Video Lectures of Basic Thermodynamics (Video Lectures) for Mechanical Engineering Exam
Watch free video lectures for Basic Thermodynamics (Video Lectures) covering all chapters/topics as per the latest syllabus in 2026. These concept videos, recorded lectures, and audio notes are designed to help Mechanical Engineering students understand every topic clearly — anytime, anywhere. Start learning on EduRev.
Introduction of Thermodynamics
| Understanding System and Surroundings in Thermodynamics - GATE Mechanical Engineering 39:06 min |  |
| Mastering Thermal Equilibrium - Part 1 - Basic Thermodynamics for GATE Mechanical Engineering 36:50 min | |
| Mastering Thermal Equilibrium - Part 2 - Basic Thermodynamics for GATE Mechanical Engineering 34:04 min | |
| Basics of Thermodynamic Properties - GATE Mechanical Engineering 30:13 min | |
| Understanding Energy Concepts in Thermodynamics - GATE Mechanical Engineering 10:45 min | |
| Simplified Heat Transfer in Thermodynamics - GATE Mechanical Engineering 20:36 min | |
| Basics Work Transfer Concepts for GATE Mechanical Engineering Thermodynamics 31:53 min | |
| Basics Work Transfer Concepts - 1 for GATE Mechanical Engineering Thermodynamics 09:28 min | |
| Basics Work Transfer Concepts - 2 for GATE Mechanical Engineering Thermodynamics 17:01 min | |
| Basics Work Transfer Concepts - 3 for GATE Mechanical Engineering Thermodynamics 25:39 min | |
| Basics Work Transfer Concepts - 4 for GATE Mechanical Engineering Thermodynamics 31:02 min | |
| Basics Work Transfer Concepts - 5 for GATE Mechanical Engineering Thermodynamics 39:15 min | |
| Basics Work Transfer Concepts - 6 for GATE Mechanical Engineering Thermodynamics 17:31 min | |
| Basics Work Transfer Concepts - 7 for GATE Mechanical Engineering Thermodynamics 23:46 min | |
| Basics Work Transfer Concepts - 8 for GATE Mechanical Engineering Thermodynamics 13:27 min | |
| Basics Work Transfer Concepts - 9 for GATE Mechanical Engineering Thermodynamics 47:44 min | |
| Simplified Heat Transfer in Thermodynamics - 10 GATE Mechanical Engineering 58:16 min | |
| Understanding Net Work Transfer Numerical(1) : GATE Mechanical Engineering Thermodynamics 28:07 min | |
| Understanding Net Work Transfer Numerical(2) : GATE Mechanical Engineering Thermodynamics 21:30 min | |
| Understanding Net Work Transfer Numerical(3) : GATE Mechanical Engineering Thermodynamics 30:50 min | |
| Understanding Net Work Transfer Numerical(4) : GATE Mechanical Engineering Thermodynamics 17:56 min | |
| Understanding Net Work Transfer Numerical(5) : GATE Mechanical Engineering Thermodynamics 16:51 min | |
| Understanding Net Work Transfer Numerical(6) : GATE Mechanical Engineering Thermodynamics 20:51 min | |
| Understanding Net Work Transfer Numerical(7) : GATE Mechanical Engineering Thermodynamics 26:30 min | |
| Understanding Net Work Transfer Numerical(9) : GATE Mechanical Engineering Thermodynamics 22:17 min | |
| Understanding Net Work Transfer Numerical(11) : GATE Mechanical Engineering Thermodynamics 18:49 min | |
| Understanding Net Work Transfer Numerical(12) : GATE Mechanical Engineering Thermodynamics 18:10 min | |
| Numerical (13) - Heat Transfer in Thermodynamics Explained - GATE Mechanical Engineering 28:22 min | |
First law of Thermodynamics (Closed System)
| Understanding Thermodynamic Energy Balance - GATE Mechanical Engineering 29:46 min | |
| Simplified Energy Balance in Closed Systems 1 - Thermodynamics for GATE Mechanical Engineering 21:31 min | |
| Simplified Energy Balance in Closed Systems 2 - Thermodynamics for GATE Mechanical Engineering 40:23 min | |
