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Refraction, total internal reflection. Guided waves between dielectric-dielectric and dielectric-conductor interfaces. TextslReferences Cheng, D.K. Field and Wave Electmmagnetics. 2nd ed, Reading, Mass.: Addison-Weslw. 1985 Hayt, W.H. €ngineeri& Electrumagnetia. 5th ed, New York: McGraw Hill, 1989 Kraus, J.D. Electmmagnetics. 4th ed, McGraw-Hill, 1992 Plonus, M.R. Applied Elecfromagnetics. Tokyo: McGraw-Hill, Kogakusha, 1978 Skitek, G.G. and Marshall, S.V. Electromagnetic Concepts and Applications. 2nd ed, Englewood Cliffs, N.J.: Prentice-Hall, 1987 EE384 Electrical Power and Machines No. of hours per week: three hours Prerequisites: EE258 Electrical Machines Instruction: lecturesltutorialsllaboratory Assessment: examination/assignments A third-year subject in the degree of Bachelor of Engineering (Electrical- unstreamed). Subject aims To extend the treatment of transforms to the three phase case; to extend the treatment of the induction motor to a full consideration of steady state behaviour; to introduce the step motor and the brushless d.c. motor. To extend the work in power electronics. Subject description Power electronics: devices. Extension of work to cover the thyristor family of devices. Power transistors: power bipolar junction transistor, power MOSFET and the insulated gate bipolar transistor. Applications a.c. to d.c. conversion using a lagging power factor load including the d.c. motor. Fully and partly controlled conversion, generation of harmonic and power factor control. d.c, to a.c. conversion. The use of power transistors in inverter circuits as applied to an uninterruptible power supply and the variable frequency control of the speed of an induction motor. Battery technology and alternative energy sources. Electrical machines: three phase transformer construction, operation, and designation. Parallel operation. Tertiary windings, modelling. Harmonic phenomena. Representation of synchronous machines having significant resistance, modified Blondel diagram as applied to hybrid step motors. Operating properties of variable reluctance and hybrid step motors. Step motors and brushless d.~. motors: brushless dc, motors - construction. Induction machine: the induction machine equivalent circuit, toque equation, reduction to small slip form, variable frequency operation. Circle diagram. Effects of harmonics. Classification of induction machines, and choice of machine type. Linear forms of induction machine. References Acarnley, P.P. Stepping Moton, A Guide to Modem Theory and Practice. 2nd ed, London: Peregrinus on behalf of the Institution of Electrical Engineering. 1984 Fitzgerald, A.E., Kingsley, C. and Kukso, A. Electric Machinery: 5th ed. N.Y.: McGraw-Hill, 1992 Lander, C.W. Power Elelectronics 2nd ed, London: McGraw-Hill. 1987 Say, MC. Alternating Current Machines. 5th ed. New York: Wiley, 1983 Sen, P.C. Principles of Electric Machines and hwer Electronics. New York: Wiley, 1989 Undeland, M. and Robbins. Fbwer Electmni~x New York: Wiley, 1989 EE386 Electronics No. of hours per week: three hours Prerequisites: EE287 Electronics Instruction: lectureltutorial/laboratory Assessment: examinationlassignmentsl laboratory A third-year subject in the degree of Bachelor of Engineering (Electrical- unstreamed). Subject aims To develop the principles of negative feedback amplifiers, and digitallanalog system interfacing. Subject description Basic advantages and disadvantages of negative feedback. The feedback topologies, with detailed analysis of series shunt feedback. Frequency response, and frequency domain techniques for stability analysis and compensation. Ideal operational amplifier applications in instrumentation and signal processing applications. Non-ideal operational amplifiers, errors and noise. Interfacing to digital and analog systems. AID and DIA converters including flash converter, successive approximation, dual slope, and tracking conwrten. Sample and hold, comparator and Schmitt trigger and applications. Pulse generators, sine generators and VCOs. Electrical isolation techniques for analog and digital I10 devices. Design and analysis and simulation techniques for discrete analog circuits: worst case design to meet minimum performance specifications, selection of configuration alternatives for implementing direct coupled complementary symmetry large signal amplifiers. TextslReferences Millman, J. and Grabel, A. Micmelectmnics. 2nd ed, New York: McGraw Hill, 1987 Sedra, A.S. and Smith. K.C. Micmelectmnic Circuits. 2nd ed, N.Y.: Holt, Rinehart and Winston. 1987 EE388 Communications No. of houn per week: three houn Prerequisites: EE282 Communication Principles Instruction: lectures/laboratory Assessment: examinationlassignments A third-year subject in the degree of Bachelor of Engineering (Electrical- unstreamed). Subject aims To present an introduction of the basic analysis tools and techniques of digital processing of signals outlining advantages, drawbacks and limitations. Subject description Principles and applications of discrete systems. Basic concepts of signals and discrete systems, including the sampling theorem. Discrete models for linear time invariant systems and analysis techniques. Sinusoidal steady state analysis of discrete systems, inclusive of the frequency response and some fundamentals of digital filtering. Applications of the z-transform to discrete system analysis. The discrete Fourier series and its uses. Introduction to the Fast Fourier Transform and its uses.
