Code | Completion | Credits | Range | Language |
---|---|---|---|---|
17ABBFY2 | Z,ZK | 5 | 2P+1S+1L | English |
The course 17ABBFY2 can be graded only after the course 17ABBFY1 has been successfully completed.
The course 17ABBEM can be graded only after the course 17ABBFY2 has been successfully completed.
The course 17ABBLPZ1 can be graded only after the course 17ABBFY2 has been successfully completed.
The course 17ABBZS can be graded only after the course 17ABBFY2 has been successfully completed.
The course 17ABBLPZ2 can be graded only after the course 17ABBFY2 has been successfully completed.
In order to register for the course 17ABBFY3, the student must have successfully completed the course 17ABBFY2.
In order to register for the course 17ABBKZS, the student must have successfully completed the course 17ABBFY2.
The Physics II course introduces fundamentals and applications of electromagnetic fields. The covered topics include electromagnetic interaction, electric field, magnetic field, electromagnetic field, Maxwell's
equations, electromagnetic radiation, fundamentals of quantum physics, atomic nucleus and elementary particles, and interaction of radiation with matter.
1. Not more than 1 absence in computational exercise seminars.
2. 100 minutes written exam, which includes 5-6 theoretical questions.
Outline of lectures:
1. Physical interaction.
2. Electromagnetic interaction, electrical field, Coulomb law
3. Electrical potencial, energy, capacity.
4. Intensity of magnetical field, Lorentz´ force.
5. Magnetical induction, Biot-Savart-Laplace law
6. Energy of magnetical field,
7. Electromagnetical induction.
8. Oscillation, RLC circuit.
9. Waves,
10. Maxwells´ equations, Laplaces´ operator.
11. Shining of black object, laws.
12. Aplications of elektromagnetic spectrum
13. Model of atom, spectroscopy.
14. Nuclear radiation.
Students will acquire the fundamental theory of electricity and magnetism, electromagnetic field, incl. Maxwell's equations, as well as a number of practical applications of the studied phenomena.
[1] Halliday, D. et al.: Fundamentals of Physics. John
Wiley and Sons.
[2] Feynmanovy přednášky na California Institute of Technology: http://www.feynmanlectures.caltech.edu/
Příloha | Velikost |
---|---|
Lecture 1 | 2.37 MB |
Lecture 2 | 2.04 MB |
Lecture Magnetic field | 1.33 MB |
Seminar 1 | 505.19 KB |
Seminar 2 | 583.41 KB |
Lab Specific charge of electron | 363.51 KB |
Lab Biot Savart Law | 333.82 KB |
Lab Hall effect | 393.9 KB |
Lab Ionising radiation absorption and its behaviour in magnetic field | 370.25 KB |
Lab Faraday constant | 34.36 KB |
Labs support v.26032018 | 428.24 KB |
Seminar 3 | 651.98 KB |
Seminar 4 | 587.07 KB |
Lecture Magnetic field II | 96.11 KB |
Lecture Electric current | 282.21 KB |
Lecture Electric current II | 206.21 KB |
Final test questions - example | 420.5 KB |
Non-stationary magnetic field | 230 KB |
Alternating current I | 80.08 KB |
Alternating current II | 68.46 KB |