| Simplified Energy Balance in Closed Systems 3 - Thermodynamics for GATE Mechanical Engineering 26:41 min | |
| Acceleration of Air by a Fan - First Law of Closed System Thermodynamics - GATE ME 20:20 min | |
| Concept of Enthalpy in First Law of Thermodynamics(Closed System) - GATE Mechanical Engineering 20:50 min | |
| GATE Mechanical Engineering: Enthalpy of Compressed Liquid - Closed System Thermodynamics 22:50 min | |
| Heating of Gas by Stirring Numerical (2) -Thermodynamics closed systems GATE Mechanical Engineering 27:13 min | |
| Resistance Heating (3) -Thermodynamics closed systems GATE Mechanical Engineering 21:09 min | |
| Heating Gas at Constant Pressure (4)-Thermodynamics closed systems GATE Mechanical Engineering 20:56 min | |
| Simplified Specific Heat Concepts: Substance 1 - GATE Mechanical Engineering Thermodynamics 24:03 min | |
| Simplified Specific Heat Concepts: Substance 2 - GATE Mechanical Engineering Thermodynamics 25:10 min | |
| Simplified Specific Heat Concepts: Substance 3 - GATE Mechanical Engineering Thermodynamics 18:34 min | |
| Cooling of an Iron Block by Water (5) -Thermodynamics closed systems GATE Mechanical Engineering 17:21 min | |
| Cooling of Copper by Oil (6) -Thermodynamics closed systems GATE Mechanical Engineering 05:33 min | |
| Spring with Two Stopes System (9) -Thermodynamics closed systems GATE Mechanical Engineering 15:07 min | |
| Expansion of Water in Room (11) -Thermodynamics closed systems GATE Mechanical Engineering 07:46 min | |
| Energy transfer by a Computer (12) -Thermodynamics closed systems GATE Mechanical Engineering 10:50 min | |
| Tank A and Cylinder B (13) -Thermodynamics closed systems GATE Mechanical Engineering 14:45 min | |
First law of Thermodynamics (Open System)
| Mass Conservation in Opened Systems - GATE Machinal Engineering - Thermodynamics 25:21 min | |
| Understanding Flow Work: First Law in Thermodynamics - GATE Mechanical Engineering 24:35 min | |
| GATE Mechanical Engineering : Exploring Total Energy in Opened Systems - Thermodynamic First Law 19:25 min | |
| Steady-Flow System (SSSF) in Opened Systems - GATE Mechanical Engineering Thermodynamics 43:26 min | |
| Simplified Throttling Process Concepts - GATE Mechanical Engineering Thermodynamics 27:42 min | |
| N1 Acceleration of Fluid in Nozzle 20:48 min | |
| Numerical (2): Air Compression by Compressor - GATE Mechanical Engineering Thermodynamics 23:18 min | |
| Numerical (3): Cooling of Air by Water - GATE Mechanical Engineering Thermodynamics 24:33 min | |
| Numerical(4)-Deceleration of Air in a Diffuser - GATE Mechanical Engineering Thermodynamics 12:30 min | |
| Numerical(5)-Power Generation by a Steam Turbine - GATE Mechanical Engineering Thermodynamics 13:27 min | |
| Numerical(6)- Expansion of Refrigerant - GATE Mechanical Engineering Thermodynamics 25:29 min | |
| Numerical(7)-Mixing of Hot and Cold Air - GATE Mechanical Engineering Thermodynamics 09:59 min | |
| Numerical(8)- Geothermal Supply - GATE Mechanical Engineering Thermodynamics 13:38 min | |
First law of Thermodynamics (Unsteady-Flow Process)
| Analyzing Energy in Unsteady-Flow Process - GATE Mechanical Engineering Thermodynamics 22:35 min | |
| Solving Unsteady-Flow Numerical (1)- Rigid Tank Charge - Gate Mechanical Engineering Thermodynamics 28:47 min | |
| Unsteady-Flow Numerical(2)-Charging of a Rigid Tank as Closed-System- Gate ME Thermodynamics 17:28 min | |
| Solving Unsteady-Flow Numerical(3)-Discharging of a Tank -Gate Mechanical Engineering Thermodynamics 17:03 min | |
| Solving Unsteady-Flow Numerical(5) - Steam Engine Based on Steam Turbine - Gate ME Thermodynamics 25:55 min | |
