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Physics I: Oscillations and Waves

Physics I: Oscillations and Waves. Instructor: Professor S. Bharadwaj, Department of Physics and Meteorology, IIT Kharagpur. This course covers lessons in simple harmonic oscillators, resonance, electromagnetic waves, electromagnetic spectrum, interference, coherence, diffraction, standing waves, polarization, wave-particle duality, Schrodinger wave equation, particle in a potential, potential well and quantum tunneling. (from nptel.ac.in)

Simple Harmonic Oscillators


Lecture 01 - Simple Harmonic Oscillators
Lecture 02 - Damped Oscillator I: Equation for Damped Oscillators, Underdamped Oscillators
Lecture 03 - Damped Oscillator II: Overdamped Oscillators, Critical Damping
Lecture 04 - Oscillator With External Forcing I
Lecture 05 - Oscillator With External Forcing II
Lecture 06 - Resonance
Lecture 07 - Coupled Oscillations
Lecture 08 - Sinusoidal Plane Waves
Lecture 09 - Electromagnetic Waves I
Lecture 10 - Electromagnetic Waves II
Lecture 11 - The Vector Nature of Electromagnetic Waves
Lecture 12 - The Electromagnetic Spectrum I
Lecture 13 - The Electromagnetic Spectrum II
Lecture 14 - Interference I: Young's Double Slit Experiment
Lecture 15 - Interference II: Young's Double Slit Experiment
Lecture 16 - Interference III: Michelson Interferometer, Fringe Conditions
Lecture 17 - Interference IV: Michelson Interferometer, Fringe Conditions
Lecture 18 - Coherence I
Lecture 19 - Coherence II
Lecture 20 - Diffraction I: Huygen-Fresnel Principle, Fresnel 1800s, Single Slit
Lecture 21 - Diffraction II: Single Slit, Intensity Pattern
Lecture 22 - Diffraction III: Raleigh Criteria, Chain of Oscillators, Intensity Pattern, Phase Difference
Lecture 23 - Diffraction IV: Chain of Oscillators, Phase Difference, Grating
Lecture 24 - X-Ray Diffraction
Lecture 25 - Beats
Lecture 26 - The Wave Equation
Lecture 27 - Solving the Wave Equation
Lecture 28 - Waves
Lecture 29 - Standing Waves I
Lecture 30 - Standing Waves II
Lecture 31 - Polarization
Lecture 32 - Compton Effect
Lecture 33 - Wave-Particle Duality I
Lecture 34 - Wave-Particle Duality II
Lecture 35 - Probability Amplitude
Lecture 36 - Probability
Lecture 37 - Schrodinger Wave Equation
Lecture 38 - Measurements
Lecture 39 - Particle in a Potential
Lecture 40 - Potential Well I
Lecture 41 - Potential Well II
Lecture 42 - Potential Well III
Lecture 43 - Quantum Tunneling I
Lecture 44 - Quantum Tunneling II

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Physics I: Oscillations and Waves
Instructor: Professor S. Bharadwaj. Syllabus. This course covers lessons in simple harmonic oscillators, resonance, electromagnetic waves, electromagnetic spectrum, interference, coherence, diffraction, standing waves and polarization.