THERMAL PHYSICS & THERMODYNAMICS ( Physics Paper-1) Book B.Sc 3rd Sem Bihar
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Buy Latest ( Physics Paper-1 ) THERMAL PHYSICS & THERMODYNAMICS ( Major/Minor) Book in English language for B.Sc 3rd Semester Uniform Syllabus for all Universities of Bihar As Per NEP 2020 By Thakur Publication. Written by Experienced Authors | Fast & All India Delivery |
AUTHORS: Dr. Ajay kumar Thakur , Dr. Reena Kumari
ISBN : 978-93-6180-951-4
Syllabus
Thermal Physics and Thermodynamics
Course Code: MJCPHY-03
Major
Unit |
Subject |
No. of Lectures |
1 |
Kinetic Theory of Gases Maxwell-Boltzmann Molecular Speed distribution Law for an Ideal Gas. Mean, RMS and Most Probable Speed. Degrees of Froodom. Law of Equipurtition of Energy (no derivation). Molecular Collisions: Mean Free Path. Estimation of Mean Free Path. Transport Phenomenon in Ideal Gases: (1) Viscosity, (2) Thermal Conductivity and (3) Diffusion. Brownian motion, Langevin and Einstein’s theories and experimental determination of Avogadro's no., Rectilinear flow of heat in a metal rod, Relation between thermal & electrical conductivities. |
15 |
2 |
Real Gases Behavior of Real Gases. Van der Waal’s Equation of State for Real Gases. Values of Critical Constants. Law of Corresponding States. Joule-Thomson Porous Plug .Experiment, Joule/Thomson Effect for Real Gases. Joule-Thomson Cooling. |
09 |
3 |
Zeroth and First Law of Thermodynamics Extensive and intensive Thermodynamic Variables, Thermodynamic Equilibrium, Zeroth Law of Thermodynamics and Concept of Temperature, Work, Heat, State Functions and path functions, First Law of Thermodynamics, Internal Energy for ideal and real gases, Applications of First Law of thermodynamics in case of thin film, stretched wire, hydrostatics, and specific Molar Heat Capacity for gases, Relation between CP and CV. |
09 |
4 |
Second Law of Thermodynamics Cyclic, reversible and irreversible process, Carnot engine, Carnot cycle, Second Law of thermodynamics. Principle of heat engine and refrigerator Kelvin-Planck and Clausius Statements. Concept of Entropy, Clausius Inequality, Second Law in terms of Entropy, Temperature-Entropy diagrams. Third Law of thermodynamics, Thermodynamic Potentials: Internal Energy, Enthalpy, Helmholtz & Gibb’s Functions, Maxwell’s Relations, Co-efficient of performance, Clausius-Clapeyron equation and phase transition (1st and 2nd order) |
15 |
Syllabus
Thermal Physics and Thermodynamics
Course Code: MJCPHY-03
Major
Unit |
Subject |
No. of Lectures |
1 |
Kinetic Theory of Gases Maxwell-Boltzmann Molecular Speed distribution Law for an Ideal Gas. Mean, RMS and Most Probable Speed. Degrees of Froodom. Law of Equipurtition of Energy (no derivation). Molecular Collisions: Mean Free Path. Estimation of Mean Free Path. Transport Phenomenon in Ideal Gases: (1) Viscosity, (2) Thermal Conductivity and (3) Diffusion. Brownian motion, Langevin and Einstein’s theories and experimental determination of Avogadro's no., Rectilinear flow of heat in a metal rod, Relation between thermal & electrical conductivities. |
15 |
2 |
Real Gases Behavior of Real Gases. Van der Waal’s Equation of State for Real Gases. Values of Critical Constants. Law of Corresponding States. Joule-Thomson Porous Plug .Experiment, Joule/Thomson Effect for Real Gases. Joule-Thomson Cooling. |
09 |
3 |
Zeroth and First Law of Thermodynamics Extensive and intensive Thermodynamic Variables, Thermodynamic Equilibrium, Zeroth Law of Thermodynamics and Concept of Temperature, Work, Heat, State Functions and path functions, First Law of Thermodynamics, Internal Energy for ideal and real gases, Applications of First Law of thermodynamics in case of thin film, stretched wire, hydrostatics, and specific Molar Heat Capacity for gases, Relation between CP and CV. |
09 |
4 |
Second Law of Thermodynamics Cyclic, reversible and irreversible process, Carnot engine, Carnot cycle, Second Law of thermodynamics. Principle of heat engine and refrigerator Kelvin-Planck and Clausius Statements. Concept of Entropy, Clausius Inequality, Second Law in terms of Entropy, Temperature-Entropy diagrams. Third Law of thermodynamics, Thermodynamic Potentials: Internal Energy, Enthalpy, Helmholtz & Gibb’s Functions, Maxwell’s Relations, Co-efficient of performance, Clausius-Clapeyron equation and phase transition (1st and 2nd order) |
