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Richard Feynman - The Feynman Lectures on Physics (MP3, ENG)

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  • 文件大小:3GB
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  • 最近下载:2020-12-02 19:52:19
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文件列表

  1. 2.42 v2c42 Curved Space.mp3 35MB
  2. 1.25 v1c25 Linear Systems and Review.mp3 29MB
  3. 3.11 v3c11 More Two-State Systems.mp3 29MB
  4. 2.37 v2c37 Magnetic Materials.mp3 28MB
  5. 2.01 v2c01 Electromagnetism.mp3 28MB
  6. 1.17 v1c17 Space-Time.mp3 28MB
  7. 2.31 v2c31 Tensors.mp3 27MB
  8. 3.09 v3c09 The Ammonia Maser.mp3 27MB
  9. 2.21 v2c21 Solutions of Maxwell's Equations with Currents and Charges.mp3 27MB
  10. 2.17 v2c17 The Laws of Induction.mp3 27MB
  11. 2.41 v2c41 The Flow of Wet Water.mp3 27MB
  12. 2.03 v2c03 Vector Integral Calculus.mp3 27MB
  13. 2.05 v2c05 Application of Gauss' Law.mp3 27MB
  14. 2.38 v2c38 Elasticity.mp3 27MB
  15. 2.33 v2c33 Reflection from Surfaces.mp3 26MB
  16. 1.02 v1c02 Basic Physics.mp3 26MB
  17. 1.12 v1c12 Characteristics of Force.mp3 26MB
  18. 2.27 v2c27 Field Energy and Field Momentum.mp3 26MB
  19. 2.02 v2c02 Differential Calculus of Vector Fields.mp3 26MB
  20. 2.04 v2c04 Electrostatics.mp3 26MB
  21. 2.08 v2c08 Electrostatic Energy.mp3 26MB
  22. 1.29 v1c29 Interference.mp3 26MB
  23. 2.07 v2c07 The Electric Field in Various Circumstances (continued).mp3 26MB
  24. 1.43 v1c43 Diffusion.mp3 26MB
  25. 2.22 v2c22 AC Circuits.mp3 26MB
  26. 2.23 v2c23 Cavity Resonators.mp3 26MB
  27. 2.09 v2c09 Electricity in the Atmosphere.mp3 26MB
  28. 2.13 v2c13 Magnetostatics.mp3 26MB
  29. 2.19 v2c19 The Principle of Least Action.mp3 26MB
  30. 2.12 v2c12 Electrostatic Analogs.mp3 26MB
  31. 2.24 v2c24 Waveguides.mp3 26MB
  32. 1.15 v1c15 The Special Theory of Relativity.mp3 26MB
  33. 2.14 v2c14 The Magnetic Field in Various Situation.mp3 26MB
  34. 2.25 v2c25 Electrodynamics in Relativistic Notation.mp3 26MB
  35. 2.16 v2c16 Induced Currents.mp3 25MB
  36. 1.33 v1c33 Polarization.mp3 25MB
  37. 1.45 v1c45 Illustrations of Thermodynamics.mp3 25MB
  38. 2.40 v2c40 The Flow of Dry Water.mp3 25MB
  39. 2.06 v2c06 The Electric Field in Various Circumstances.mp3 25MB
  40. 2.26 v2c26 Lorentz Transformations of the Fields.mp3 25MB
  41. 3.10 v3c10 Other Two-State Systems.mp3 25MB
  42. 1.36 v1c36 Mechanisms of Seeing.mp3 25MB
  43. 1.48 v1c48 Beats.mp3 25MB
  44. 2.30 v2c30 The Internal Geometry of Crystals.mp3 25MB
  45. 1.35 v1c35 Color Vision.mp3 25MB
  46. 2.11 v2c11 Inside Dielectrics.mp3 25MB
  47. 1.44 v1c44 The Laws of Thermodynamics.mp3 25MB
  48. 2.15 v2c15 The Vector Potential.mp3 25MB
  49. 2.32 v2c32 Refractive Index of Dense Materials.mp3 25MB
  50. 3.08 v3c08 The Hamiltonian Matrix.mp3 25MB
  51. 1.16 v1c16 Relativistic Energy and Momentum.mp3 25MB
  52. 3.06 v3c06 Spin One-Half.mp3 25MB
  53. 1.22 v1c22 Algebra.mp3 25MB
  54. 1.20 v1c20 Rotation in Space.mp3 25MB
  55. 1.13 v1c13 Work and Potential Energy (A).mp3 24MB
  56. 2.39 v2c39 Elastic Materials.mp3 24MB
  57. 1.50 v1c50 Harmonics.mp3 24MB
