| Department |
Physics |
| Semester |
B.Sc-I (NEP) |
| Subject Name & Code |
1.1: MECHANICS AND PROPERTIES OF MATTER |
Course Outcomes (COs)
CO-1: Will learn fixing units, tabulation of observations, analysis of data (graphical/analytical)
CO-2: Will learn about accuracy of measurement and sources of errors, importance of significant figures.
CO-3: Will know how g can be determined experimentally and derive satisfaction.
CO-4: Will see the difference between simple and torsional pendulum and their use in the
determination of various physical parameters.
CO-5: Will come to know how various elastic moduli can be determined.
CO-6: Will measure surface tension and viscosity and appreciate the methods adopted.
CO-7: Will get hands on experience of different equipment.
| Department |
Physics |
| Semester |
B.Sc-II (NEP) |
| Subject Name & Code |
2.1: ELCTRICITY AND MAGNETISM |
Course Outcomes (COs)
i. Demonstrate Gauss law, Coulomb’s law for the electric field, and apply it to systems of point charges as well as line, surface, and volume distributions of charges.
ii. Explain and differentiate the vector (electric fields, Coulomb’s law) and scalar (electric potential, electric potential energy) formalisms of
electrostatics.
iii. Apply Gauss’s law of electrostatics to solve a variety of problems.
iv. Describe the magnetic field produced by magnetic dipoles and electric currents.
v. Explain Faraday-Lenz and Maxwell laws to articulate the relationship between electric and magnetic fields.
| Department |
Physics |
| Semester |
B.Sc-III (CBCS) |
| Subject Name & Code |
3.1: Electricity, Thermodynamics-I, Sound and Waves |
Students are able to learn & understand the following concepts
• Cardinal points of an optical system.
• Spherical and chromatic aberrations.
• Dynamics of a charged particle in electric and magnetic field.
• Gauss law in dielectrics.
• Statement and mechanism of Biot-Savarts law.
• Uses of C.R.O. & B.G.
| Department |
Physics |
| Semester |
B.Sc-IV (CBCS) |
| Subject Name & Code |
4.1: Thermodynamics-II, Statistical Mechanics and Optics |
Students are able to learn & understand the following concepts
• Interference of light and Michelson’s Interferometer.
• Diffraction of light, Zone plate, Fresnel, Fraunhoffer diffraction and polarization.
• Impedance and current in LCR circuit.
• Thomson, Peltier & Seebeck effects.
• Gradient, divergence and curl of vectors.
• Maxwell’s equations.
| Department |
Physics |
| Semester |
B.Sc-V (Optional) |
| Subject Name & Code |
5.1 PAPER-I: CLASSICAL MECHANICS, ELECTRONICS& RELATIVITY |
Students are able to learn & understand the following concepts
• Generalized coordinates, Degrees of freedom, Configuration space and Lagrange’s equation of motion.
• D’alemberts principle.
• Kepler’s laws of planetary motion.
• Lorentz transformation equations.
• Quantum computing and single electron transistor.
• Lorentz transformation equations, Thevenins and Norton’s theorem.
• FET construction working and characteristics.
• Amplifiers, feedback amplifier and oscillator.
| Department |
Physics |
| Semester |
B.Sc-V (Optional) |
| Subject Name & Code |
5.2 PAPER-II: QUANTUM MECHANICS AND SPECTROSCOPY |
Students are able to understand and implement the following concepts
• Heisenberg’s Uncertainty principle.
• Davisson and Germer experiment.
• Schrodinger time independent Wave equation.
• Vector atomic model of an atom.
• Normal and anomalous Zeeman effect using quantum theory.
• Raman effect based on quantum theory.
• Legendre, Bessel’s & Hermit’s Polynomials.
| Department |
Physics |
| Semester |
B.Sc-VI (Optional) |
| Subject Name & Code |
6.1 PAPER-I: SOLID STATE PHYSICS, NUCLEAR PHYSICS, ENERGY SOURCES, DIGITAL ELECTRONICS AND SPECIAL MATERIALS |
Students are able to understand and implement the following concepts
• Structure, composition and thermal properties like thermal capacity thermal conductivity and electrical conductivity of the solid materials.
• Different models of the atoms, structure of the nucleus and elementary particles.
• Renewable and non renewable energy Sources.
• Advantages and disadvantages of renewable and non renewable energy Sources.
• Liquid crystals and its applications.
• Demorgans theorem and different truth tables.
• Design logic gates using NOR and NAND gates.
• Applications of Polymers.
| Department |
Physics |
| Semester |
B.Sc-VI (Optional) |
| Subject Name & Code |
6.3 PAPER-II: INTEGRAL TRANFORMS,OPTOELECTRONICS, COMMUNICATION, PROGRAMMING AND INTEGRATED ELECTRONICS |
Students are able to learn and implement the following concepts
• Fourier and Laplace transform.
• opto-coupler and working of LED.
• Applications of optical fibers and LASER diode.
• Wave propagation and Modulation.
• Algorithm, flow chart, constants ,variables and C-tokens.
• Applications of IC and OP-amps.