15 |
Syllabus
Thermal Physics and Thermodynamics
Course Code: MICPHY-03
Minor
Unit |
Subject |
No. of Lectures |
1 |
Kinetic Theory of Gases Maxwell-Boltzmann Molecular Speed distribution Law for an Ideal Gas. Mean, RMS and Most Probable Speeds. Degrees of Freedom. Law of Equipartition of Energy (no derivation). Molecular Collisions: Mean Free Path. Estimation of Mean Free Path. Transport Phenomenon in Ideal Gases (1) Viscosity, (2) Thermal Conductivity and (3) Diffusion. Brownian motion, Langevin and Einstein’s theories and experimental determination of Avogadro's no., Rectilinear flow of heat in a metal rod, relation between thermal & electrical conductivities. |
10 |
2 |
Real Gases Behavior of Real Gases. Van der Waal’s Equation of State for Real Gases. Values of Critical Constants. Law of Corresponding States. Joule-Thomson Porous Plug Experiment. Joule-Thomson Effect for Real Gases. Joule-Thomson Cooling. |
08 |
3 |
Zeroth and First Law of Thermodynamics Extensive and intensive Thermodynamic Variables, Thermodynamic Equilibrium, Zeroth Law of Thermodynamics and Concept of Temperature, Work, Heat, State Functions and path functions, First Law of Thermodynamics, Internal Energy for ideal and real gases, Applications of First Law of thermodynamics in case of thin film, stretched wire, hydrostatics, and specific Molar Heat Capacity for gases, Specific heat General Relation between CP and CV. |
05 |
4 |
Second Law of Thermodynamics Cyclic, reversible and irreversible process, Carrot engine, Carrot cycle, Principle of Refrigerator. Second Law of thermodynamics. Principal of heat engine and refrigerator Kelvin-Planck and Clausius Statements. Concept of Entropy, Clausius Inequality. Second Law in terms of Entropy, Temperature-Entropy diagrams. Third Law of thermodynamics, Thermodynamic Potentials: Internal Energy, Enthalpy, Helmholtz & Gibb's Functions, Maxwell’s Relations, Co-efficient of performance, Clausius-Clapeyron equation and phase transition (1st and 2nd) |
07 |
Syllabus
Thermal Physics and Thermodynamics
Course Code: MICPHY-03
Minor
Unit |
Subject |
No. of Lectures |
1 |
Kinetic Theory of Gases Maxwell-Boltzmann Molecular Speed distribution Law for an Ideal Gas. Mean, RMS and Most Probable Speeds. Degrees of Freedom. Law of Equipartition of Energy (no derivation). Molecular Collisions: Mean Free Path. Estimation of Mean Free Path. Transport Phenomenon in Ideal Gases (1) Viscosity, (2) Thermal Conductivity and (3) Diffusion. Brownian motion, Langevin and Einstein’s theories and experimental determination of Avogadro's no., Rectilinear flow of heat in a metal rod, relation between thermal & electrical conductivities. |
10 |
2 |
Real Gases Behavior of Real Gases. Van der Waal’s Equation of State for Real Gases. Values of Critical Constants. Law of Corresponding States. Joule-Thomson Porous Plug Experiment. Joule-Thomson Effect for Real Gases. Joule-Thomson Cooling. |
08 |
3 |
Zeroth and First Law of Thermodynamics Extensive and intensive Thermodynamic Variables, Thermodynamic Equilibrium, Zeroth Law of Thermodynamics and Concept of Temperature, Work, Heat, State Functions and path functions, First Law of Thermodynamics, Internal Energy for ideal and real gases, Applications of First Law of thermodynamics in case of thin film, stretched wire, hydrostatics, and specific Molar Heat Capacity for gases, Specific heat General Relation between CP and CV. |
05 |
4 |
Second Law of Thermodynamics Cyclic, reversible and irreversible process, Carrot engine, Carrot cycle, Principle of Refrigerator. Second Law of thermodynamics. Principal of heat engine and refrigerator Kelvin-Planck and Clausius Statements. Concept of Entropy, Clausius Inequality. Second Law in terms of Entropy, Temperature-Entropy diagrams. Third Law of thermodynamics, Thermodynamic Potentials: Internal Energy, Enthalpy, Helmholtz & Gibb's Functions, Maxwell’s Relations, Co-efficient of performance, Clausius-Clapeyron equation and phase transition (1st and 2nd) |
07 |