Modern Physics: Statistical Mechanics

The topics covered in this course focus on Statistical mechanics. The course is taught by Leonard Susskind, the Felix Bloch Professor of Physics at Stanford University.

Modern Physics: Cosmology

The topics covered in this course focus on cosmology. The course is taught by Leonard Susskind, the Felix Bloch Professor of Physics at Stanford University.

Modern Physics: Einsteins General Theory of Relativity

The topics covered in this course focus on General Relativity. The course is taught by Leonard Susskind, the Felix Bloch Professor of Physics at Stanford University.

Modern Physics: Special Relativity

The topics covered in this course focus on Special Relativity. The course is taught by Leonard Susskind, the Felix Bloch Professor of Physics at Stanford University.

Modern Physics: Quantum Mechanics

The topics covered in this course focus on quantum mechanics. The course is taught by Leonard Susskind, the Felix Bloch Professor of Physics at Stanford University.

Modern Physics: Classical Mechanics

The topics covered in this course focus on classical mechanics. The course is taught by Leonard Susskind, the Felix Bloch Professor of Physics at Stanford University.

Physics I: Oscillations and Waves

Simple Harmonic Oscillators, Damped Oscillator, Oscillator With External Forcing, Resonance, Coupled Oscillations, Sinusoidal Plane Waves, The Vector Nature of Electromagnetic Waves, Interference, Coherence, Diffraction, X-Ray Diffraction, The Wave Equation, Standing Waves, Polarization, Compton Effect, Schrodinger Wave Equation, Probability, Quantum Tunneling.

Material Science

Introduction, Internal Energy Enthalpy, Crystal Geometry, Structure, Structure of Solid Materials, Non Crystalline Solids, Polymers, Crystal Imperfections, Phase Diagrams, Diffusion in Solids, Phase Transformations, Mechanical Behavior of Materials, Plastic Deformation, Conductors and Resistors, Super Conductors, Semi-Conductors.

Engineering Mechanics

Engineering Mechanics, Equilibrium, Plan Trusses, Friction, Properties of surfaces, Method of virtual work, Motion of Particles Planar Polar co-ordinates, Motion with Constraints, Momentum, Work and Energy, Rotational Motion, Simple Harmonic Motion, Motion in Uniformly Accelerating and Rotating Frames.

The Fourier Transform and its Applications

Fourier series, the Fourier transform of continuous and discrete signals and its properties. The Dirac delta, distributions, and generalized transforms. Convolutions and correlations and applications; probability distributions, sampling theory, filters, and analysis of linear systems. The discrete Fourier transform and the FFT algorithm.

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