YEAR I CORE: CREDIT 3 Semester I <<PHY1101C01>> : <<MECHANICS >> HOURS 45 I II <<SCALAR AND VECTOR FIELDS >> <<Scalar and vectors, Gradient, Divergence and Curl operations, Laplacian operator, Physical interpretation of gradient, divergence related problems and curl related problems, Gauss's divergence theorem, Stoke s theorem and its applications, related problems in vector algebra. Conservative forces: Conservative force as negative gradient of potential, Law of conservation of mechanical energy. <<MOTION UNDER CENTRAL FORCE >> <<Motion under a central force, Conservation of angular momentum, Kepler s laws, Gravitational Field and potential due to spherical bodies, Gauss and Poisson equations, Gravitational self-energy, Two-body problem; Reduced mass, scattering by hard spheres, Centre of mass and laboratory reference frames, Collisions in 2D & 3D, Calculation of final velocities of colliding particles and scattering angle. <<MECHANICS OF CONTINUOUS MEDIA >> << Elastic constants of an isotropic solid, Poisson s ratio, Relations connecting the elastic constants, Determination of Young s Modulus of a Material, Determination of Poisson s ratio (σ) of rubber, Dynamical method (Maxwell s needle) of determination of the coefficient of rigidity (η) of a wire. Bending of beam, Bending Moment, The cantilever, Determination of Y of the material of a cantilever case study. 1. Mechanics by D. S. Mathur (S Chand & Co. Ltd., N Delhi, 2006) 2. Berkley physics course (Vol. I ) Asian student Edition
YEAR I CORE: Semester I <<PHY1102C02>> : <<HEAT AND THERMODYNAMICS >> HOURS 30 <<HEAT >> <<Ideal gas : Review of the kinetic theory of an ideal gas model of an ideal gas; Interpretation of temperature, equi-partition of energy; Atomicity of gases and its relation with specific heats of gases I Real gas: Van der Waals model; Equation of state, Nature of Van der Waals forces, Critical constants, Mean free path, Transport phenomena, Transport of momentum (viscosity) of energy (thermal conduction) and matter (diffusion), Joule-Thomson and adiabatic cooling; Porous plug experiment, Constancy of U + pv, Liquefaction of gases: Cascade process, Principles of regenerative cooling, Linde s process Different methods for production (and measurement) of low temperatures. << >> <<Otto engine; Otto engine cycle, its efficiency, the second law, Thermodynamic scale of temperature, Concept of Entropy, Entropy change in reversible and irreversible processes, Principle of increase of entropy, Entropy as a thermodynamical behavior, Maxwell s thermo-dynamical equations, its application to Clausius-Clapeyron equation, Cooling due to adiabatic demagnetization (derivation) Simple applications : Black-body radiation: Thermal radiation, Stefan-Boltzmann law, Spectral distribution, Wien s displacement law, Rayleigh-Jeans Law and the ultraviolet catastrophe. 1. Heat and Thermodynamics by Brij lal and N Subramaniyam (S Chand & Co.Ltd, New Delhi) 2. Heat and Thermodynamics by A. B. Gupta and H. P. Roy (New Central Book Agency Pvt. Ltd., Kolkata 1999)
YEAR I CORE: CREDIT 3 Semester I <<PHY1103C03>> : << Physics Practical - I >> HOURS 45 <<Physics Practical - I >> << 1. Y. M. of a wire 2. M. I. of disc and rigidity of a wire 3. Bar Pendulum 4. Newton s rings 5. Dispersive power of prism 6. N. L. of cooling 7. μ of liquid 8. CVAT 9. Melde s experiment 10. Bending of beam>> 45 hrs.
YEAR I Subsidiary: CREDIT 3 Semester I <<PHY1104S01>> : <<MECHANICS >> HOURS 45 I II <<SCALAR AND VECTOR FIELDS >> <<Scalar and vectors, Gradient, Divergence and Curl operations, Laplacian operator, Physical interpretation of gradient, divergence related problems and curl related problems, Gauss's divergence theorem, Stoke s theorem and its applications, related problems in vector algebra. Conservative forces: Conservative force as negative gradient of potential, Law of conservation of mechanical energy. <<MOTION UNDER CENTRAL FORCE >> <<Motion under a central force, Conservation of angular momentum, Kepler s laws, Gravitational Field and potential due to spherical bodies, Gauss and Poisson equations, Gravitational self-energy, Two-body problem; Reduced mass, scattering by hard spheres, Centre of mass and laboratory reference frames, Collisions in 2D & 3D, Calculation of final velocities of colliding particles and scattering angle. <<MECHANICS OF CONTINUOUS MEDIA >> << Elastic constants of an isotropic solid, Poisson s ratio, Relations connecting the elastic constants, Determination of Young s Modulus of a Material, Determination of Poisson s ratio (σ) of rubber, Dynamical method (Maxwell s needle) of determination of the coefficient of rigidity (η) of a wire. Bending of beam, Bending Moment, The cantilever, Determination of Y of the material of a cantilever case study. 1. Mechanics by D. S. Mathur (S Chand & Co. Ltd., N Delhi, 2006) 2. Berkley physics course (Vol. I ) Asian student Edition
