Modules / Lectures
Module NameDownload
noc20_bt14_assigment_1noc20_bt14_assigment_1
noc20_bt14_assigment_10noc20_bt14_assigment_10
noc20_bt14_assigment_11noc20_bt14_assigment_11
noc20_bt14_assigment_12noc20_bt14_assigment_12
noc20_bt14_assigment_13noc20_bt14_assigment_13
noc20_bt14_assigment_2noc20_bt14_assigment_2
noc20_bt14_assigment_3noc20_bt14_assigment_3
noc20_bt14_assigment_4noc20_bt14_assigment_4
noc20_bt14_assigment_5noc20_bt14_assigment_5
noc20_bt14_assigment_6noc20_bt14_assigment_6
noc20_bt14_assigment_7noc20_bt14_assigment_7
noc20_bt14_assigment_8noc20_bt14_assigment_8
noc20_bt14_assigment_9noc20_bt14_assigment_9


Sl.No Chapter Name MP4 Download
1Introduction and reviewDownload
2Review contd.Download
3Need for analysisDownload
4Additional Thermodynamic FunctionsDownload
5State and Path VariablesDownload
6Equations for a Closed SystemDownload
7Chemical PotentialDownload
8Gibbs Duhem equationDownload
9Maxwell’s relationsDownload
10Inter-relationships between thermodynamic variables contdDownload
11Some useful mathematical manipulationsDownload
12Thermodynamic relations for a closed system with 1 mole of pure substanceDownload
13Maximum workDownload
14Open systemsDownload
15Equations of state – virial equationsDownload
16Equations of state – cubic equationsDownload
17Volume estimationDownload
18Volume estimation, contdDownload
19Generalized correlationsDownload
20Generalized correlations (contd)Download
21Residual propertiesDownload
22Residual properties contd.Download
23Generalized correlations and residual propertiesDownload
24Fugacity coefficient estimationDownload
25Review of module 3Download
26Learning aspectsDownload
27Chemical potential formulationsDownload
28Lewis and Randall ruleDownload
29Partial molar propertiesDownload
30Partial molar property estimation from mixing experimentsDownload
31Partial molar property estimation (contd.)Download
32Activity coefficient from excess propertyDownload
33Activity coefficient from excess property (contd.)Download
34Models for activity coefficient in a binary systemDownload
35Models for activity coefficient for a binary system (contd.)Download
36Review of module 4Download
37Criteria for phase equilibriumDownload
38Phase rule for non-reacting systemsDownload
39Clausius Clayperon equationDownload
40Clausius Clayperon equation (contd.)Download
41Vapour liquid equilibriumDownload
42Vapour-liquid equilibrium (contd.)Download
43Estimation of fugacity coefficient from P-V-T data at equilibriumDownload
44Liquid-liquid and solid-liquid equilibriaDownload
45Review of module 5Download
46Criteria for bioreaction equilibriaDownload
47Phase rule for reacting biosystemsDownload
48Equilibrium constantsDownload
49Effect of temperature on the equilibrium constantsDownload
50Reaction in liquid or solid phasesDownload
51Free energy changes for some bioreactionsDownload
52ElectrolytesDownload
53Review of the classical thermodynamics partDownload
54Introduction to Statistical thermodynamicsDownload
55Concepts of macro and microstatesDownload
56Thermodynamic probabilityDownload
57Boltzmann distribution lawDownload
58Defining β in Boltzmann distribution lawDownload
59Relationship between partition function and thermodynamic quantitiesDownload
60Partition function of mono atomic gasesDownload
61Entropy in terms of probablityDownload
62Gibbs paradoxDownload
63Thermodynamic probability for distinguishable particlesDownload
64Thermodynamic probability for indistinguishable particlesDownload
65Sackur – Tetrode equationDownload
66Partition function and Helmholtz and Gibbs free energyDownload
67Ensemble approachDownload
68Ensemble average, time average, Ergodic hypothesisDownload
69Partition function for classical systemsDownload
70Pair potentials for atomic systemsDownload
71Potential for molecular systemsDownload
72Computer code for LJ potentialDownload
73Introduction to computer simulationsDownload
74Computer simulations of macromoleculesDownload
75MD simulation examplesDownload
76Link between theory and experimentsDownload
77MD protocolDownload
78Computer simulation tricksDownload
79Understanding force fieldsDownload
80Idea of Z-matrixDownload
81Basics of MD simulationsDownload
82Integration algorithmsDownload
83Calculation of Columbic forceDownload
84Calculation of LJ forceDownload
85Monte Carlo simulationsDownload
86Analysis of MD trajectoryDownload
87Case study (water)Download

