PHYS446: Nuclear Physics II
Nuclear properties: nuclear sizes, masses, densities, and abundances; Nuclear models; nuclear reactions; nuclear fission and fusion; nuclear reactors |
PHYS447: Electronics II
Multivibrators (SR, D, JK and T-type flip-flops), Counters, Shift registers, Semiconductor memories, Introduction to Microprocessors and Microcomputers |
PHYS448: Particle Physics
Elementary particles and their interactions; hadrons and electrons, spin and anti-particles, conservation laws, quark model, field particles, electro-weak theory, standard model, grand unification theory |
PHYS449: Physics of Solids II
Lattice translation vectors, symmetry operations; types of lattices; simple crystal structures; crystal diffraction and the reciprocal lattice; Bragg's Law; reciprocal lattice vectors; Brillouin zones; Lattice vibrations; Lattice heat capacity; thermal... |
PHYS452: Quantum Mechanics II
Quantum mechanics in three dimensions; Hydrogen atom; General properties of angular momentum in quantum mechanics; System of identical particles; Electron spin; Time-independent perturbation theory; Variational principles; The WKB approximation; Scattering. |
PHYS454: Contemporary Physics
This course is at an introductory level, dealing with selected topics taken from current trends in Physics. It is aimed at motivating students in the subject and ensuring a general literacy in the frontiers of Physics. Areas covered include recent advances in... |
PHYS455: Energy Systems
Review of energy sources; conventional and non-conventional, renewable and non-renewable. Nuclear energy – fission, fusion, breeder reactors; solar energy – physical problems connected with conversion; technological problems and applications.... |
PHYS359: Physics of Solids I
Lattice translation vectors, symmetry operations; types of lattices; simple crystal structures; effect of deformation on crystals and their properties; crystal diffraction and the reciprocal lattice; Bragg's Law; experimental diffraction methods;... |
PHYS361: Physics of the Atmosphere
The Atmosphere – an introduction: Origin and composition of the atmosphere; Distribution of constituents; Charged particles; Temperature distribution. Thermodynamics of water vapour and moist air: Thermodynamics of dry and moist air, stability; changes... |
PHYS362: Principles of Applied Geophysics
Magnetic surveying – principles, geomagnetic field, interpretations, instruments and applications. Electrical surveying – resistivity of rocks and minerals, current flow in the ground, methods, instruments, interpretation, applications. Induced... |