TextsIReferences DeFatta, Lucas, Hodgekiss. Digital Signal Processing: A System Design Approach. John Wiley, 1988 Oppenheim and Schaefer, Discfete Time Signal Processing. Englewood Cliffs, N.J.: Prentice Hall, 1989 Proakis, J. and Manolakis, D. Introduction to Digital Signal Processing. Maxwell Macmillan, 1992 Strum, R. and Kirk, D. First Prindples of Discrete Systems and Digital Signal Processing. Reading, Mass.: Addison-Wesley, 1988 EE389 Linear Systems and Control NO. of hours per week: four hours Prerequisites: EE283 Electrical Circuits, EE258 Electrical Machines, SM294 Engineering Mathematics Instruction: lecturesllaboratory Assessment: examinationlassignment A third-year subject in the degree of Bachelor of Engineering (Electrical- unstreamed). Subject aims To introduce the concept of feedback in a linear system and to develop analytical techniques to solve linear control systems problems. Subject description System concepts: introduction to systems and their representation. System elements. Basic physical relationships. Formulation of linear system equations. Basic analysis concepts: solution of linear differential equations. The laplace transform and transform pairs. The S plane, poles and zeros. Final Value theorem. Analysis of linear systems: the linear single input continuous signal system. Use of classical time domain, transfer functions and frequency response techniques. The second order system. Stability criteria; S plane and frequency response. Analogue computer techniques. Analysis of an electromechanical systems. Control concepts: control strategies. Open and closed loop systems and feedback. Classification of control systems. Control system representation: formulation of mathematical models. Transfer functions and block diagrams. Graphical representation of systems - the S plane, the root locus plot, 5 the frequency plot of transfer functions. Stability and steady state performance. rn 2 lo, TextsIReferences Dazzo and Houpis. Linear Control Systems Analysis and Design. 3rd ed, NOW York: McGraw-Hill, 1988 Dorf, R.C. Modern Control Systems. 6th ed, Reading, Mass.: Addison- Wesley.1992 Ogata, K. Modern Control Engineering. Englemod Cliffs: Prentice Hall, 1970 EE402 Management Fundamentals No. of hours per week: three hours Prerequisites: nil Instruction: lectureshutorials Assessment: examination/assignments A fourth-year subject in all streams of the degree of Bachelor of Engineering (Electrical- unstreamed). Subject aims To provide students with a satisfactory understanding of the subject material in so far as it affects the practice of management. Subject description To provide students with a satisfactoty understanding of the fundamentals of management practice and accounting. Supervision, management and the management environment including planning, organising, controlling, leading and staffing. Supervisory skills including communications, team building, problem solving and decision making. Australian industrial relations and anti-discrimination. Finance: introduction to business finance, sources of funds, use of funds, financial accounting, double entry bookkeeping through to trial balance, management accounting, costing, capital investment, working capital. Textbook Sarnuelson, M. Supervision and Management. 1st ed, Australia: Jacaranda Press, 1990 References Brown, J.A.C. Social Rychology of Industry 2nd ed, MacMillan, 1982 Byrt, W and Masters, P.R. The Australian Manager Rev ed, MacMillan, 1982 Colditz, 8T. and Gibbons, R.W. Austraban Accounting. 4th ed, McGraw-Hill, 1988 Gole, V.L. Fundamentals of Financial Management in Australia. 3rd ed, Butterworth, 1981 Lansbury, R.D. and Spilland. R. Organisational Behaviour, The Australian Context 2nd ed, Longman Cheshire. 1991 Robbins, 5.P Organizational Theory. 3rd ed, Prentice-Hall, 1990 EE403 Engineering Project Management Prerequisites: nil Instruction: seminars Assessment: assignment A fourth-year core subject in the degree of Bachelor of Engineering (Electrical- unstreamed). This subject is to be taken during the students' second industrial period. There will be no formal lectures for this subject. Students will work from a text and submit a combination assignment. Subject aims To provide students with an understanding of engineering project management involving both personnel and plant management. Subject description The role of the manager in a high technology environment; senior management expectations, skill requirements of high technology managers, dealing with priority problems, understanding matrix organisations. Working effectively with technical personnel; understanding professional productivity, leadership effectiveness, creating stimulating work environment, managing innovation and creativity, dealing with risk and uncertainty leadership expectations, delegating effectively, evaluating technical performance. Planning and organising the work, examining the work process, phased approach to engineering developments, developing schedules and measurable milestones, manpourer planning, software for computer-assisted resource scheduling and program planning. Control of technical work; available software, optimizing resources, measurement of performance, tools for measurement and reporting. Project management methodology; definition phase, planning phase, scheduling phase, control phase, advantages of project management. Textbook Meredith. 1.R. and Mantel S.J. Jr Project Management: A Managerial Approach. 2nd ed, John Wiley & Sons Ed., 1989
