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Wave Particle Duality

PARTICLE properties individual interaction dynamics: F=ma mass – quantization position(time) – localized mass spin COMMON properties: energy, momentum, velocity. WAVE properties collective interference – superposition dynamics: wave equation standing waves – modes

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Wave Particle Duality

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  1. PARTICLE properties individual interaction dynamics: F=ma mass – quantization position(time) – localized mass spin COMMON properties: energy, momentum, velocity WAVE properties collective interference – superposition dynamics: wave equation standing waves – modes wavelength (freq) – periodic dispersion polarization reflection, refraction, trans. diffraction – Huygens Wave Particle Duality Light behaves as both a wave and a particle at the same time!

  2. Reflection, Diffraction, Interference animation

  3. Particle waves phonon photon ??? ??? ??? electron

  4. Electromagnetic waves

  5. Blackbody radiation – Planck, Boltzman–Stefan, Wien energy per photon “high frequency photons cost too much energy” density of modes photons per mode

  6. Photoelectric effect – Einstein

  7. X-rays – Roentgen, Bragg, Laue, Duane-Hunt, Compton

  8. Particle Waves – de Broglie, Davisson-Germer

  9. Wave packets – Fourier, Heisenberg

  10. Hydrogen atom – Rutherford, Bohr

  11. Potential wells – conservation of energy

  12. Schrödinger Equation operators tunneling

  13. Separation of variables Hydrogen atom Angular momentum J = L + S Pauli exclusion principle Multi-particle wave function atoms molecules crystals Statistical mechanics degeneracy Maxwell-Boltzman, Bose-Einstein, Fermi-Dirac distributions See reviews of Exams II, III

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