  58. 1.30 v1c30 Diffraction.mp3 24MB
  59. 2.18 v2c18 The Maxwell Equations.mp3 24MB
  60. 1.49 v1c49 Modes.mp3 24MB
  61. 1.39 v1c39 The Kinetic Theory of Gases.mp3 24MB
  62. 1.47 v1c47 Sound; The Wave Equation.mp3 24MB
  63. 1.32 v1c32 Radiation Damping; Light Scattering.mp3 24MB
  64. 1.06 v1c06 Probability.mp3 24MB
  65. 1.34 v1c34 Relativistic Effects in Radiation.mp3 24MB
  66. 2.34 v2c34 The Magnetism of Matter.mp3 24MB
  67. 1.09 v1c09 Newton's Laws of Dynamics.mp3 24MB
  68. 1.31 v1c31 The Origin of the Refractive Index.mp3 24MB
  69. 1.18 v1c18 Rotation in Two Dimensions.mp3 24MB
  70. 1.01 v1c01 Atoms in Motion.mp3 24MB
  71. 1.27 v1c27 Geometrical Optics.mp3 24MB
  72. 2.10 v2c10 Dielectrics.mp3 24MB
  73. 3.20 v3c20 Operators.mp3 24MB
  74. 1.10 v1c10 Conservation of Momentum.mp3 23MB
  75. 1.08 v1c08 Motion.mp3 23MB
  76. 1.46 v1c46 Ratchet and Pawl.mp3 23MB
  77. 2.20 v2c20 Solutions of Maxwell's Equations in Free Space.mp3 23MB
  78. 1.19 v1c19 Center of Mass; Moment of Inertia.mp3 23MB
  79. 1.51 v1c51 Waves.mp3 23MB
  80. 1.11 v1c11 Vectors.mp3 23MB
  81. 1.42 v1c42 Applications of Kinetic Theory.mp3 23MB
  82. 1.03 v1c03 The Relation of Physics to Other Sciences.mp3 23MB
  83. 1.05 v1c05 Time and Distance.mp3 23MB
  84. 3.18 v3c18 Angular Momentum.mp3 23MB
  85. 1.14 v1c14 Work and Potential Energy (conclusion).mp3 23MB
  86. 3.16 v3c16 The Dependence of Amplitudes on Position.mp3 23MB
  87. 1.41 v1c41 The Brownian Movement.mp3 23MB
  88. 1.04 v1c04 Conservation of Energy.mp3 22MB
  89. 1.26 v1c26 Optics - The Principle of Least Time.mp3 22MB
  90. 3.03 v3c03 Probability Amplitudes.mp3 22MB
  91. 1.28 v1c28 Electromagnetic Radiation.mp3 22MB
  92. 3.07 v3c07 The Dependence of Amplitudes on Time.mp3 21MB
  93. 1.40 v1c40 The Principles of Statistical Mechanics.mp3 21MB
  94. 1.21 v1c21 The Harmonic Oscillator.mp3 20MB
  95. 1.07 v1c07 The Theory of Gravitation.mp3 20MB
  96. 1.37 v1c37 Quantum Behavior [v3c01].mp3 20MB
  97. 3.01 v3c01 Quantum Behavior.mp3 20MB
  98. 1.38 v1c38 The Relation of Wave and Particle Viewpoints [v3c02].mp3 20MB
  99. 3.02 v3c02 The Relation of Wave and Particle Viewpoints.mp3 20MB
  100. 3.14 v3c14 Semiconductors.mp3 20MB
  101. 2.36 v2c36 Ferromagnetism.mp3 20MB
  102. 3.13 v3c13 Propagation in a Crystal Lattice.mp3 19MB
  103. 1.24 v1c24 Transients.mp3 19MB
  104. 2.35 v2c35 Paramagnetism and Magnetic Resonance.mp3 19MB
  105. 3.15 v3c15 The Independent Particle Approximation.mp3 18MB
  106. 3.05 v3c05 Spin One.mp3 18MB
  107. 3.04 v3c04 Identical Particles.mp3 18MB
  108. 3.17 v3c17 Symmetry and Conservation Laws.mp3 17MB
  109. 1.52 v1c52 Symmetry in Physical Laws.mp3 17MB
  110. 3.21 v3c21 The Schroedinger Equation in a Classical Context - A Seminar on Superconductivity.mp3 17MB
  111. 3.12 v3c12 The Hyperfine Splitting in Hydrogen.mp3 16MB
  112. 3.19 v3c19 The Hydrogen Atom and the Periodic Table.mp3 16MB
  113. 1.00 v1c00 Preface and Introduction.mp3 2MB
  114. 2.29 v2c29 The Motion of Charges in Electric and Magnetic Fields [MISSING].mp3 3KB
  115. 2.28 v2c28 Electromagnetic Mass [MISSING].mp3 3KB
  116. 1.23 v1c23 Resonance [MISSING].mp3 3KB