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ORDERS OF EXAMINATIONS

Mathematical Tripos, Part III, 2000

The examination will take place in Seminar Room A and the Syndics Room (Y) of the Department of Applied Mathematics and Theoretical Physics, Silver Street.

Thursday 1 June 9-12 4. Introduction to Algebraic Groups (Room Y)
9-12 17. Three-dimensional Manifolds (Room Y)
9-12 43. **Physiological Fluid Dynamics (Room Y)
9-12 68. General Relativity (Room A)
1.30-4.30 7. Functional Analysis and Spectral Theory (Room A)
1.30-4.30 12. Extremal Graph Theory (Room A)
1.30-4.30 35. Statistical Theory (Room Y)
1.30-4.30 39. Atomic Astrophysics (Room A)
1.30-3.30 42. Acoustics and Stability (Room Y)
Friday 2 June 9-11 19. Analytic Number Theory (Room Y)
9-11 25. Large Deviations with Applications (Room A)
9-12 37. **Astrophysical Fluid Dynamics (Room A)
9-11 54. Computer-aided Geometric Design (Room Y)
9-11 70. Early Universe Cosmology (Room Y)
9-11 99. Probability Theory (M.Phil. only) (Room Y)
1.30-4.30 13. Algebraic Topology (Room Y)
1.30-4.30 21. p-adic Hodge-Tate Theory (Room Y)
1.30-4.30 57. Elementary Particle Physics (Room A)
Monday 5 June 9-12 30. Applied Statistics (Room Y)
9-12 56. Quantum Field Theory (Room A)
1.30-4.30 5. Complex Analysis (Room A)
1.30-4.30 14. Algebraic Geometry (Room Y)
1.30-4.30 24. Advanced Probability (Room A)
1.30-3.30 46. **Geological Fluid Mechanics (Room Y)
Tuesday 6 June 9-12 1. Lie Algebras (Room A)
9-11 67. Cosmology (Room Y)
1.30-4.30 34. Mathematics of Operational Research (Room Y)
1.30-4.30 44. Environmental Fluid Dynamics (Room A)
1.30-3.30 63. Supersymmetry (Room A)
1.30-4.30 65. Non-equilibrium Statistical Mechanics (Room A)
Wednesday 7 June 9-12 2. Topics in Group Theory (Room Y)
9-11 23. Mathematical Models in Financial Management (Room Y)
9-12 60. Advanced Quantum Field Theory (Room A)
1.30-4.30 9. Topics in Fourier Analysis (Room A)
1.30-3.30 29. Actuarial Statistics (Room Y)
1.30-3.30 41. Physical Cosmology (Room A)
1.30-4.30 48. Turbulence, Mixing, and Transport (Room A)
1.30-3.30 64. Phase Transitions and Collective Phenomena (Room Y)
Thursday 8 June 9-11 32. Biological Sequence Analysis (Room Y)
9-11 36. Time Series and Monte Carlo Inference (Room Y)
9-12 62. String Theory (Room A)
1.30-4.30 3. Introduction to Modular Representation Theory (Room A)
1.30-4.30 6. Several Complex Variables and Banach Algebras (Room Y)
1.30-3.30 28. **Quantum Communication Theory (Room Y)
1.30-4.30 33. Experimental Design and Multivariate Analysis (Room Y)
1.30-4.30 40. Galaxies: Content and Evolution (Room A)
1.30-3.30 47. Large Scale Atmosphere-Ocean Dynamics (Room A)
1.30-4.30 50. Local and Global Bifurcations (Room A)
Friday 9 June 9-12 22. Advanced Financial Models (Room Y)
9-11 49. Elastic Waves (Room A)
9-12 61. The Standard Model (Room A)
9-11 66. Advanced String Theory (Room A)
1.30-4.30 16. Grassmannians (Room Y)
1.30-4.30 18. Category Theory (Room A)
1.30-4.30 31. Biostatistics (Room Y)
1.30-4.30 38. **Structure and Evolution of Stars (Room A)
1.30-4.30 5. Numerical Analysis of Differential Equations (Room A)
1.30-3.30 58. Quantum Statistical Field Theory (Room A)
Monday 12 June 9-11 11. Discrete Isoperimetric Inequalities (Room A)
9-12 15. Differential Geometry (Room A)
9-12 26. Stochastic Calculus and Applications (Room A)
9-11 45. Slow Viscous Flows (Room A)
9-12 69. Black Holes (Room A)
Tuesday 13 June 9-12 8. The Value Distribution of Analytic Functions (Room A)
9-11 10. Logic and Combinatorics (Room A)
9-12 20. Modular Forms (Room A)
9-12 27. Stochastic Networks (Room A)
9-12 52. Symmetries and Patterns (Room A)
Wednesday 14 June 9-11 51. Population Dynamics (Room A)
9-11 53. Renormalization in Dynamical Systems (Room A)

** Denotes Open-Book Examination

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Cambridge University Reporter, 24 May 2000
Copyright © 2000 The Chancellor, Masters and Scholars of the University of Cambridge.