Previous page | Table of Contents | Next page |
The Faculty Board of Engineering give notice that, in accordance with Regulation 23 for the Engineering Tripos and Electrical and Information Sciences Tripos (Statutes and Ordinances, p. 280), the modules prescribed for the examinations to be held in 2002, and the mode of examination for each module, will be as follows:
Group A: |
Number and title of module
A1 Petroleum engineering |
Set Mode of examination
3 Exam and course-work 6 Course-work 20 Course-work 8 Exam and course-work 12 Exam and course-work 4 Exam and course-work 14 Exam and course-work 1 Exam and course-work 2 Exam and course-work 10 Exam 16 Course-work 13 Exam and course work |
Group B: |
B1 Deformation and fracture B2 Designing with composites B3 Electrical materials B4 Design methods B5 Design case studies B6 Advanced linear vibrations B7 Random and non-linear vibrations B8 Applications of dynamics B9 Continuum mechanics B10 Finite elements B12 Wave propagation B13 MEMS |
20 Exam 3 Exam and course-work 8 Exam 5 Exam and course-work 15 Course-work 4 Exam and course-work 6 Exam and course-work 11 Exam and course-work 7 Exam 18 Exam and course-work 19 Exam and course-work 12 Exam and course-work |
Group C: |
C1 Nuclear power engineering C3 Turbomachinery I C3 Turbomachinery I C4 Aircraft stability and control C5 Internal combustion engines C6 Flow induced sound and vibration C7 Aerodynamics C8 Environmental fluid mechanics C9 Molecular thermodynamics C10 Flow instability C11 Turbomachinery II C12 Turbulence |
16 Exam and course-work 2 Course-work 10 Exam and course-work 9 Course-work 3 Exam 6 Course-work 20 Course-work 11 Exam 7 Exam 13 Exam 18 Exam and course-work 12 Exam |
Group D: |
D1 Electrical machines D4 Computational electromagneticsr D5 Nanotechnology D6 Solid state devices D7 VLSI design, technology, and CAD D8 Electronic system design D10 Optoelectronic technology D11 Photonic systems D13 Electronic sensors and instrumentation D14 Solar electronic power: generation and distribution D15 Advanced telecommunications networks |
19 Exam 1 Course-work 10 Exam and course-work 13 Exam 5 Exam and course-work 3 Exam and course-work 11 Exam and course-work 14 Exam 16 Exam 6 Exam and course-work 9 Exam and course-work |
Group E: |
I1 Control system design I2 Robust multivariable control I3 Non-linear and hybrid systems I5 Digital communications I6 Signal detection and estimation I7 Digital filters and spectrum estimation I8 Image processing and image coding I9 Medical imaging and 3-D computer graphics I10 Advanced pattern processing I11 Speech processing I12 Computer vision and robotics |
1 Exam and course-work 14 Exam and course-work 4 Exam 18 Exam 12 Exam 8 Exam 10 Exam 19 Exam 2 Exam 15 Exam 9 Exam |
Group F: |
F3 Operations research F5 International business economics F6 Accounting and finance F7 Enterprise and business development F8 Design and management of manufacturing systems F9 Surveying field course F10 French F11 German F12 Complex analysis and variational methods F13 Linear algebra and optimization F14 Engineering for sustainable development |
- Course-work - Course-work 7 Exam - Course-work - Course-work - Course-work 17 Course-work 17 Course-work 15 Exam 5 Exam and course-work 19 Course-work |
Group J: |
J1 Real options for engineering systems J2 Molecular and cellular biomechanics |
- Course-work - Course-work |
Group R: |
R2 Materials and process selection R1 Stochastic processes and optimization methods R5 Geotechnical modelling R6 Advanced shell structures |
- Course-work - Course-work - Course-work - Course-work |
Candidates when choosing modules for examination may not offer two or more modules from any one of the following sets. The written examination for modules in Sets 1-10 will be held at the beginning of the Lent Term, and for modules in Sets 11-20 at the beginning of the Easter Term (Statutes and Ordinances, p. 280).
Set 1
A9 Thin-walled structures
D4 Computational electromagnetics
I1 Control system design
Set 2
A10 Structural steel
C2 Computational fluid mechanics
I10 Advanced pattern processing
Set 3
A1 Petroleum engineering
B2 Designing with composites
C5 Internal combustion engines
D8 Electronic system design
Set 4
A7 Concrete and masonry structures
B6 Advanced linear vibrations
I3 Non-linear and hybrid systems
Set 5
B4 Design methods
D7 VLSI design, technology, and CAD
F13 Linear algebra and optimization
Set 6
A2 Lightweight structures
B7 Random and non-linear vibrations
C6 Flow induced sound and vibration
D14 Solar electronic power: generation and distribution
Set 7
B9 Continuum mechanics
F6 Accounting and finance
C9 Molecular thermodynamics
Set 8
A5 Foundation engineering
B3 Electrical materials
I7 Digital filters and spectrum estimation
Set 9
C4 Aircraft stability and control
D15 Advanced telecommunications networks
I12 Computer vision and robotics
Set 10
A12 Coastal and off-shore engineering
C3 Turbomachinery I
D5 Nanotechnology
I8 Image processing and image coding
Set 11
B8 Applications of dynamics
C8 Environmental fluid mechanics
D10 Optoelectronic technology
Set 12
A6 Dynamics in civil engineering
B13 MEMS
C12 Turbulence
I6 Signal detection and estimation
Set 13
A14 Contaminated land and waste containment
C10 Flow instability
D6 Solid state devices
Set 14
A8 Pre-stressed concrete
D11 Photonic systems
I2 Robust multivariable control
Set 15
B5 Design case studies
I11 Speech processing
F12 Complex analysis and variational methods
Set 16
A13 Architectural engineering
C1 Nuclear power engineering
D13 Electronic sensors and instrumentation
Set 17
F10 French
F11 German
Set 18
B10 Finite elements
C11 Turbomachinery II
I5 Digital communications
Set 19
B12 Wave propagation
D1 Electrical machines
I9 Medical imaging and 3-D computer graphics
F14 Engineering for sustainable development
Set 20
A4 Ground engineering
B1 Deformation and fracture
C7 Aerodynamics
F3 Operations research (Lent Term)
F5 International business economics (Lent Term)
F7 Enterprise and business development (Lent Term)
F8 Design and management of manufacturing systems (Michaelmas Term)
F9 Surveying field course (Long Vacation, 2001)
J1 Real options for engineering systems (Lent Term)
J2 Molecular and cellular biomechanics (Michaelmas Term)
R1 Stochastic processes and optimization methods (Lent Term)
R2 Materials and process selection (Lent Term)
R5 Geotechnical modelling (Michaelmas Term)
R6 Advanced shell structures (Lent Term)
Previous page | Table of Contents | Next page |
Cambridge University Reporter, 20 June 2001
Copyright © 2001 The Chancellor, Masters and Scholars of the University of Cambridge.