Hello,Welcome to StudentBro.
Hello,Welcome to StudentBro.
Hello,Welcome to StudentBro.
Thermodynamics is a key chapter in NEET Physics that studies the relationship between heat, work, and energy in a system. Understanding thermodynamics is crucial for solving questions on energy transfer, internal energy, and thermodynamic processes.
StudentBro notes provide structured, NEET-focused explanations along with derivations and solved examples to make preparation easier.
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1. Vectors |
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2. Units and Measurements |
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3. Motion In a Straight Line |
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4. Motion In A Plane |
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5. Laws of Motion |
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6. Friction |
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7. Work, Energy and Power |
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8. System Of Particles and Rotational Motion |
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9. Gravitation |
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10. Elasticity |
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11. Surface Tension |
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12. Mechanical Properties of Fluids |
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13. Thermal Properties of Matter |
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14. Kinetic Theory |
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15. Thermodynamics |
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16. Transmission of Heat |
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17. Simple Harmonic Motion |
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18. Wave and Sound |
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19. Current Electricity |
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20. Heating & Chemical Effects of Current |
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21. Magnetic Effect of Current |
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22. Magnetism And Matter |
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23. Electromagnetic Induction |
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24. Alternating Current |
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25. Dual Nature Of Radiation And Matter |
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26. Atomic And Nuclear Physics |
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27. Semiconductor Electronics |
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28. Communication |
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29. Ray Optics And Optical Instruments |
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30. Wave Optics |
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31. Universe |
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32. Physics Formula PDF for Entrance Exam |
System: Part of the universe under study (e.g., gas in a cylinder)
Surroundings: Everything outside the system
Boundary: Separates system and surroundings
State of a system: Defined by properties like pressure, volume, temperature, and internal energy
NEET often tests conceptual understanding of system types: open, closed, and isolated.
Definition: Work done by the system is the energy transferred when a force is applied through a distance.
Formula: W = ∫ P dV
Positive if work is done by the system, negative if done on the system
NEET numerical problems often include work done in expansion or compression of gases.
Definition: Energy transferred between system and surroundings due to temperature difference
Modes: Conduction, Convection, Radiation
Positive if heat is absorbed by the system, negative if released
NEET questions may involve calculating heat absorbed or released during thermodynamic processes.
Definition: Total energy associated with the microscopic motion of particles in the system
Depends on temperature and state of the system
Change in internal energy: ΔU = Q − W for reversible processes
NEET numericals often involve internal energy change in isothermal, adiabatic, or isobaric processes.
Statement: Energy of a system is conserved; heat added = increase in internal energy + work done by the system
Formula: ΔU = Q − W
Special cases:
Isothermal process (ΔU = 0): Q = W
Adiabatic process (Q = 0): ΔU = −W
Isochoric process (W = 0): ΔU = Q
Isobaric process (constant P): Q = ΔU + PΔV
NEET questions test both conceptual understanding and numerical calculations using these formulas.
Isothermal Process: Temperature constant, internal energy does not change, work done equals heat absorbed.
Adiabatic Process: No heat exchange, work done changes internal energy.
Isobaric Process: Constant pressure, heat supplied partly does work and partly changes internal energy.
Isochoric Process: Constant volume, no work done, all heat changes internal energy.
StudentBro notes provide stepwise examples for each process for NEET preparation.
At constant volume (C_v): Q = n C_v ΔT
At constant pressure (C_p): Q = n C_p ΔT
Relation: C_p − C_v = R (for ideal gases)
NEET numericals often include heat capacity problems for monoatomic and diatomic gases.
Definition: H = U + P V
Change in enthalpy: ΔH = ΔU + PΔV
Useful in isobaric processes for calculating heat absorbed
NEET conceptual questions may ask for relation between ΔH and Q at constant pressure.
Area under the P–V curve represents work done
NEET numericals often include work done in expansion, compression, and cyclic processes.
StudentBro notes provide diagrammatic methods for quick understanding.
Calculating internal energy change in various processes
Determining work done and heat transferred
Solving isothermal, adiabatic, isobaric, and isochoric problems
Understanding thermodynamic cycles such as Carnot cycle
NEET may include questions connecting first law of thermodynamics with calorimetry and gas laws
Memorize formulas for ΔU, Q, W, C_v, C_p, and ΔH
Understand the direction of heat and work in different processes
Solve P–V diagram-based numerical problems for clarity
Practice cyclic processes and first law applications
Visualize energy flow in isothermal and adiabatic processes
StudentBro notes emphasize stepwise methods and diagrams for better retention.
Covers first law of thermodynamics, internal energy, work, heat, specific heats, and thermodynamic processes
Includes step-by-step derivations, solved examples, and diagrams
Structured for easy revision and conceptual clarity
Focused on NEET syllabus and high-yield problems
These notes ensure aspirants can confidently tackle thermodynamics questions in NEET exams.
The chapter Thermodynamics is a vital part of NEET Physics under heat and energy. Mastery of internal energy, first law of thermodynamics, heat, work, and thermodynamic processes is essential for solving both conceptual and numerical problems.
StudentBro NEET Physics notes provide structured, clear, and exam-focused guidance, enabling aspirants to confidently solve thermodynamics questions and excel in NEET exams.
