PHYS365: Physics of the Ocean
Physical properties of the ocean and seawater, sound and light; T-S forcing and conservation laws, Global T-S distribution; Equations of continuity and motion; Balance of forces; the effect of Earth's rotation; Ocean currents; Deep currents and general... |
PHYS305: Practical Physics V
Laboratory experiments including those fundamental to modern physics and those illustrating modern experimental techniques. Students are introduced to Scientific Report writing and making references. |
PHYS306: Practical Physics VI
Laboratory experiments including those fundamental to modern physics and those illustrating modern experimental techniques. Students are introduced to Scientific Report writing and making references. |
PHYS342: Mechanics and Fields
Divergence and curl of a vector; Force Fields, conservative and non-conservative forces; Gravitation; Equipotential surfaces; Gradient of a potential; Gauss's law and applications; Central forces and applications to two-particle systems; Orbits; Escape... |
PHYS343: Physics of Large Systems I
Laws of thermodynamics and applications; Heat engines, heat pumps, entropy, thermal pollution and global warming; Unavailability of energy; Heat death; Thermodynamic potentials – Gibbs functions, Helmholtz functions and Free energy functions; phase... |
PHYS344: Mathematical Methods II
Vector and Tensor Analysis; Determinants, Matrices and Group Theory; Infinite Series; First Order Differential Equation; Functions of Complex Variables; Second Order Differential Equations; Special Functions - Bessel Functions, Gamma Functions, Beta Functions... |
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... |