Coming soon
Thermal Physics and Statistical Physics
Course Objectives:
This course will enable the students to acquaint themselves with basic laws of thermodynamics and statistical physics, methods of producing low temperatures, Carnots engine so that they develop the scientific attitude to relate this knowledge to their daily life experiences. They learn about the efficiency and develop an aptitude to design more efficient systems.
Course Outcomes (COs):
|
Course |
Learning outcome (at course level)
|
Learning and teaching strategies |
Assessment Strategies |
|
|
Paper Code |
Paper Title |
|||
|
CPHY 301 |
Thermal Physics and Statistical Physics (Theory) |
The students will be able to CO22 : Understand the basic concepts of thermodynamics, Zeroth, first and second law of thermodynamics, entropy and the associated theorems, Carnot’s engine. CO23: develop the concept ofthermodynamic potentialsand their physical interpretations, derive Maxwells thermodynamic relations and apply them . CO24: Compare different methods to produce low temperatures and differentiate between He I and He II CO25 : Understand basic aspects of kinetic theory of gases and apply them. CO26 : Compare and analyze different types of Statistics.
|
Approach in teaching: Interactive Lectures, Discussion, Tutorials, Power point presentation, Problem Solving in tutorials Learning activities for the students: Self learning assignments, Effective questions, Seminar presentation, Solving numericals Class test, Semester end examinations, Quiz, Solving problems, Assignments, Presentations |
Class test, Semester end examinations, Quiz, Solving problems, Assignments, Presentations |
The Zeroth law, Various indicator diagrams (P-V diagram), First law of thermodynamics, Reversible and irreversible processes, Carnot’s engine, Carnot’s cycle and efficiency of Carnot’s engine, reversibility of Carnot’s engine, Carnot’s theorem. Second law of thermodynamics, (different statements and their equivalence) Entropy, Principle of increase of entropy, Thermodynamic scale of temperature, Thermodynamic scale as an absolute scale, Third law of thermodynamics, Nernst heat theorem.
Triple point, Clausius Clapyron latent heat equation, Effect of pressure on boiling point of liquids, Thermodynamic potentials : Helmholtz free energy, Enthalpy, Gibbs function, Internal energy, , Deduction of Maxwell’s relations from thermodynamic potentials.
Maxwell’s Thermodynamic Relations: Derivations of Maxwell’s Relations, Applications of Maxwell’s Relations: Clausius Clapeyron equation, Values of Cp-Cv, Joule-Thomson coefficient for Ideal and Van der Waal Gases, Change of Temperature during Adiabatic Process.
Joule Thomson expansion and JT coefficient for ideal as well as Vander Waals gas, Porous plug experiment, Temperature of inversion, Regenerative cooling, cooling by adiabatic expansion and demagnetization, liquid He, He I and He II, Peculiar properties of He II.
Distribution law of molecular velocities, Most probable, Average and RMS velocities, energy distribution function, Experimental verification of Maxwell velocity distribution, Principle of equipartition of energy.
Mean free path and collision cross section, distribution of mean free path, Transport of mass, momentum and energy and their interrelationship, (coefficient of viscosity, thermal conductivity & diffusion)
Phase space, micro and macro states, Thermodynamic probability, relation between entropy and thermodynamic probability, Monatomic ideal gas, specific heat capacity of diatomic gas and specific heat of solids.
Quantum Statistics:Failure of classical statistics (Blackbody radiation and various laws of distribution of radiation, qualitative discussion of Weins and Rayleigh Jeans Law), Postulates of quantum statistics ,Bose Einstein statistics and its distribution function, Planck’s distribution function and radiation formula, Fermi Dirac statistics and its distribution function.
1. “Heat and Thermodynamics”, Singhal, Agarwal and Prakash, Pragati Prakashan.
2. “Heat and Thermodynamics”, Brijlal and Subramaniam, S. Chand & Sons.
3. “Thermodynamics and Statistical Mechanics”, S. L. Kakani, Sultan Chand & Sons.
Suggested Readings:
- 1. “Statistical and Thermal Physics”, S. Loknathan and R.S. Gambhir, Prentice Hall, New Delhi 1991.
- 2. “Thermodynamics, kinetic theory of gases and Statistical Mechanics”, F. W. Sears, G. L. Salinger, Narosa Pub. House.
- 3.“Introduction to Statistical Mechanics”, B.B. Laud, Mc Milan India Ltd.
- 4.“Fundamentals of Statistical and Thermal Physics”, Federick Reif, Tata Mc Graw Hill, 1992.
- “Heat and Thermodynamics”, M.S.Yadav, Anmol Publications.
- “Fundamentals of Statistical Physics”, A.K. Das Gupta, New Central Book Company, Calcutta, 2003.
E-Content:
