Mathematics and Its Applications

['Mathematical Inquiry and Communication', 'Geometric Integration', 'Poisson Algebras and Combinatorics', 'Applied Algebraic Topology', 'Symmetries, Groups and Invariants', 'Diagram Algebras', 'Quantum Physics', 'Mathematics and Music', 'Applied Differential Geometry', 'Nonlinear Analysis and Optimisation', 'Introduction to Functional Analysis', 'Algebraic Curves in Nature', 'Basic Differential Algebra', 'Games and Networks', 'Discrete Mathematics', 'Nonlinear Waves and Solitons', 'Calculus of Variations', 'Complex Analysis', 'Polynomials in Several Variables', 'Groups and Representations', 'Elements of Abstract Analysis', 'Numerical Solution of Differential Equations', 'Nonlinear Systems and Mathematical Biology', 'Dissertation', 'provide a Master\\\\x92s level mathematical education of excellent quality, informed by research and scholarship', 'provide an opportunity to enhance your mathematical creativity, problem-solving skills and advanced computational skills', 'provide an opportunity for you to enhance your oral communication, project design and basic research skills', 'provide an opportunity for you to experience and engage with a creative, research-active professional mathematical environment', 'produce graduates of value to the region and nation by offering you opportunities to learn about mathematics in the context of its application.', 'the applications of mathematical theories, methods and techniques', 'the power of generalisation, abstraction and logical argument', 'the processes and pitfalls of mathematical approximation', 'nonlinear phenomena', 'geometric thinking', 'non-commutative phenomena', 'algebraic thinking', 'analytic thinking', 'mathematical computation.', 'problem solving: the ability to work with self-direction and originality in tackling and solving problems, as well as an ability to provide an analytic approach to mathematical problem-solving', 'independent critical reading of technical material', 'independent creative mathematical inquiry: to develop an understanding of how techniques of research and enquiry are used to create and interpret mathematical knowledge, to show initiative in the application of knowledge', 'logical argument: the ability to formulate detailed rigorous arguments and to deal with complex issues both systematically and creatively.', 'mathematical typesetting (LaTeX)', 'the ability to speak with clarity to both a mathematical and a non-specialist audience', 'symbolic computation (eg Maple)', 'numerical computation (eg Matlab).', 'oral and written communication: the ability to communicate technical material, ideas and results to specialist and non-specialist audiences', 'project design: to independently plan, implement and complete a project to professional level', 'basic research: to be able to select and critically evaluate appropriate material from a variety of sources, be able to use appropriate IT tools, be able to write a literature survey, to investigate a mathematical topic in-depth', 'organisational, decision-making, self-management and time-management skills, including the ability to manage your own learning and self-development, and to plan and implement tasks autonomously.']