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
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Sl.No Chapter Name MP4 Download
1Lec 1: Prerequisites and IntroductionDownload
2Lec 2: Combinatorics and EntropyDownload
3Lec 3: Method of steepest descentDownload
4Lec 4: Bose and Fermi gasesDownload
5Lec 5: Maxwell Boltzmann distributionDownload
6Lec 6: Thermodynamic potentialsDownload
7Lec 7: Legendre transformationDownload
8Lec 8: Specific heats of quantum gasesDownload
9Lec 9: Low and high temperature equations of stateDownload
10Lec 10: Chandrasekhar LimitDownload
11Lec 11: Radiation thermodynamics Download
12Lec 12: Thermodyamics of black holesDownload
13Lec 13: Van der Waals fluidDownload
14Lec 14: Landau DiamagnetismDownload
15Lec 15: Relations between ensembles and Pauli paramagnetismDownload
16Lec 16:- FerromagnetismDownload
17Lec 17:- Correlations and Mean FieldDownload
18Lec 18: Theories of Specific Heat of SolidsDownload
19Lec 19: Tutorial IDownload
20Lec 20:- Tutorial-IIDownload
21Lec 21:- Tutorial-IIIDownload
22Lec 22:- Tutorial-IVDownload
23Lec 23:- Tutorial-VDownload
24Lec 24:- RG method Ising modelDownload
25Lec 25:- Introduction to Second Quantisation: Harmonic OscillatorDownload
26Lec 26:- Quantum Theory of EM Field- IDownload
27Lec 27:- Quantum Theory of EM Field- IIDownload
28Lec 28:- Creation and Annihilation in Fock Space- IDownload
29Lec 29:- Creation and Annihilation in Fock Space- IIDownload
30Lec 30:- Green functions in many particle systemsDownload
31Lec 31:- Second quantised hamiltoniansDownload
32Lec 32:- Current algebraDownload

Sl.No Chapter Name English
1Lec 1: Prerequisites and IntroductionPDF unavailable
2Lec 2: Combinatorics and EntropyPDF unavailable
3Lec 3: Method of steepest descentPDF unavailable
4Lec 4: Bose and Fermi gasesPDF unavailable
5Lec 5: Maxwell Boltzmann distributionPDF unavailable
6Lec 6: Thermodynamic potentialsPDF unavailable
7Lec 7: Legendre transformationPDF unavailable
8Lec 8: Specific heats of quantum gasesPDF unavailable
9Lec 9: Low and high temperature equations of statePDF unavailable
10Lec 10: Chandrasekhar LimitPDF unavailable
11Lec 11: Radiation thermodynamics PDF unavailable
12Lec 12: Thermodyamics of black holesPDF unavailable
13Lec 13: Van der Waals fluidPDF unavailable
14Lec 14: Landau DiamagnetismPDF unavailable
15Lec 15: Relations between ensembles and Pauli paramagnetismPDF unavailable
16Lec 16:- FerromagnetismPDF unavailable
17Lec 17:- Correlations and Mean FieldPDF unavailable
18Lec 18: Theories of Specific Heat of SolidsPDF unavailable
19Lec 19: Tutorial IPDF unavailable
20Lec 20:- Tutorial-IIPDF unavailable
21Lec 21:- Tutorial-IIIPDF unavailable
22Lec 22:- Tutorial-IVPDF unavailable
23Lec 23:- Tutorial-VPDF unavailable
24Lec 24:- RG method Ising modelPDF unavailable
25Lec 25:- Introduction to Second Quantisation: Harmonic OscillatorPDF unavailable
26Lec 26:- Quantum Theory of EM Field- IPDF unavailable
27Lec 27:- Quantum Theory of EM Field- IIPDF unavailable
28Lec 28:- Creation and Annihilation in Fock Space- IPDF unavailable
29Lec 29:- Creation and Annihilation in Fock Space- IIPDF unavailable
30Lec 30:- Green functions in many particle systemsPDF unavailable
31Lec 31:- Second quantised hamiltoniansPDF unavailable
32Lec 32:- Current algebraPDF unavailable


Sl.No Language Book link
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2BengaliNot Available
3GujaratiNot Available
4HindiNot Available
5KannadaNot Available
6MalayalamNot Available
7MarathiNot Available
8TamilNot Available
9TeluguNot Available