| Solving Unsteady - Numerical(7) - Discharging of Saturated vapour - Gate ME Thermodynamics 21:14 min | |
The Second law of Thermodynamics
| Explaining the Second Law of Thermodynamics - GATE Mechanical Engineering 37:01 min | |
| Basics of Thermal Energy Reservoirs - GATE Mechanical Engineering - Second law of Thermodynamics 13:26 min | |
| Explained Heat Engines - GATE Mechanical Engineering Second law of Thermodynamics 32:35 min | |
| Kelvin Plank Statement - Second law of Thermodynamics - GATE Mechanical Engineering 28:44 min | |
| Simplified: Equivalence of Two Statements in Thermodynamics - GATE Mechanical Engineering 11:30 min | |
| Perpetual Motion Machines: Second Law of Thermodynamics - GATE Mechanical Engineering 12:08 min | |
| Mastering Perpetual Motion Machines - Second law of Thermodynamics - GATE Mechanical Engineering 22:46 min | |
| Factors Behind Irreversible Processes - Second law of Thermodynamics GATE Mechanical Engineering 39:30 min | |
| Explained: Internal & External Reversible Processes in Second law of Thermodynamics - GATE ME 42:14 min | |
| Understanding the Carnot Principles in Thermodynamics - GATE Mechanical Engineering 41:30 min | |
| Simplified Carnot Heat Engine Concepts in second law of Thermodynamics - GATE Mechanical Engineering 18:30 min | |
| N2 Heating a House by Carnot Heat Pump - Second Law of Thermodynamics | GATE Mechanical Engineering 15:13 min | |
| N5 Indo reversible Cycle - Second Law of Thermodynamics | GATE Mechanical Engineering 18:32 min | |
Entropy in Basic Thermodynamics
| Explained: Quantitative Parameters in Entropy - GATE Mechanical Engineering Thermodynamics 17:58 min | |
| Mastering GATE Mechanical Engineering: Extent of Irreversibility 1 in Thermodynamics Entropy 25:19 min | |
| Unlocking Clausius Inequality 1 in Thermodynamics Entropy - GATE Mechanical Engineering 32:28 min | |
| Unlocking Clausius Inequality 2 in Thermodynamics Entropy - GATE Mechanical Engineering 21:40 min | |
| Reversible and Adiabatic Process in Entropy Thermodynamics - GATE Mechanical Engineering 17:05 min | |
| Entropy in Basic Thermodynamics T-ds Relations Made Easy - GATE Mechanical Engineering 44:32 min | |
| Explained: Entropy Change of Incompressible Substance - GATE Mechanical Engineering Thermodynamics 13:09 min | |
| Explained: Change in Entropy for Ideal Gas - GATE Mechanical Engineering Thermodynamics 20:54 min | |
| Explained: Work Transfer During Adiabatic Process - GATE Mechanical Engineering Thermodynamics 32:34 min | |
| Explained: Entropy Change of Polytropic Process - GATE Mechanical Engineering Thermodynamics 27:09 min | |
| Explained: Reversible Polytropic Process - GATE Mechanical Engineering Thermodynamics 21:05 min | |
| Explained: Entropy Generation - GATE Mechanical Engineering Thermodynamics 30:09 min | |
| Explained: Principle of Inc. of Entropy - GATE Mechanical Engineering Thermodynamics 35:16 min | |
| Entropy Balance 1 in Basic Thermodynamics - GATE Mechanical Engineering 22:05 min | |
| Entropy Balance 2 in Basic Thermodynamics - GATE Mechanical Engineering 26:55 min | |
| Entropy Balance 3 in Basic Thermodynamics - GATE Mechanical Engineering 29:50 min | |
| Entropy Balance 4 in Basic Thermodynamics - GATE Mechanical Engineering 30:56 min | |
| Entropy Balance 5 in Basic Thermodynamics - GATE Mechanical Engineering 35:00 min | |
| Entropy Balance 6 in Basic Thermodynamics - GATE Mechanical Engineering 17:57 min | |
| Entropy Balance 7 in Basic Thermodynamics - GATE Mechanical Engineering 16:09 min | |
| Reversible Steady-Flow Work 1 | Entropy in Basic Thermodynamics | GATE Mechanical Engineering 20:07 min | |
