Master of Applied Science (Physics) (K7J7)

The unit KYA211 Waves and Kinetic Theory is the core physics major course for second year, first semester. It is also suitable for students who wish to study more physics beyond first year but who do not intend to major…

Electromagnetism topics include electric and magnetic fields using the vector operators of divergence, gradient and curl, properties of induced polarisation and magnetisation in materials, induction effects, and finally Maxwell's equations and electromagnetic radiation. Applications of electromagnetic phenomena in nature, scientific…

This unit is a continuation of KMA152 and KMA154, with emphasis on the application of multivariable calculus and Fourier Series to problems in mathematics, the physical and biologicalsciences, economics, and engineering. The calculus section of this unit is focussed on…

Provides grounding in theoretical physics for students interested in doing Honours in Theoretical Physics or Applied Mathematics. Topics covered include: Linear and Non-linear systems, examples. Phase plane and phase space. The Hartmann Linearization Theorem. Co-dimension 1 bifurcations; saddle-node, pitchfork and…

Provides grounding in theoretical physics, for students interested in doing Honours in Theoretical Physics or Applied Mathematics. Topics covered include: Introduction to the state of stress in a continuum. Lagrangian and Eulerian descriptions of motion. Conservation laws for mass and…

The objective of this course is to provide a thorough grounding in electromagnetism (38 lectures) and to appreciate the mathematical framework through which quantitative problems in these areas can be solved. In addition, in the laboratory course you will learn…

Quantum mechanics describes the fundamental behaviour of nuclei, atoms, molecules and the solid state. An introduction to the ideas leading up to quantum physics (wave mechanics), including the origin of the black body spectrum, the Bohr model and Bohr-Sommerfeld quantisation,…

The objective of the atomic physics part of this course is to provide a comprehensive introduction to atomic structure allowing you to understand atomic spectra, the behaviour of angular momentum in quantum mechanical systems, and many-electron atoms. The nuclear and…

Fundamental numerical processes for obtaining approximate but useful solutions to mathematical models. Topics include: errors in computations; solution of linear and non-linear equations arising from problems in the physical and biological sciences, commerce and engineering; approximation of functions; numerical integration…

Introduction to partial differential equations that arise in applied mathematics, physics, biological science, commerce, and engineering. First-order PDEs: the linear wave equation, method of characteristics, traffic flow models, wave breaking, and shocks. Second-order PDEs: Classification of PDEs and characteristic curves;…

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This unit provides the basic tools in the use of complex variables to solve practical problems in Applied Mathematics and Physics. It continues the use of integral transform methods to solve ordinary and partial differential equations. Analytic functions. The elementary…

This second-semester unit provides core knowledge in linear algebra and differential equations. The first half of the unit demonstrates the central role linear algebra plays in mathematics by covering the fundamental concepts of vector spaces and the analysis of linear…

The objective of this course is to provide a thorough grounding in statistical physics and solid state physics. Statistical physics describes the structure of bulk matter - solids, liquids, gases, plasmas - in terms of very general assumptions about the…

This unit is an elective coursework unit aimed at students enrolled in honours in physics. The objective is to provide a thorough grounding in the theoretical underpinnings and modern observational understanding of advanced topics in astrophysics including plasma physics, exoplanets,…

Preparation for research work (leading to a thesis) in radio astronomy; optical astronomy. Topics from other areas of physics may be undertaken if appropriate projects and/or supervision can be arranged.…

This is an elective coursework unit intended for physics and maths honours students. This unit in mathematical physics aims to provide an understanding of general relativity as a theory of gravity relating to the geometric properties of spacetime. We begin…

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Astrophysics is the investigation of the Universe. It enables us to study the behaviour of matter in extreme environments that cannot be replicated on Earth. Atmospheric physics plays an important role in understanding weather and climate systems. In this unit…

The successful design and execution of astrophysical observations requires an in depth knowledge of the telescope, its instruments and their operation. The aim of this unit is to give students a theoretical and practical introduction to fundamental astronomical observation techniques.…

This unit will introduce students to quantitative data analysis techniques. Students will learn aspects of collecting, processing, analysing and presenting quantitative information. Topics include: statistical presentation of data, experimental design, data exploration techniques, fitting linear models and their extensions, and…

Research work (leading to a thesis) in radio astronomy, optical astronomy; theoretical physics. Topics from other areas of physics can be undertaken if appropriate projects and/or supervision can be arranged.Enrolment consists of two 25% units; KYA708 and KYA709.…

Research work (leading to a thesis) in radio astronomy, optical astronomy; theoretical physics. Topics from other areas of physics can be undertaken if appropriate projects and/or supervision can be arranged.Enrolment consists of two 25% units; KYA708 and KYA709.…