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Quantenmechanik: warum??

Mod. Phys. SSS1. Bern University of Applied Sciences Engineering and Information Technology. Quantenmechanik: warum??. Mécanique quantique: pourquoi??. 1. black body radiation. Mod. Phys. SSS1. Bern University of Applied Sciences Engineering and Information Technology.

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Quantenmechanik: warum??

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  1. Mod. Phys. SSS1 Bern University of Applied Sciences Engineering and Information Technology Quantenmechanik: warum?? Mécanique quantique: pourquoi?? 1. black body radiation

  2. Mod. Phys. SSS1 Bern University of Applied Sciences Engineering and Information Technology 2. photoelectric effect

  3. Mod. Phys. SSS1 Bern University of Applied Sciences Engineering and Information Technology 3. Compton effect

  4. Mod. Phys. SSS1 Bern University of Applied Sciences Engineering and Information Technology 4. Interference of particles

  5. Mod. Phys. SSS1 Bern University of Applied Sciences Engineering and Information Technology

  6. Mod. Phys. SSS1 Bern University of Applied Sciences Engineering and Information Technology

  7. Mod. Phys. SSS1 Bern University of Applied Sciences Engineering and Information Technology

  8. Mod. Phys. SSS1 Bern University of Applied Sciences Engineering and Information Technology

  9. Mod. Phys. SSS1 Bern University of Applied Sciences Engineering and Information Technology

  10. Mod. Phys. SSS1 Bern University of Applied Sciences Engineering and Information Technology

  11. Mod. Phys. SSS1 Bern University of Applied Sciences Engineering and Information Technology

  12. Mod. Phys. SSS1 Bern University of Applied Sciences Engineering and Information Technology

  13. Mod. Phys. SSS1 Bern University of Applied Sciences Engineering and Information Technology

  14. Mod. Phys. SSS1 Bern University of Applied Sciences Engineering and Information Technology

  15. Mod. Phys. SSS1 Bern University of Applied Sciences Engineering and Information Technology

  16. Mod. Phys. SSS1 Bern University of Applied Sciences Engineering and Information Technology

  17. Mod. Phys. SSS1 Bern University of Applied Sciences Engineering and Information Technology Tunnel effect

  18. Mod. Phys. SSS1 Bern University of Applied Sciences Engineering and Information Technology MASER NH3 probability de transi-tion par tunnel

  19. Mod. Phys. SSS1 Bern University of Applied Sciences Engineering and Information Technology tunnel diode

  20. Mod. Phys. SSS1 Bern University of Applied Sciences Engineering and Information Technology

  21. Mod. Phys. SSS1 Bern University of Applied Sciences Engineering and Information Technology metal-semiconductor

  22. Mod. Phys. SSS1 Bern University of Applied Sciences Engineering and Information Technology MIS

  23. Mod. Phys. SSS1 Bern University of Applied Sciences Engineering and Information Technology tunnel transistor

  24. Mod. Phys. SSS1 Bern University of Applied Sciences Engineering and Information Technology STEM scanning tunnelling electron microscope

  25. Mod. Phys. SSS1 Bern University of Applied Sciences Engineering and Information Technology AFM atomic force microscope

  26. Mod. Phys. SSS1 Bern University of Applied Sciences Engineering and Information Technology

  27. Mod. Phys. SSS1 Bern University of Applied Sciences Engineering and Information Technology

  28. Mod. Phys. SSS1 Bern University of Applied Sciences Engineering and Information Technology

  29. Mod. Phys. SSS1 Bern University of Applied Sciences Engineering and Information Technology

  30. Mod. Phys. SSS1 Bern University of Applied Sciences Engineering and Information Technology

  31. Mod. Phys. SSS1 Bern University of Applied Sciences Engineering and Information Technology

  32. Mod. Phys. SSS1 Bern University of Applied Sciences Engineering and Information Technology H-Atom atome H

  33. Mod. Phys. SSS1 Bern University of Applied Sciences Engineering and Information Technology Tröpfchenmodell des Atomkerns Modèle gouttelette du noyau atomique

  34. Mod. Phys. SSS1 Bern University of Applied Sciences Engineering and Information Technology Schalenmodell Modèle à couches

  35. Mod. Phys. SSS1 Bern University of Applied Sciences Engineering and Information Technology

  36. Mod. Phys. SSS1 Bern University of Applied Sciences Engineering and Information Technology superconductivity

  37. Mod. Phys. SSS1 Bern University of Applied Sciences Engineering and Information Technology Meissner-Ochsenfeld effect

  38. Mod. Phys. SSS1 Bern University of Applied Sciences Engineering and Information Technology isotope dependence gap energy (T)

  39. Mod. Phys. SSS1 Bern University of Applied Sciences Engineering and Information Technology

  40. Mod. Phys. SSS1 Bern University of Applied Sciences Engineering and Information Technology structure of HT superconductor

  41. Mod. Phys. SSS1 Bern University of Applied Sciences Engineering and Information Technology

  42. Mod. Phys. SSS1 Bern University of Applied Sciences Engineering and Information Technology l = ½ l = 1

  43. Mod. Phys. SSS1 Bern University of Applied Sciences Engineering and Information Technology l = 2

  44. Mod. Phys. SSS1 Bern University of Applied Sciences Engineering and Information Technology NMR nuclear magnetic resonance(RMN)

  45. Mod. Phys. SSS1 Bern University of Applied Sciences Engineering and Information Technology MRI magnetic resonance imaging

  46. Mod. Phys. SSS1 Bern University of Applied Sciences Engineering and Information Technology Hall effect

  47. Mod. Phys. SSS1 Bern University of Applied Sciences Engineering and Information Technology Quantum Hall effect

  48. Mod. Phys. SSS1 Bern University of Applied Sciences Engineering and Information Technology

  49. Mod. Phys. SSS1 Bern University of Applied Sciences Engineering and Information Technology

  50. Mod. Phys. SSS1 Bern University of Applied Sciences Engineering and Information Technology

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