This class was created by Brainscape user Wiktor Kopczyński. Visit their profile to learn more about the creator.
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Decks in this class (25)
1. Possible products of two vectors - vector and scalar, definition and analytical formula. (4p.)
No deck description has yet been added by the author.
2
cards
2. Light waves, velocity of light in vacuum and transparent materials, Poynting vector (3p.)
No deck description has yet been added by the author.
3
cards
3. The three laws of geometrical optics (2p.)
No deck description has yet been added by the author.
4
cards
4. The Huygens principle - its application to: rectilinear propagation of light, reflection and refraction. (2p.)
No deck description has yet been added by the author.
1
cards
5. The Fermat’s principle - its application to reflection and refraction. (3p.)
No deck description has yet been added by the author.
3
cards
6. Propagation of light in nonhomogeneous media - explanation of mirages. (4p.)
No deck description has yet been added by the author.
2
cards
7. Intereference – explanation and formulas for constructive and destructive interference, interference in thin films, double slit interference. (4p.)
No deck description has yet been added by the author.
3
cards
8. Diffraction gratings - condition for diffraction fringes (derivation), dispersion of a grating and resolving power of a grating. (3p.)
No deck description has yet been added by the author.
5
cards
9. Bragg law – diffraction of X-rays on crystals, derivation of the formula (3p.)
No deck description has yet been added by the author.
2
cards
10. Holography - explanation of the principle of operation. (2p.)
No deck description has yet been added by the author.
1
cards
11. Polarization and circular polarization. Law of Malus. Polarization by reflection, Brewster’s angle. (5p.)
No deck description has yet been added by the author.
5
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12. Dual character of light - proofs of both wave and corpuscular nature of light. (4p.)
No deck description has yet been added by the author.
3
cards
13. Thermal radiation - Wien’s law, Stefan-Boltzmann law, plots with explanations. (4p
No deck description has yet been added by the author.
3
cards
14. Photoelectric effect - description of experiment and explanation using work function. (4p.)
No deck description has yet been added by the author.
3
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15. Wave behavior of particles - de Broglie hypothesis, experimental proofs. (4p.)
No deck description has yet been added by the author.
2
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16. Structure of hydrogen atom - Bohr model, Bohr postulates. Arguments for validity of the model, arguments for invalidity of the model. (5p.)
No deck description has yet been added by the author.
4
cards
17. Heisenberg’s uncertainty principle - both forms: position-momentum and time-energy explanation. (4p.)
No deck description has yet been added by the author.
1
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18. The Pauli exclusion principle - application to fermions (definition), the explanation of elements properties in the periodic table. (4p.)
No deck description has yet been added by the author.
3
cards
19. Bonds in solids – ionic, covalent, hydrogen and van der Waals (5p.)
No deck description has yet been added by the author.
4
cards
20. Electrical conduction of solids - band theory of solids, explanation of bands and band-gap. Difference between metals and semi-metals. Fermi level. (5p.)
No deck description has yet been added by the author.
3
cards
21. Semiconductors - explanation according to band theory of solids, band-gap value, doping - donors and acceptors, n-type and p-type semiconductors. Fermi level in semiconductors. (3p.)
No deck description has yet been added by the author.
3
cards
22. Radioactive decay law and carbon dating - half-life time. (4p.)
No deck description has yet been added by the author.
2
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23. Fission and fusion - when can they be exothermic? (4p.)
No deck description has yet been added by the author.
1
cards
24. Expansion of the Universe - Hubble’s law. What is cosmic microwave background radiation? (3p.)
No deck description has yet been added by the author.
2
cards
25. Michelson-Morley experiment. Einstein’s postulates of special relativity - explanation of their meaning. (3p.)
No deck description has yet been added by the author.
2
cards
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wyruchalbym starego fizyka
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