| N1 - Total Entropy Generation With Two Stops System | Thermodynamics | GATE Mechanical Engineering 36:05 min | |
| N2 - Process is Possible or Not | Thermodynamics | GATE Mechanical Engineering 14:29 min | |
| N4 - Spring Loaded Piston Cylinder | Entropy in Basic Thermodynamics | GATE Mechanical Engineering 12:45 min | |
| N6 - HE with Hydraulic Press | Entropy in Basic Thermodynamics | GATE Mechanical Engineering 14:09 min | |
| N7 - Turbine with HE | Entropy in Basic Thermodynamics | GATE Mechanical Engineering 12:21 min | |
| N8 - Entropy Generation in a HE | Entropy in Basic Thermodynamics | GATE Mechanical Engineering 31:50 min | |
| N9 - Entropy Generation of Tank Filling with Spring | Thermodynamics | GATE Mechanical Engineering 27:11 min | |
| N10 - Entropy Generation with Polytopic Process | Thermodynamics | GATE Mechanical Engineering 21:00 min | |
| N11 - Compressing of Lquid by Pump | Entropy in Basic Thermodynamics | GATE Mechanical Engineering 11:12 min | |
Exergy (Availability)
| Exergy (Availability) - Work Potential of Energy 2 | Thermodynamics | GATE Mechanical Engineering 24:59 min | |
| Explained: Actual Work in Exergy (Availability) | Thermodynamics | GATE Mechanical Engineering 37:10 min | |
| GATE Mechanical Engineering | Exergy Balance in SSSF Process | Basic Thermodynamics 34:46 min | |
| Exergy Balance in Closed Systems - GATE Mechanical Engineering | Basics of Thermodynamics 28:31 min | |
| Irreversibility in Cooling Iron Block | Exergy in Thermodynamics | GATE Mechanical Engineering 27:10 min | |
| Exergy Efficiency in Second Law Analysis | GATE Mechanical Engineering | Basics of Thermodynamics 32:32 min | |
| Numerical (2): Second Law Analysis of Steam Turbine | Thermodynamics | Exergy in GATE ME 49:04 min | |
| Numerical (3): Irreversibility During Expansion Process | Thermodynamics | Exergy in GATE ME 35:40 min | |
| Numerical (4): Dropping a Hot Iron Block into Water | Thermodynamics | Exergy in GATE ME 35:22 min | |
| Numerical (5): Exergy Destruction | Thermodynamics | Exergy in GATE Mechanical Engineering 28:48 min | |
| Numerical (6): Exergy Destruction During Expansion of Steam | Thermodynamics | Exergy in GATE ME 34:11 min | |
| Numerical (7): Exergy Destroyed During Stirring of a Gas | Thermodynamics | Exergy in GATE ME 33:14 min | |
| Numerical (8): Exergy Destroyed During Mixing of Fluid Streams | Thermodynamics | Exergy in GATE ME 32:00 min | |
| Numerical (9): Second law efficiency of Heat Engine | Thermodynamics | Exergy in GATE ME 16:03 min | |
| Numerical (11): Second law efficiency of Heat Exchanger | Thermodynamics | Exergy in GATE ME 23:26 min | |
Thermodynamic Properties Relations
| Partial Derivatives and Associated Relations | Thermodynamics Properties Relations | GATE ME 29:53 min | |
| The Maxwell Relations | Thermodynamic Properties Relations | GATE Mechanical Engineering 23:05 min | |
| Understanding the Clapeyron Equation | Thermodynamics Properties Relations | GATE ME 17:38 min | |
| Simplified: General Relations for du; dh; ds; Cv; and Cp 1 in Thermodynamics | GATE ME 26:45 min | |
| Simplified: General Relations for du; dh; ds; Cv; and Cp 2 in Thermodynamics | GATE ME 13:00 min | |
| Numerical(1) hfg of a Substance from The p-v-T Data |Thermodynamic Properties Relations | GATE ME 08:21 min | |
| Mastering Joule-Kelvin Effect |Thermodynamic Properties Relations | GATE Mechanical Engineering 64:53 min | |
| Numerical(2) hfg of a Substance from The p-v-T Data |Thermodynamic Properties Relations | GATE ME 15:39 min | |
| Numerical(3) hfg of a Substance from The p-v-T Data |Thermodynamic Properties Relations | GATE ME 19:29 min | |
