Experimental Laboratory 2
Code | Completion | Credits | Range | Language |
---|---|---|---|---|
02PRA2 | KZ | 6 | 0+4 | Czech |
- Garant předmětu:
- Lecturer:
- Tutor:
- Supervisor:
- Department of Physics
- Synopsis:
-
Lecture is intended especially for students who intend to study some of the physical specializations of FNSPE(branch Physical Engineering, Nuclear Engineering). But it can be also attended by students interested in the otherspecializations. In Experimental laboratory students learn how to prepare for experiments (including work with theliterature), the implementation of the measurement (acquire of different experimental procedures and routines), willteach writing the records of measurement, processing and evaluation of results. At the same time practically extendthe knowledge gained in lectures on physics.
- Requirements:
-
Knowledge of basic course of physics
- Syllabus of lectures:
- Syllabus of tutorials:
-
1. Capacity, electrostatic field.
2. Ferromagnetic hysteresis.
3. RLC circuits, driven and dumped oscillations.
4. Line spectra of Hg and Na spectral lamps using prism spectrometer.
5. Rtg spectrum of Mo anode.
6. Geometrical optics.
7. Microwaves.
8. Polarization of light.
9. Interference and diffraction of light.
10. Thermo-emission of electrons.
11. Specific electron charge, energy loss of alpha particles in gases.
12. Spectrum of gamma radiation.
- Study Objective:
-
Knowledge:
Advanced experimental and analytic methods and experimental procedures
Abilities:
Application of the mentioned methods on specific physical experiments, processing and evaluation of results
- Study materials:
-
Key references:
[1] J. H. Moore, M. A. Coplan, S. C. Greer, Building a scientific apparatus, Cambridge University Press 2009
[2] J. D. Wilson, C. A. Hernández-Hall, Physics Laboratory Experiments, Cengage Learning, 2014
Recommended references:
[3] J.R. Taylor, An Introduction to Error Analysis (2nd ed.), University Science Books, 1987
[4] C. Tilley and J. Nicholson: Practical Experiments in Physics, Blake Education, Leichhardt, 2002
Tools:
laboratory of the department of physics
- Note:
- Further information:
- No time-table has been prepared for this course
- The course is a part of the following study plans:
-
- BS Matematické inženýrství - Matematické modelování (elective course)
- BS Matematické inženýrství - Matematická fyzika (elective course)
- BS Matematické inženýrství - Aplikované matematicko-stochastické metody (elective course)
- BS Informatická fyzika (elective course)
- BS Aplikace softwarového inženýrství (elective course)
- BS Aplikovaná informatika (elective course)
- BS jaderné inženýrství B (elective course)
- BS Jaderné inženýrství C (elective course)
- BS Dozimetrie a aplikace ionizujícího záření (elective course)
- BS Experimentální jaderná a částicová fyzika (compulsory course of the specialization, elective course)
- BS Inženýrství pevných látek (elective course)
- BS Diagnostika materiálů (elective course)
- BS Fyzika a technika termojaderné fúze (compulsory course of the specialization, elective course)
- BS Fyzikální elektronika (elective course)
- BS Jaderná chemie (elective course)
- Fyzikální inženýrství - Počítačová fyzika (elective course)
- Fyzikální inženýrství - Fyzikální inženýrství materiálů (compulsory elective course)
- Fyzikální inženýrství - Fyzika plazmatu a termojaderné fúze (PS)
- Fyzikální inženýrství - Inženýrství pevných látek (elective course)
- Jaderná a částicová fyzika (compulsory course in the program)
- Jaderné inženýrství - Jaderné reaktory (elective course)
- Fyzikální inženýrství - Laserová technika a fotonika (PS)
- Matematické inženýrství - Matematická fyzika (elective course)
- Kvantové technologie (compulsory course in the program)
- Physical Engineering - Computational physics (elective course)
- Quantum Technologies (compulsory course in the program)
- Nuclear and Particle Physics (compulsory course in the program)