The syllabus for BSc Physics is:
Mathematical physics |
Vector Calculus. Orthogonal Curvilinear Coordinates. Multiple Integrals. Some Special Integrals. |
Mechanics |
Fundamentals of Dynamics. Rotational Dynamics. Gravitation and Central Force Motion. Elasticity. |
Chemistry |
Bonding. Organization of Solids. Weak Chemical Forces. Organic Chemistry. |
Technical Writing & Communication in English |
Communication. Writing Skills. Technical Writing. Thesis statement. |
Oscillations & Waves |
Oscillations. Free Oscillations. Velocity of Waves. |
Electricity and Magnetism |
Electric Circuits. Electric Field and Electric Potential. Dielectric Properties of Matter. Magnetic Field. |
Digital electronics |
Introduction to CRO Analog Circuits Digital Circuits Shift registers |
Microprocessors & Computer Programming |
Intel 8085 Microprocessor Architecture C & C++ Programming Languages Control Statements Arrays and Structures |
Thermal Physics |
Thermodynamics Kinetic Theory of Gases Distribution of Velocities Real Gases |
Mathematics |
Sequences of Real Numbers Functions of a Real Variable Uniform Continuity Mean-value Theorems |
Optics |
Geometrical Optics. Wave Optics. Interference. Diffraction. |
Mathematics-II (Analysis & Statistics) |
Analysis: Sequences and Series. Uniform Convergence and Integration. Improper Integrals. Beta and Gamma Functions. Statistics: Random Variables. Discrete and Continuous Distribution. Statistical Inference. Sampling Distribution of Mean-Variance. |
Numerical Analysis |
Errors and Iterative Methods. Matrices and Linear System of Equations. Interpolation. Curve Fitting, B-Splines, and Approximation. |
Quantum Mechanics |
Particles and Waves. Basic Postulates and Formalism. Applications of Schrödinger Wave Equation. Bound State Problems. |
Atomic and Molecular Physics |
Atoms in Electric and Magnetic Fields. Many electron atoms. Molecular Spectra. Lasers. |
Electronic Devices |
Circuit Analysis. Semiconductor Diodes. Bipolar Junction transistors. Amplifiers. |
Electromagnetic Theory |
Maxwell’s Equations. Reflection and Refraction of Electromagnetic Waves. Polarization of Electromagnetic Waves. Wave Guides. |
Statistical Physics |
Classical Statistics. Classical Theory of Radiation. Quantum Theory of Radiation. Bose-Einstein Statistics. |
Solid State Physics |
Crystal Structure. Elementary Lattice Dynamics. Magnetic Properties of Matter. Electrical Properties of Materials. |
Nuclear & Particle Physics |
Radioactivity. Nuclear Reactions. Detectors of Nuclear Radiations. Elementary Particles. |
Mechanics and wave motion |
Inertial reference frame. Central forces. Simple harmonic motion. Phase and group velocity. |
Kinetic theory and thermodynamics |
Ideal Gas. Liquefaction of gases. The laws of thermodynamics. Blackbody radiation. |