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source: nptelhrd 2011年9月20日
Metallurgical - Physics of Materials by Dr. Prathap Haridoss, Department of Metallurgical & Materials Engineering, IIT Madras. For more details on NPTEL visit http://nptel.iitm.ac.in
01 Introduction Physics of Materials 50:58
02 Properties of Materials 51:18
03 Thermal Expansion 55:07
04 Measuring Electrical Conductivity: DC and AC 52:09
05 Free Electron Gas 51:02
06 The Ideal Gas 49:12
07 Drude Model: Electrical Conductivity 48:34
08 Drude Model: Thermal Conductivity 51:12
09 Drude Model: Successes and Limitations 49:36
10 Drude Model: Source of Shortcomings 52:53
11 Large Systems and Statistical Mechanics 55:16
12 Maxwell Boltzmann Statistics 54:49
13 Classical Particles and Quantum Particles 54:32
14 History of Quantum Mechanics-1 55:42
15 History of Quantum Mechanics-2 54:07
16 Introduction to Drude Sommerfeld model 53:14
17 Fermi-Dirac Statistics: Part 1 54:17
18 Fermi-Dirac Statistics: Part 2 50:58
19 Features of the Fermi Dirac Distribution Function 53:26
20 Maxwell-Boltzmann Distribution Vs Fermi-Dirac Distribution 51:45
21 Anisotropy and Periodic Potential in a Solid 56:40
22 Confinement and Quantization: Part 1 56:06
23 Confinement and Quantization: Part 2 53:46
24 Density of States 51:48
25 Fermi Energy, Fermi Surface, Fermi Temperature 51:52
26 Electronic Contribution to Specific Heat at Constant Volume 50:57
27 Reciprocal Space - 1:Introduction to Reciprocal Space 52:48
28 Reciprocal Space - 2: Condition for Diffraction 49:35
29 Reciprocal Space - 3: Ewald sphere, Simple Cubic, FCC and BCC in Reciprocal Space 53:35
30 Wigner Seitz Cell and Introduction to Brillouin Zones 56:09
31 Brillouin Zones, Diffraction, and Allowed Energy Levels 53:00
32 E Vs k, Brillouin Zones and the Origin of Bands 55:56
33 Calculating Allowed Energy Bands and Forbidden Band Gaps 47:19
34 Bands; Free Electron Approximation, Tight Binding Approximation 53:42
35 Semiconductors 53:44
36 Magnetic Properties 54:58
37 Compounds; Phonons, Optoelectronic Materials 51:58
38 Superconductivity 51:47
39 Bose-Einstein Statistics 51:54
40 Physics of Nano Scale Materials; Course Summary 57:38
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