Modules / Lectures
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Week_02_Assignment_02Week_02_Assignment_02
Week_03_Assignment_03Week_03_Assignment_03
Week_04_Assignment_04Week_04_Assignment_04
Week_05_Assignment_05Week_05_Assignment_05
Week_06_Assignment_06Week_06_Assignment_06
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Week_08_Assignment_08Week_08_Assignment_08
Week_09_Assignment_09Week_09_Assignment_09
Week_10_Assignment_10Week_10_Assignment_10
Week_11_Assignment_11Week_11_Assignment_11
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Sl.No Chapter Name MP4 Download
1Lec 1: Cocepts of heat and work; First Law of ThermodynamicsDownload
2Lec 2: Concepts of enthalpy and heat capacityDownload
3Lec 3: Introduction to entropyDownload
4Lec 4: Calculation of entropy for various processesDownload
5Lec 5: Gibbs and Helmholtz free energyDownload
6Lec 6: Introduction to chemical potentialDownload
7Lec 7: Clapeyron equation and phase transition; concept of fugacityDownload
8Lec 8: Calculation of fugacity; free energy of mixingDownload
9Lec 9: Partial molar quantities; excess thermodynamic quantitiesDownload
10Lec 10: Concept of activity and activity coefficients; Debye-Huckel limiting lawDownload
11Lec 11: Phase Diagram of one component systemsDownload
12Lec 12: Phase Diagram of two component systemsDownload
13Lec 13: Phase Diagram of three component system; one dimensional random walkDownload
14Lec 14: Macroscopic and microscopic states; Boltzmann distribution; Canonical partition functionDownload
15Lec 15: Calculation of different thermodynamical quantities using canonical partition functionDownload
16Lec 16: Introduction to molecular partition functionDownload
17Lec 17: Translational, electronic and nuclear partition functionDownload
18Lec 18: Rotational partition functionDownload
19Lec 19: Vibrational partitition function; Introduction to grand canonical ensembleDownload
20Lec 20: Grand canonical distribution; Introduction to microcanonical ensembleDownload
21Lec 21: Problems on classical thermodynamics-1Download
22Lec 22: Problems on classical thermodynamics-2Download
23Lec 23: Problems on statistical thermodynamics-1Download
24Lec 24: Problems on statistical thermodynamics-2Download
25Lec 25: Problems on statistical thermodynamics-3Download
26Lec 26: Fermi-Dirac and Bose-Einstein statisticsDownload
27Lec 27: Ideal Fermi gasDownload
28Lec 28: Ideal Bose gas;Introduction to Bose-Einstein condensationDownload
29Lec 29: Bose-Einstein condensationsDownload
30Lec 30: Nuclear spin statistics; Ortho- and para-hydrogensDownload
31Lec 31: Specific Heats of solidsDownload
32Lec 32: Problems on statistical thermodynamics-4Download
33Lec 33: Advance problems-1Download
34Lec 34: Advance Problems-2Download
35Lec 35: Advance Problems-3Download
36Lec 36: Advance Problems-4Download
37Lec 37: Advance Problems-5Download

Sl.No Chapter Name English
1Lec 1: Cocepts of heat and work; First Law of ThermodynamicsDownload
Verified
2Lec 2: Concepts of enthalpy and heat capacityDownload
Verified
3Lec 3: Introduction to entropyDownload
Verified
4Lec 4: Calculation of entropy for various processesDownload
Verified
5Lec 5: Gibbs and Helmholtz free energyDownload
Verified
6Lec 6: Introduction to chemical potentialDownload
Verified
7Lec 7: Clapeyron equation and phase transition; concept of fugacityDownload
Verified
8Lec 8: Calculation of fugacity; free energy of mixingDownload
Verified
9Lec 9: Partial molar quantities; excess thermodynamic quantitiesDownload
Verified
10Lec 10: Concept of activity and activity coefficients; Debye-Huckel limiting lawDownload
Verified
11Lec 11: Phase Diagram of one component systemsDownload
Verified
12Lec 12: Phase Diagram of two component systemsDownload
Verified
13Lec 13: Phase Diagram of three component system; one dimensional random walkDownload
Verified
14Lec 14: Macroscopic and microscopic states; Boltzmann distribution; Canonical partition functionDownload
Verified
15Lec 15: Calculation of different thermodynamical quantities using canonical partition functionDownload
Verified
16Lec 16: Introduction to molecular partition functionDownload
Verified
17Lec 17: Translational, electronic and nuclear partition functionDownload
Verified
18Lec 18: Rotational partition functionDownload
Verified
19Lec 19: Vibrational partitition function; Introduction to grand canonical ensembleDownload
Verified
20Lec 20: Grand canonical distribution; Introduction to microcanonical ensembleDownload
Verified
21Lec 21: Problems on classical thermodynamics-1Download
Verified
22Lec 22: Problems on classical thermodynamics-2Download
Verified
23Lec 23: Problems on statistical thermodynamics-1Download
Verified
24Lec 24: Problems on statistical thermodynamics-2Download
Verified
25Lec 25: Problems on statistical thermodynamics-3Download
Verified
26Lec 26: Fermi-Dirac and Bose-Einstein statisticsDownload
Verified
27Lec 27: Ideal Fermi gasDownload
Verified
28Lec 28: Ideal Bose gas;Introduction to Bose-Einstein condensationDownload
Verified
29Lec 29: Bose-Einstein condensationsDownload
Verified
30Lec 30: Nuclear spin statistics; Ortho- and para-hydrogensDownload
Verified
31Lec 31: Specific Heats of solidsDownload
Verified
32Lec 32: Problems on statistical thermodynamics-4Download
Verified
33Lec 33: Advance problems-1PDF unavailable
34Lec 34: Advance Problems-2PDF unavailable
35Lec 35: Advance Problems-3PDF unavailable
36Lec 36: Advance Problems-4PDF unavailable
37Lec 37: Advance Problems-5PDF unavailable


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1EnglishNot Available
2BengaliNot Available
3GujaratiNot Available
4HindiNot Available
5KannadaNot Available
6MalayalamNot Available
7MarathiNot Available
8TamilNot Available
9TeluguNot Available