2016-10-06

Martin Smalley: Electromagnetism and Optics (U of York)

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source: Physics Lectures York     2015年1月16日
Dr Martin Smalley, University of York.
This video was recorded by the Department of Physics, University of York as part of the Video Capture pilot funded by the University of York Learning & Teaching Rapid Response Fund and supported by the Replay Service.
Lecture notes are provided to students via the Yorkshare VLE module site.

Lecture 1: Maxwell's Equations 50:29
Lecture 2: Electrostatics 48:46
Lecture 3: Magnetostatics 53:04
Lecture 4 - Ampere's Law 52:55
Lecture 5: The Vector Potential 51:12
Lecture 6: The Biot-Savart Law 52:25
Lecture 7: Induced Current 53:57
Lecture 8: Faraday's Law 55:21
Lecture 9: Charge Conservation 52:55
Lecture 10: Ampere-Maxwell Law 53:30
Lecture 11: The Speed of Light 52:34
Lecture 12: Maxwell's Equations in Free Space 44:53
Lecture 13 - Dipole Radiation 53:46
Lecture 14: Interference 53:02
Lecture 15: Diffraction 52:53
Lecture 16: Near-field and far-field diffraction 53:11
Lecture 17: The Fourier Transform and Fraunhofer Diffraction 51:14
Lecture 18: Cornu's Spiral and Fresnel Diffraction 53:04
Lecture 19: Refraction and Reflection of Light 51:48
Lecture 19: Reflection and Refraction of Light (continued) 54:23
Lecture 20: Polarization 52:06
Lecture 20 part 1 31:28
Lecture 22: Electrostatic Energy Cont. 51:33
24: Electromechanical Implications of Faraday's Law & Lecture 25: Field Energy & Poynting's Law 42:53
Lecture 25 continued: Field Energy and Poynting's Vector 50:30
Lecture 27: Relativity and Electromagnetism 54:21
Lecture 28 57:08
Lecture 29 54:39
Lecture 30: Inside Dielectrics 52:41
Lecture 31: Magnetic Dipoles 50:59
Lecture 32: Magnetic Materials 52:31
Lecture 33 - Ferromagnetism 51:30
Lecture 34 - Electromagnetic Field Tensor 1:37:40

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