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. |
PHYS352: Quantum Mechanics I
Principles of quantum mechanics; Time-independent Schrödinger equation; Interpretation of wave properties as probability amplitudes; Superposed energy states; Uncertainty principle; Lifetimes; Moving wave packets; One dimensional scattering; Potential wells... |
PHYS354: Special Relativity
Invariance of Physical Laws; relativity of time intervals; Relativity of length; Lorentz transformation; Doppler effect for electromagnetic waves; Relativistic momentum; Relativistic work and energy; Newtonian Mechanics and Relativity. |
PHYS356: Computational Methods in Physics II
Random systems; Monte Carlo methods; Random walks, diffusion, and the Ising model; Phase transitions; Molecular dynamics; Variational and Spectral methods; Hartree-Fock method: helium atom, hydrogen ion; Periodic potentials and band structures; Self-organized... |
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... |
PHYS364: Principles and Applications of Neutron Activation Analysis
Irradiation facilities: Neutron Sources; Nuclear Reactors Source; Isotopic Neutron Sources; Neutron Generator (Accelerator) Sources; Kinetics of activation: Irradiation Scheme (Conditions); Gamma Ray Spectrometry (Measurement of Gamma Rays). Absolute Method;... |