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1994 Calendar January 1 New Year's
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The information given in this Handb
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General University lnformation Coat
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Swinburne A proud history The 1992
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Swinburne Council Membership as at
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School of Innovation and Enterprise
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should be presented when making a p
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wanting to develop language skills
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Inter-libary Loans M. Wilkinson, As
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which have traditionally been domin
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Career Planning and Industry Liaiso
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Executive at the monthly meeting re
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Campus Computers - Student Union Co
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Swinburne Higher Education Division
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Bachelor of Design BDes* Graphic De
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Arts All Graduate Diplomas and High
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Refund of fees Later VTAC offer A s
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Swinburne Centres Centre for Animat
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Energy Systems Engineering Centre D
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esearch for contesting tax assessme
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n nl n Staff - Faculty of Applied S
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Application procedure Application f
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Employers of students benefit by ob
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Operations research Operations rese
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Career potential Using their knowle
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zos6 Computing and lnstrumentation
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Applicants who do not satisfy the a
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Prerequisites (entrance 1994) Units
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Semester 2 Course Work Subject 12.5
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9 n C lnstrumentation units SP541 S
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list may be augmented to meet stude
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Subject details ABZOO Knowledge Tho
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The rules of evidence: statutory an
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Subject aims To train students to:
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Subject aims To build upon the conc
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Textbooks To be advised IT904 The S
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1~934 Real Time Systems 12.5 credit
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s~z03 Building Standards 8.0 credit
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nutrition and growth. Types and com
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- w sc48 Environmental Science 12.5
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Subject description Selected experi
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~ ~ 6 9 0 Computers in Chemistry 6.
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E q g . SC 3' . Q sc739 Colloid Rhe
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Photon correlation spectroscopy, sm
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2 O K S l' u Q Statistics Mean and
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Discrete joint distributions of two
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Advanced forecasting The Box-Jenkin
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-n cu n Seminars Throughout the sem
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n al n Productivity Press, 1990 Saa
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sM747 Secondary Data Analysis 12.5
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Statistical packages Minitab, Versi
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Matrix algebra Matrices and matrix
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Subject description Forces and Ener
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n c_ SP424 Clinical Monitoring A 8.
