TD-Class-6-Video
Completion requirements
- 0:00 Introduction - Detailed Explanation
- 0:33 Problem-1: State & Path Functions - Detailed Explanation
- 1:18 Problem-2: Work Done Against Vacuum - Detailed Explanation
- 2:25 Problem-3: Polytropic Exponent & Processes - Detailed Explanation
- 4:00 Problem-4: Heating of a Gas in Rigid Vessel - Detailed Explanation
- 5:08 Problem-5: Heat Given at Constant Pressure - Detailed Explanation
- 6:27 Problem-6: Work of Polytropic Process with Ideal Gas - Detailed Explanation
- 9:23 Problem-7: Ideal Gas Law - Applicable Conditions - Detailed Explanation
- 11:44 Problem-8: Criteria for Evaluating Vander Waals Constant - Detailed Explanation
- 14:01 Problem-9: Isothermal Compressibility - Detailed Explanation
- 16:12 Problem-10: Heat Input at Constant Pressure - Detailed Explanation
- 17:37 Problem-11: Net Work of Cyclic Process - Detailed Explanation
- 19:46 Problem-12: Flow rate of Gas in Turbine for a Given Power Output - Detailed Explanation
- 21:30 Problem-13: Violation of Thermodynamic Laws - Detailed Explanation
- 24:42 Problem-14: Statements about Carnot Engine - Detailed Explanation
- 26:38 Problem-15: Maximum Work between Two Reservoirs - Detailed Explanation
- 27:48 Problem-16: Entropy Change & Internal Energy Change for Heat Transfer - Detailed Explanation
- 30:02 Problem-17: Isentropic Expansion of Ideal Gas P vs T - Detailed Explanation
- 30:37 Problem-18: Slope of PV Curves - Detailed Explanation
- 32:08 Problem-19: Entropy Change of Reversible and Irreversible Processes - Detailed Explanation
- 33:36 Problem-20: Changes in Internal Energy and Entropy for Cooling - Detailed Explanation
- 35:23 Problem-21: Maxwell Relation from dA - Detailed Explanation
- 37:47 Problem-22: Entropy Change with Temperature at Constant Pressure - Detailed Explanation
- 38:37 Problem-23: Equilibrium between Two Phases - Detailed Explanation
- 39:31 Problem-24: Entropy Change with Volume - Detailed Explanation
- 40:49 Problem-25: Tank Filling - Detailed Explanation
- 41:21 Problem-26: Throttling of Ideal Gas - Detailed Explanation
- 42:27 Problem-27: Reversible Adiabatic Expansion in Turbine - Detailed Explanation
- 43:24 Problem-28: Minimum Work for Separating a Mixture - Detailed Explanation
- 44:30 Problem-29: Composition from Variation of Partial Molar Volume - Detailed Explanation
- 45:32 Problem-30: Partial Molar Enthalpy - Variables - Detailed Explanation
- 47:20 Problem-31: Partial Molar Enthalpy at Infinite Dilution - Detailed Explanation
- 47:50 Problem-32: Property of Mixture - Detailed Explanation
- 49:15 Problem-33: Ratio of Fugacity to Pressure of a Gas at Low Pressure - Detailed Explanation
- 50:25 Problem-34: Activity Coefficient from Excess Gibbs Free Energy - Detailed Explanation
- 50:42 Problem-35: Gibbs Free Energy & Chemical Potential - Detailed Explanation
- 52:58 Problem-36: Condition for Equilibrium - Detailed Explanation
- 53:13 Problem-37: Degree of Freedom at VLE - Detailed Explanation
- 54:39 Problem-38: VLE from Raoult's Law - Detailed Explanation
- 55:04 Problem-39: Minimum Boiling Azeotrope & Activity Coefficients - Detailed Explanation
- 55:36 Problem-40: Equilibrium Constant - Detailed Explanation
- 56:51 Problem-41: Conversion of Gaseous Reaction - Detailed Explanation
- 57:52 Problem-42: Equilibrium Constant vs Temperature - Detailed Explanation
- 59:07 Problem-43: Direction of Reaction with Changes in P&T - Detailed Explanation
- 59:58 Final Note of the Session
Last modified: Monday, 2 June 2025, 9:39 AM