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Engineering Tripos, Part IIB, 2003-04: Notice

The Faculty Board of Engineering give notice that the modules prescribed for the examinations to be held in 2004, and the mode of examination for each module, will be as follows:
  Number and title of module Set Mode of examination
Group A:
Energy, fluid mechanics,
and turbomachinery
4A1Nuclear power engineeringL6Exam and course-work
4A2Computational fluid dynamicsM2Course-work
4A3Turbomachinery IM7Exam and course-work
4A4Aircraft stability and controlM9Course-work
4A5 Internal Combustion engines M5 Course-work
4A6Flow induced sound and vibrationM3 Exam
4A7Aerodynamics L10 Course-work
4A8Environmental fluid mechanicsM4Exam
4A9Molecular thermodynamics L3Exam
4A10Flow instabilityL4 Exam
4A11Turbomachinery IIL8Exam and course-work
4A12TurbulenceL9Exam
Group B:
Electrical engineering
4B2Power electronics and applicationsL9Exam
4B5Nanotechnology M10Exam and course-work
4B6Solid state devices and chemical/biological sensors L3Exam
4B7VLSI design, technology, and CADM2Exam and course-work
4B8Electronic system design M8Exam and course-work
4B10Optoelectronic technologiesL1Exam and course-work
4B11Photonic systemsM9 Exam
4B13Sensors and instrumentationM6Exam
4B14Solar-electronic power: generation and distributionM5 Exam and course-work
4B17 Photonics of molecular materialsL10Exam
4B18Advanced electronic devicesL8Exam
Group C:
Mechanics, materials, and design
4C1Design against failureL8Exam
4C2Designing with composite M3Exam and course-work
4C3Electrical materialsM6Exam
4C4Design methodsM1Exam and course-work
4C5Design case studiesL5Course-work
4C6Advanced linear vibrationM4Exam and course-work
4C7Random and non-linear vibration M8Exam and course-work
4C8Applications of dynamicsL1Exam and course-work
4C9Continuum mechanicsM7Exam and course-work
4C12Wave propagationL9Exam and course-work
4C14Natural and micro-architectured materialsL6Exam
4C15MEMS: system design and performanceL2Exam and course-work
Group D:
Civil, structural, and environmental engineering
4D1Petroleum engineeringM1Exam and course-work
4D2Lightweight structuresM6Course-work
4D4Ground engineeringL3Course-work
4D5Foundation engineering (subject to staff availability) L5Exam and course-work
4D6Dynamics in civil engineeringL2Exam and course-work
4D7Concrete and masonry structuresM2Exam and course-work
4D8Pre-stressed concreteL10Exam and course-work
4D10Structural steelwork M8Exam and course-work
4D12Coastal and off-shore engineeringM10Exam
4D13Architectural engineering (pm) L-Exam and course-work
4D14Contaminated land and waste containment M5Exam and course-work
4D15Sustainable water engineering L4Course-work
Group E:
Management and manufacturing
4E1Technological innovation: research and and practiceM-Course-work
4E3Information systemsM- Course-work
4E4Management of technologyM- Course-work
4E5International business economicsL-Course-work
4E6Accounting and financeM-Exam
4E7Enterprise and business development L- Course-work
4E11Strategic managementL-Course-work
4E13MacroeconomicsL-Exam
Group F:
Information engineering
4F1Control system designM7Exam and course-work
4F2Robust multivariable controlL4Exam and course-work
4F3Non-linear and predictive controlL5Exam
4F5Digital communicationsL8Exam
4F6Signal detection and estimationL2Exam
4F7Digital filters and spectrum estimationM8Exam
4F8Image processing and image codingM10Exam
4F9Medical imaging and 3D computer graphicsL9Exam
4F10Statistical pattern processingM3Exam
4F11Speech processingM4Exam
4F12Computer vision and roboticsM9Exam
Group I:
Imported Modules
4I1Real options for engineering systems (TP6)L- Course-work
4I3Distribution networks: economics, market structures, and strategies (TP5)M-Course-work
4I4The political economy of technology policy (TP7) L-Course-work
4I5Introduction to technology and policy (TP1) M-Course-work
4I7Key methods in technology policy (TP3) L-Course-work
Group M:
Multidisciplinary modules
4M9Surveying field courseLV Course-work
4M1 FrenchL7Course-work
4M2 GermanL7Course-work
4M6Materials and processes for microsystems (MEMS)M-Exam and course-work
4M12 Partial differential equations and variational methodsL6Exam
4M13Complex analysis and optimizationM1Exam
4M14 Sustainable development M-Course-work
Group R:
Research modules methods
available to certain
undergraduates
5R1Stochastic processes and optimizationL-Course-work
5R5Advanced experimental methods in geomechanicsM-Course-work

