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The Faculty Board of Mathematics give notice that, in accordance with Regulations 16 and 17 for the Mathematical Tripos (Statutes and Ordinances, p. 335), there will be set in 2003, if candidates desire to present themselves therein, a paper in each of the subjects in the following list. The duration of the paper is shown beside it.
| Finite dimensional Lie algebras and their representations | 3 hours |
| Noetherian algebras | 3 hours |
| Topics in modular representation theory | 3 hours |
| Classical groups | 3 hours |
| Geometric group theory | 3 hours |
| Introduction to Banach spaces and algebras | 3 hours |
| Restriction and Kakeya phenomena | 3 hours |
| Ordinary differential equations in the complex domain | 2 hours |
| Bounded analytic functions | 3 hours |
| Classical Banach spaces | 2 hours |
| Topological groups | 3 hours |
| Random graphs | 2 hours |
| Extremal combinatorics | 2 hours |
| Differential geometry | 3 hours |
| Basic algebraic geometry | 3 hours |
| Global Riemannian geometry | 3 hours |
| Symplectic geometry | 3 hours |
| Category theory | 3 hours |
| Set theory | 3 hours |
| Constructive topology | 3 hours |
| Elliptic curves | 3 hours |
| Analytic number theory | 2 hours |
| Class field theory | 3 hours |
| Modular forms | 3 hours |
| Additive and combinatorial number theory | 3 hours |
| Algebraic topology | 3 hours |
| Morse theory | 3 hours |
| Geometry of 3-dimensional manifolds | 3 hours |
| Advanced probability | 3 hours |
| Interacting particle systems | 3 hours |
| Poisson processes | 2 hours |
| Advanced financial models | 3 hours |
| Stochastic calculus and applications | 3 hours |
| Stochastic networks | 2 hours |
| Quantum information theory | 3 hours |
| Algebraic coding | 2 hours |
| Mathematics of operational research | 3 hours |
| Applied statistics | 3 hours |
| Actuarial statistics | 2 hours |
| Biostatistics | 3 hours |
| Statistical theory | 3 hours |
| Experimental design and multivariate analysis | 3 hours |
| Time series and Monte Carlo inference | 3 hours |
| Quantum field theory | 3 hours |
| Symmetry and particle physics | 3 hours |
| Statistical field theory | 2 hours |
| Introduction to quantum computation | 2 hours |
| Advanced quantum field theory | 3 hours |
| The standard model | 3 hours |
| String theory | 3 hours |
| Conformal field theory | 3 hours |
| Solitons and instantons | 2 hours |
| Supersymmetry | 2 hours |
| General relativity | 3 hours |
| Cosmology | 2 hours |
| Black Holes | 3 hours |
| Applications of differential geometry to physics | 3 hours |
| Advanced cosmology | 3 hours |
| Local and global bifurcations | 3 hours |
| Symmetries and patterns | 3 hours |
| Boundary value problems for integrable PDEs | 2 hours |
| Galaxies | 3 hours |
| Structure and evolution of stars | 3 hours |
| Astrophysical fluid dynamics | 3 hours |
| Astrophysical discs and magnetohydrodynamics | 3 hours |
| Physical cosmology | 3 hours |
| Numerical solution of differential equations | 3 hours |
| Computer-aided geometric design | 2 hours |
| Approximation theory | 3 hours |
| Theory of elastic solids | 2 hours |
| Molecular and cellular biomechanics | 2 hours |
| Fundamentals of atmosphere-ocean dynamics | 3 hours |
| Slow viscous flow | 3 hours |
| Wave theory | 3 hours |
| Physiological fluid dynamics | 2 hours |
| Environmental fluid dynamics | 2 hours |
| The solidification of fluids | 2 hours |
| Seismic waves | 2 hours |
| Large deviations and queues | 2 hours |
The Faculty Board remind candidates and Tutors that requests for papers to be set on additional subjects should be sent through members of the Faculty to reach the Secretary of the Faculty Board at the Faculty Office, Centre for Mathematical Sciences, Wilberforce Road, not later than 8 November 2002 (Statutes and Ordinances, p. 335, Regulation 16).
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Cambridge University Reporter 6 November 2002
Copyright © 2002 The Chancellor, Masters and Scholars
of the University of Cambridge.