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Quantum Mechanics Mnemonic for p

Learn the basics of quantum mechanics through mnemonic devices and experiments like photoelectric effect and Compton scattering. Understand the nature of photons using Davisson-Germer experiment. Dive into crystal diffraction and de Broglie's relation.

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Quantum Mechanics Mnemonic for p

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  1. Quantum Mechanics Mnemonic for p “Now I need a drink, alcoholic of course, after the heavy lectures involving quantum mechanics.” 3.1415926535897932384626433832795028841971693993751

  2. Establishing that E = h f Photoelectric Experiment of Lenard

  3. Stopping Voltage Versus Intensity I And Versus Frequency f

  4. Photoelectric Experiment of Millikan Test eV0 = KEmax = hf – f, deduce h

  5. Class Discussion: Use Photons To Explain Fluorescence of Light Under UV Lamp

  6. Blackboard discussion of Compton effect formula

  7. Establishing that Photon is Particle I Compton Effect (X-Ray Scattering)

  8. Make X-Rays with Electron Beam Bremsstrahlung: braking radiation Class discussion: how to tell X-Ray is light, not an electron or neutron or other massive particle?

  9. Establishing that Photon is Particle II Compton Effect (X-Ray Scattering)

  10. Establishing that Photon is Particle II Compton Effect (X-Ray Scattering)

  11. Quantitative Confirmation of de Broglie’s Relation: Crystal Diffraction of Electron Beam by Davisson and Germer

  12. The Davisson-Germer Experiment: Crystal Acts Like Thin-Film Interference

  13. Scattering of Electrons Exactly Like X-Rays Confirms de Broglie Relation and Crystalline Structure of Surface

  14. Varying Voltage V0 of Electron Gun Varies de Broglie Wavelength l

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