PHYS345: Electromagnetism II
Electromagnetic potentials: scalar and vector potentials; Poisson and Laplace equations; General methods of solving electrostatic problems; Electrostatic boundary value problems; Method of images; Magnetic materials, magnetization, magnetic field intensity H... |
PHYS347: Electronics I
Voltage, current and resistance; Voltage dividers; Thévenin’s and Norton’s equivalent circuits; Diodes and diode circuits; design of regulated power supply, basic transistor circuits (Bipolar-Junction Transistors and Field-Effect Transistors);... |
PHYS351: Optics
Fermat's principle; phenomena of geometrical and physical optics; thick lenses; apertures; interference; diffraction; polarization of EM waves; double refraction; lasers; holography; fibre optics; optical instruments; resolution. |
PHYS205: Practical Physics III
Laboratory experiments illustrating modern experimental techniques and error analysis. |
PHYS241: Atomic Physics and Quantum Phenomena
Quantum Phenomena |
PHYS242: Oscillations and Waves
Simple, damped and forced oscillations; decay of oscillations, resonance; general properties of waves; waves in one dimension; superposition of waves; dispersion and group velocity; Doppler effect; waves in physical media; waves in two and three dimensions,... |
PHYS244: Mathematical Methods I
Calculus of functions of several variables, partial differentiation, total differential, Euler's theorem on homogeneous functions; Constrained and unconstrained extrema, multiple integrals; Jacobian; Scalar and vector fields; Line, surface and volume... |
PHYS245: Electromagnetism I
Electric field and potential gradient; Gauss's law and it's applications; electric field around conductors; Dielectric medium: polar and non-polar molecules, electric polarization and bound charges; Displacement vector; Gauss's Law in dielectrics... |
PHYS246: Nuclear Physics I
Radioactivity, nuclear radiation; Detection of nuclear radiation; Structure and properties of the nucleus; binding energy and nuclear forces; Fission and fusion; Applications of radioactivity – Dating, radiology, radiotherapy, analysis. |
PHYS248: Introduction to Physics of Materials
Forces between atoms and molecules and their consequences; Elastic modulae – Young's, Shear, Bulk; Poisson ratio, non-elastic behaviour; Flow properties of fluids; Continuity equation, hydrostatic equation, Euler's and Bernoulli's equations... |