Sl.No Chapter Name English
1Introduction and reviewDownload
Verified
2Review contd.Download
Verified
3Need for analysisDownload
Verified
4Additional Thermodynamic FunctionsDownload
Verified
5State and Path VariablesDownload
Verified
6Equations for a Closed SystemDownload
Verified
7Chemical PotentialDownload
Verified
8Gibbs Duhem equationDownload
Verified
9Maxwell’s relationsDownload
Verified
10Inter-relationships between thermodynamic variables contdDownload
Verified
11Some useful mathematical manipulationsDownload
Verified
12Thermodynamic relations for a closed system with 1 mole of pure substanceDownload
Verified
13Maximum workDownload
Verified
14Open systemsDownload
Verified
15Equations of state – virial equationsDownload
Verified
16Equations of state – cubic equationsDownload
Verified
17Volume estimationDownload
Verified
18Volume estimation, contdDownload
Verified
19Generalized correlationsDownload
Verified
20Generalized correlations (contd)Download
Verified
21Residual propertiesDownload
Verified
22Residual properties contd.Download
Verified
23Generalized correlations and residual propertiesDownload
Verified
24Fugacity coefficient estimationDownload
Verified
25Review of module 3Download
Verified
26Learning aspectsDownload
Verified
27Chemical potential formulationsDownload
Verified
28Lewis and Randall ruleDownload
Verified
29Partial molar propertiesDownload
Verified
30Partial molar property estimation from mixing experimentsDownload
Verified
31Partial molar property estimation (contd.)Download
Verified
32Activity coefficient from excess propertyDownload
Verified
33Activity coefficient from excess property (contd.)Download
Verified
34Models for activity coefficient in a binary systemDownload
Verified
35Models for activity coefficient for a binary system (contd.)Download
Verified
36Review of module 4Download
Verified
37Criteria for phase equilibriumDownload
Verified
38Phase rule for non-reacting systemsDownload
Verified
39Clausius Clayperon equationDownload
Verified
40Clausius Clayperon equation (contd.)Download
Verified
41Vapour liquid equilibriumDownload
Verified
42Vapour-liquid equilibrium (contd.)Download
Verified
43Estimation of fugacity coefficient from P-V-T data at equilibriumDownload
Verified
44Liquid-liquid and solid-liquid equilibriaDownload
Verified
45Review of module 5Download
Verified
46Criteria for bioreaction equilibriaDownload
Verified
47Phase rule for reacting biosystemsDownload
Verified
48Equilibrium constantsDownload
Verified
49Effect of temperature on the equilibrium constantsDownload
Verified
50Reaction in liquid or solid phasesDownload
Verified
51Free energy changes for some bioreactionsDownload
Verified
52ElectrolytesDownload
Verified
53Review of the classical thermodynamics partDownload
Verified
54Introduction to Statistical thermodynamicsDownload
Verified
55Concepts of macro and microstatesDownload
Verified
56Thermodynamic probabilityDownload
Verified
57Boltzmann distribution lawDownload
Verified
58Defining β in Boltzmann distribution lawDownload
Verified
59Relationship between partition function and thermodynamic quantitiesDownload
Verified
60Partition function of mono atomic gasesDownload
Verified
61Entropy in terms of probablityDownload
Verified
62Gibbs paradoxDownload
Verified
63Thermodynamic probability for distinguishable particlesDownload
Verified
64Thermodynamic probability for indistinguishable particlesDownload
Verified
65Sackur – Tetrode equationDownload
Verified
66Partition function and Helmholtz and Gibbs free energyDownload
Verified
67Ensemble approachDownload
Verified
68Ensemble average, time average, Ergodic hypothesisDownload
Verified
69Partition function for classical systemsDownload
Verified
70Pair potentials for atomic systemsDownload
Verified
71Potential for molecular systemsDownload
Verified
72Computer code for LJ potentialDownload
Verified
73Introduction to computer simulationsDownload
Verified
74Computer simulations of macromoleculesDownload
Verified
75MD simulation examplesDownload
Verified
76Link between theory and experimentsDownload
Verified
77MD protocolDownload
Verified
78Computer simulation tricksDownload
Verified
79Understanding force fieldsDownload
Verified
80Idea of Z-matrixDownload
Verified
81Basics of MD simulationsDownload
Verified
82Integration algorithmsDownload
Verified
83Calculation of Columbic forceDownload
Verified
84Calculation of LJ forceDownload
Verified
85Monte Carlo simulationsDownload
Verified
86Analysis of MD trajectoryDownload
Verified
87Case study (water)Download
Verified


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