PHYS461: Principles of Radioactive Dating
Radioactive decay, Types of radioactive clocks: decay clock accumulation clock. Fundamental requirements of radiometric dating, Useful radioactive decay schemes. Analytical techniques – fundamental mass spectrometry, Isotope dilution, analytical errors... |
PHYS462: Basic Meteorology
Structure of the atmosphere; weather processes and weather systems, including climatic process. Data analysis, instruments, and weather system models, Global distribution of principal climatic elements with emphasis on physical causes. Physics of moist air;... |
PHYS465: Physics of Telecommunications
Network theorems, Circuit theory, Transmission lines, Attenuators and filters, Low and high frequencies amplifiers, Oscillator circuits; Modulation, demodulation, and detection circuits, Noise, Transmission of information, Microphones and sound reproducers,... |
PHYS466: Physics at the Nanoscale
Carbon Nanotubes: Carbon allotropes; Synthesis and production techniques of carbon nanotubes. Physical properties of carbon nanotubes; Functionalisation, dispersion, separation, and characterisation of carbon nanotubes; Applications: Polymer- and metal-... |
PHYS410: Project Work
Students undertake a limited research project under supervision of a Senior Member. A final report is required. Students are expected to report on their findings at a departmental seminar. |
PHYS468: Introduction to Cosmology and Astrophysics
Modern view of the Universe, Astronomical nomenclature and conventions, Order of magnitude reasoning, Stars and Stellar evolution, Galaxies and Large-Scale structures. Relativistic Astrophysics and Cosmology. |
PHYS401: Seminar I
Students attend weekly seminars and present proposals for their research project. |
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... |