -
Last update: Pátková Vlasta (19.11.2018)

R: A. Fridman, L.A. Kennedy, Plasma Physics and Engineering, Taylor&Francis, New York, 2004

Learning resources - Czech
Last update: Pátková Vlasta (19.11.2018)

http://ufmt.vscht.cz/index.php/cs/elektronicke-pomucky/predmety-doktorskeho-studia/82-d444012-uvod-do-fyziky-plazmatu

Teaching methods -
Last update: Pátková Vlasta (19.11.2018)

Lectures and consultations.

Requirements to the exam -
Last update: Pátková Vlasta (19.11.2018)

none

Syllabus -
Last update: Pátková Vlasta (19.11.2018)

The subject is specifically dedicated to the following topics:

1. Definition and types of plasma.

2. Sources of plasma.

3. The composition and processes in plasma - Movement of chargedparticles in homogenou and stationary fields.

4. The composition and processes in plasma - Movement of chargedparticles in nonhomogenou fields.

5. The composition and processes in plasma - Movement of chargedparticles in nonstationary fields.

6. Plasma in Space and on te Earth.

7. Sources of thermal plasma and their applications.

8. Diagnostics of thermal plasma.

9. Sources of non-thermal plasma and their applications.

10. Diagnostics of non-thermal plasma.

11. Possible applications of non-thermal plasma in microbiology, food industry and medicine.

12. Modelling of termal plasma - magnetohydrodynamics.

13. Modelling of non-thermal plasma.

14. Selected numerical methods.

Entry requirements -
Last update: Pátková Vlasta (19.11.2018)

none

Registration requirements -
Last update: Pátková Vlasta (19.11.2018)

none

Course completion requirements -
Last update: Pátková Vlasta (19.11.2018)

oral exams

 
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