MIT 8_03 2004

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• Lecture 1: Periodic Oscillations, Physical Pendulum ( Y )
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• Lecture 2: Beats, Damped Free Oscillations, Quality Q ( Y )
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• Lecture 3:Forced Oscillations with Damping, Destructive Resonance
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• Lecture 4: Forced Oscillations, Power at Resonance, Transient Phenomena
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• Lecture 5: Coupled Oscillators
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• Lecture 6: Driven Coupled Oscillators and Cramer's Rule
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• Lecture 7: Coupled Oscillators, Transverse Traveling Pulses and Waves
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• Lecture 8: Traveling Waves, Sound Waves and Energy in Waves
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• Lecture 9: Musical Instruments, Sound Cavities, Normal Modes
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• Lecture 10: Exam 1 Review
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• Lecture 11: Fourier Analysis, Time Evolution of Pulses on Strings
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• Lecture 12: Dispersion, Phase Velocity, Group Velocity
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• Lecture 13: Electromagnetic Waves, Polarization
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• Lecture 14: Accelerated Charges, Poynting Vector, and Power
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• Lecture 15: Doppler Effect, EM Radiation and Expanding Universe
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• Lecture 16: Interactions of Electromagnetic Waves with Perfect Conductors
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• Lecture 17: Wave Guides, Resonance Cavities of EM-radiation and Sound
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• Lecture 18: Boundary Conditions for Dielectrics
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• Lecture 19: Exam 2 Review
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• Lecture 20: Huygens' Principle, Interference, Thin films, Soap, Oil, Light
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• Lecture 21: Diffraction, Gratings, Pin Holes, Angular Resolution
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• Lecture 22: Rainbows, Haloes, Coronae, Glories
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• Lecture 23: Farewell Lecture