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L ~~530 Scientific Instrumentation
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z' n 2 -0 o_ -. g Subject descripti
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Subject description Biophysical tec
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SPI 209 Physics 10.0 credit points
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n w n c .a Y sqloo Programming in A
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54306 Human-Computer Interaction 10
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documentation and system evaluation
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product risk analysis; costlbenefit
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Faculty of Arts Staff 128 Centres 1
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Courses offered Undergraduate Assoc
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1. Administration and management 2.
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made in writing to the Registrar as
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Course requirementslstructure To qu
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Stage 3 N302 Work Experience in Jap
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part in complementing studies in ot
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Sociology'also offers a Graduate Di
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(f) to prepare students for entry l
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~088 Graduate Diploma in Korean The
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Year 2 Semester 1 AY514 Development
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Course structure The program is a o
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ADI 08 Issues in Multicultural Aust
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AH101 History of ldeas No. of hours
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immunology and the rise of scientif
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Japanese characters and vocabulary
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Reference Halpern, J. New Japanese-
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Topics include political parties an
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References Brandt, Vincent, S.R. A
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20th century the emphasis is on dev
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the cultural implications of new ch
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Subject aims and description This s
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AM504 Professional Production No, o
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Section 3 The Consciousness of the
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which many of Australia's most rece
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Methodology of Social Research No.
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References Grenville, K. The Writin
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References Dang, C.L. and Le, K.K.
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~ ~ I 4 Counselling 1 in the Human
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References Cormier, W.H. and Cormie
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Psychology of Work Organisational t
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econometric modelling - simple line
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sC174 Biology No. of hours per week
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Staff - Faculty of Business Dean M.
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General Faculty lnformation Enrolme
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Z E Standards of Progress 1. Preamb
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2 n Australian Computer Society Pri
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A business modelling major or minor
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Business Law Stage one (core unit)
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The following language units are st
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will have a recognised qualificatio
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Level 3 BT630 Data Base Management
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The core units are designed to prov
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will provide the professional manag
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Subject details AA312 European Comm
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88804 Management 5: (Management and
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n Textbook Rirson, G. et al. Busine
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emain in the years ahead when new i
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A BC~I 3 Investment Analysis No. of
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BE227 Environmental Economics No. o
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Applied Economics Honours Research
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to help students better appreciate
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BH334 Asian Business Prerequisite:
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2 immediately relevant to students.
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to dewlop an understanding of the n
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Z industrial conflict - penal power
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Case studies Case studies and discu
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e expected to submit their research
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-n to examine the development of in
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84223 Business Demography No. of ho
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expected to make extensive use of l
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~~223 lnformation Systems 1 No. of
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Subject aims and description Inform
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BT404 Computer Programming Subject
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They are used to produce pictures w
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BT602 lnformation Systems Managemen
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X 51 6 h Y 5, KT703 Introduction to
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References Armarego, E.J.A. and Brw
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References Kochan, A. and Cowan, D.
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References Foley, J.D. and Van Dam,
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effects associated with financial r
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and improvement; diagnosis and trou
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Determination of levels of insuranc
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MM905 Cornputen and Interfacing No.
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previous work in computer programmi
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Differential equations - revision o
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Toxicology Toxic substances, mechan
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Staff Professors Head of School R.
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GP44 Graphic Design Diploma of Art
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~~6041 Copywriting 6 No. of hours p
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I. n RG2ll History of Arts 2 No. of
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Industrial Design subject details A
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methodology is the main subject cov
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ID7026 MaterialslProcesses (ID) 2B
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Course structure 1 year full-time S
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Assessment Regulations At time of p
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4.6.7 Be present, or a nominee shal
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7.2.2 Before recommending the resul
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(b) Credit transfer information wil
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7.2 The Head of Department will ens
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5.1 a department or other recognise
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9. A candidate shall normally be re
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In the case where the Committee, af
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Arts Centres ......................
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Calendar . Important dates (see ins
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Energy Systems Engineering Centre .
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lnforrnation Systems Department (se
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Reading Room. students ............
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Prahran Campus a~mt Bulldlng and Ro
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