 

Sets for 2003-04

RESTRICTIONS ON THE COMBINATIONS OF MODULES CANDIDATES MAY CHOOSE TO OFFER

Candidates when choosing modules for examination may not offer two or more modules from any one of the following numbered sets.

No candidate who offered any module for Part IIA may again offer the same module for Part IIB.

Group R modules are restricted to candidates who have been classed with a First in Part IIA of the Engineering Tripos or in the Electrical and Information Sciences Tripos Part I; candidates may not offer more than one module from this group.

 

Michaelmas Term

Set. No Title
M14C4Design methods
Shared with IIA4D1Petroleum engineering
4M13Complex analysis and optimization
M24A2Computational fluid dynamics
4B7VLSI design, technology, and CAD
4D7Concrete and masonry structures
M34A6Flow induced sound and vibration
4C2Designing with composites
4F10Statistical pattern processing
M44A8Environmental fluid mechanics
4C6Advanced linear vibration
4F11Speech processing
M54A5Internal combustion engines
4D14Contaminated land and waste containment
4B14Solar-electronic power generation and distribution
M64B13Sensors and Instrumentation
4C3Electrical materials
4D2Lightweight structures
M74A3Turbomachinery I
4C9Continuum mechanics
4F1Control system design
M84C7Random and non-linear vibration
4B8Electronic system design
4F7Digital filters and spectrum estimation
4D10Structural steelwork
M94A4Aircraft stability and control
4B11Photonic systems
4F12Computer vision and robotics
M104B5Nanotechnology
4D12Coastal and off-shore engineering
4F8Image processing and image coding
 

Lent Term

L14B10Optoelectronic technology
 4C8Applications of dynamics
L24C15MEMS: system design and performance
4D6Dynamics in civil engineering
4F6Signal detection and estimation
L34A9Molecular thermodynamics
4B6Solid state devices and chemical/biological sensors
4D4Ground engineering
L44A10Flow instability
4D15Sustainable water engineering
4F2Robust multivariable control
L54C5Design case studies
4D5Foundation engineering
4F3Non-linear and predictive control
L6
shared
with IIA
4A1Nuclear power engineering
4C14Natural and micro-architectured materials
4M12Partial differential equations and variational methods
L74M1French
 4M2German
L84A11Turbomachinery II
4B18Advanced electronic devices
4C1Design against failure
4F5Digital communications
L94B2Power electronics and applications
4C12Wave propagation
4A12Turbulence
4F9Medical imaging and 3D computer graphics
L104A7Aerodynamics
4B17Photonics of molecular materials
4D8Pre-stressed concrete

 


MODULES NOT ASSIGNED TO SETS 2003-04:


L4D13Architectural engineering (shared with IIA)
M4E1Technological innovation: research and practice
M4E3Information systems
M4E4Management of technology
L4E5International business economics
M4E6Accounting and finance (shared with IIA)
L4E7Enterprise and business development
L4E11Strategic management
L4E13Macroeconomics
M4M6Materials and processes for microsystems (MEMS)
LV4M9Surveying field course
M4M14Engineering for sustainable development
L4I1Real options for engineering systems (TP6)
M4I3Distribution networks: economics , market structures, and strategies (TP5)
L4I4The political economy of technology policy (TP7)
M4I5Introduction to technology and policy (TP1)
L4I7Key methods in technology policy (TP3)
L5R1Stochastic processes and optimization methods
M5R5Advanced experimental methods in geomechanics

NOTES: Sets: M = Michaelmas, L = Lent, LV = Long Vacation


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Cambridge University Reporter, 18 June 2003
Copyright © 2003 The Chancellor, Masters and Scholars of the University of Cambridge.