YEAR I Subsidiary: Semester I <<PHY1105S02>> : <<HEAT AND THERMODYNAMICS >> HOURS 30 <<HEAT >> <<Ideal gas : Review of the kinetic theory of an ideal gas model of an ideal gas; Interpretation of temperature, equi-partition of energy; Atomicity of gases and its relation with specific heats of gases I Real gas: Van der Waals model; Equation of state, Nature of Van der Waals forces, Critical constants, Mean free path, Transport phenomena, Transport of momentum (viscosity) of energy (thermal conduction) and matter (diffusion), Joule-Thomson and adiabatic cooling; Porous plug experiment, Constancy of U + pv, Liquefaction of gases: Cascade process, Principles of regenerative cooling, Linde s process Different methods for production (and measurement) of low temperatures. << >> <<Otto engine; Otto engine cycle, its efficiency, the second law, Thermodynamic scale of temperature, Concept of Entropy, Entropy change in reversible and irreversible processes, Principle of increase of entropy, Entropy as a thermodynamical behavior, Maxwell s thermo-dynamical equations, its application to Clausius-Clapeyron equation, Cooling due to adiabatic demagnetization (derivation) Simple applications : Black-body radiation: Thermal radiation, Stefan-Boltzmann law, Spectral distribution, Wien s displacement law, Rayleigh-Jeans Law and the ultraviolet catastrophe. 1. Heat and Thermodynamics by Brij lal and N Subramaniyam (S Chand & Co.Ltd, New Delhi) 2. Heat and Thermodynamics by A. B. Gupta and H. P. Roy (New Central Book Agency Pvt. Ltd., Kolkata 1999)
YEAR I Subsidiary: CREDIT 3 Semester I <<PHY1106S03>> : << Physics Practical - I >> HOURS 45 << Physics Practical - I >> 1. Y. M. of a wire 2. M. I. of disc and rigidity of a wire 3. Bar Pendulum 4. Newton s rings 5. Dispersive power of prism 6. N. L. of cooling 7. μ of liquid 8. CVAT 9. Melde s experiment 10. Bending of beam 45 hrs.
YEAR I Elective: Semester I <<PHY1001E01>> : <<THERMODYNAMICS & NEW MATERIALS>> HOURS 30 I <<Heat and Thermodynamics >> << - Joule Thomson and adiabatic cooling. - Joule Thomson s porous plug experiment and its outcome - Liquefaction of Gases: Cascade Process. - Principle of Regenerative cooling Joule, - Liquefaction of air by Linde s process, - Cooling due to Adiabatic demagnetization process - Measurements of low temperature - Application of heat: Otto Engine, Otto Engine cycle, its efficiency>> <<New Emerging Materials >> << - Metallic Glasses: Overview, Preparation, Examples and Applications - Nano materials: Overview, General information, Preparation, Properties, Examples and Applications. - Shape Memory Alloys: Overview, working, Shape memory Effects, Synthesis, examples and Applications - Bio Materials: Overview, General Information, Applications>> 1. Heat and Thermodynamics by Brijlal and Subramaniyam (S Chand and Co. Ltd., New Delhi) 2. Engineering Physics by K Rajagopal, (PHI learing (P) Ltd, New Delhi, 2008) 3. A Text Book of engineering Physics by M N Avadhanulu and P G Kshirsagar, (S Chand and Co. Ltd., New Delhi, 2008)
YEAR I Elective: Semester I <<PHY1002E02>> : <<ULTRASONIC & FIBRE COMMUNICATION >> HOURS 30 I <<ULTRASONICS >> << - Generation of Ultrasonics - Piezoelectric Effect - Quartz Crystal - Piezoelectric Generator, Advantage of Piezoelectric Generator - Magnetostriction Effect - Advantage & disadvantage of Magnetostriction Oscillator - Direction of Ultrasonics - Properties of Ultrasonics - Determination of wavelength and Velocity of Ultrasonics, Wave in liquids - Applications of Ultrasonics in Engineering>> <<OPTICAL FIBRE COMMUNICATION>> << - Basic Principle Involved in Optical Fibre Transmission - Fibre Geometry - Acceptance Angle and Numerical Aperture - Type of Fibres - Optic Fibre Materials - Optical Fibre Communication: An Overview - Merits of Optical Fibre Communication - Optical Fibre Sensors, Pressure Sensor, Displacement Sensor>> 1. Engineering Physics by K Rajagopal, (PHI learning (P) Ltd, New Delhi, 2008) 2. A Text Book of engineering Physics by M N Avadhanula and P G Kshirsagar, (S Chand and Co. Ltd., New Delhi, 2008)
YEAR I Foundation: Semester I <<PHY1007F01>> : <<Radiation Physics>> HOURS 30 & II <<IN BASIC OF RADIATION PHYSICS: AN INTRODUCTION >> << Classification of Fundamental particles Classification of radiations Classification of ionizing photon radiations Radiation quantities and units Atomic and nuclear structure Rutherford model of the atom, Bohr s model of hydrogen atom Nuclear structure Nuclear reactions Radioactivity, Activation of nuclei, Mode of radioactive decay Electron interactions Stopping power Dose distribution in water for various radiation beam>> 1. Basic radiation physics: E.B. Podgorsak, Canada 2. Review of Radiation 30 hrs.