Lecture 37: EM Field tensor, dual tensor, Levi-Civita symbol in 4D, Lorentz transformations, time/space-like vectors 
Lecture 37: EM Field tensor, dual tensor, Levi-Civita symbol in 4D, Lorentz transformations, time/space-like vectors by NPTEL / V. Balakrishnan
Video Lecture 37 of 38
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Date Added: November 18, 2010

Lecture Description

This video lecture, part of the series Classical Physics by Prof. V. Balakrishnan, does not currently have a detailed description and video lecture title. If you have watched this lecture and know what it is about, particularly what Physics topics are discussed, please help us by commenting on this video with your suggested description and title. Many thanks from,

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Course Index

  1. Lecture 1: Mass, Length and Time
  2. Lecture 2: Classical Dynamics
  3. Lecture 3: Harmonic Oscillator
  4. Lecture 4: Harmonic Oscillator
  5. Lecture 5: Dimensional dynamical systems
  6. Lecture 6: Dimensional dynamical systems
  7. Lecture 7: The Principles of the Equations of Motion
  8. Lecture 8: Maxwell's Equations
  9. Lecture 9: Lagrangian for a charged particle in a EM field
  10. Lecture 10: Lagrangian and Hamiltonian Dynamics
  11. Lecture 11: Hamiltonian Systems
  12. Lecture 12: Integrability of Hamiltonian Systems
  13. Lecture 13: Emmy Noether, Symmetry, Invariance and Conservation Laws
  14. Lecture 14: Isotropic Oscillators, The Kepler Problem, Introduction to Statistical Physics
  15. Lecture 15: Chaotic Dynamics
  16. Lecture 16: Exponential Divergencies, Lyapunov Exponent, Bernoulli Map and Frobenius-Perron Equation
  17. Lecture 17: Lyapunov Exponent, Baker's Map, Arnold's cat map, Gauss continued fraction map
  18. Lecture 18: Questions & Answers
  19. Lecture 19: Questions & Answers
  20. Lecture 20: Statistical Mechanics: Isolated Systems, Fundamental Postulate of Equilibrium, Microcanonical Ensemble
  21. Lecture 21: Microcanonical Ensemble: Stirling's Formula, Poisson Distribution
  22. Lecture 22: Microstates of particles, Entropy, Density of States, Thermodynamics
  23. Lecture 23: Euler Relation, Enthalpy, Helmholtz / Gibbs Free Energies, Grand Potential, Field / State Variables, Gas Law
  24. Lecture 24: Density of States, Boltzmann/Gibbs Factor
  25. Lecture 25: Thermodynamics of Ideal Gases and its Statistic Mechanics
  26. Lecture 26: Probability and Maxwellian Distributions, Moment generating function, Excess Kurtosis, Levy distributions
  27. Lecture 27: Maxwellian distributions, Gunbel, Weibull & Frechet distribution, Phase Diagrams
  28. Lecture 28: Phase Diagrams, Model of Paramagnetism, dipole moment, Weiss molecular field theory
  29. Lecture 29: Ferromagnetism, spontaneous magnetization, Landau Theory
  30. Lecture 30: Landau Theory and critical exponents, Thermodynamic relations, Continuum limit of random walk
  31. Lecture 31: Questions & Answers
  32. Lecture 32: Lie Groups, homomorphism, kernel
  33. Lecture 33: Groups, compact and non-compact groups, Universal covering group
  34. Lecture 34: Group of proper rotation in 3D, Parametrization by Euler angles, unitary matrices, Noether's theorem
  35. Symmetry, Invariance and Conservation laws (Noether's theorem), Principles of Relativity
  36. Lecture 36: Lorentz invariance, Riemannian manifold, metric tensors, d'Alembert operator
  37. Lecture 37: EM Field tensor, dual tensor, Levi-Civita symbol in 4D, Lorentz transformations, time/space-like vectors
  38. Lecture 38: Lorentz transformations in EM fields

Course Description

Lecture Series on Classical Physics by Prof.V.Balakrishnan, Department of Physics, IIT Madras. Among the topics in the lectures are:

- Mass, Length and Time
- Classical Dynamics
- Harmonic Oscillator
- Harmonic Oscillator
- Dimensional dynamical systems
- Dimensional dynamical systems
- The P... (read more)


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