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~ ~ 4 9 1 Biochemical Engineering No. of hours. per week (including practical work): four hours for two semesters Assessment: by examination A subject in the Graduate Diploma in Chemical Engineering. Subject aims To give students a grounding in the theory and practice of biological processes used in engineering. Subject description Requirements for growth in biological material; variations in micro-organisms; fermentation pathways. Enzyme reaction kinetics and absolute reaction rate theory; continuous fermentation, aeration and agitation. Mass transfer theories. Bubble and mechanical aeration; scale up; operational and control. Biological water treatment - BOD, COD. Mathematical modelling for the design of activated sludge plants, trickling filter and sludge digesters. Nitrification, eutorphication and river modelling. References Aiba, 5. et a/. Biochemical Engineering. 2nd ed, New York: Academic Press, 1973 Bailey, J.E. and Ollis, D.F. Biochemical Engineenng Fundamentals. 2nd ed. New York: McGraw-Hill. 1986 Metcalf and Eddy Inc. Wastewafer Engineering: Collection, Treatment, Disposal. New York: McGraw-Hill, 1972 EE181 Engineering Science - Electronics and Computing No. of hours per week: four hours for two semesters A first-year subject in all degree courses in engineering. Subject aims To introduce the principles of electrical circuits and electronics to engineering students and to make links between electrical and other engineering disciplines. To introduce fundamental concepts of computing, familiarity with personal computers and some proficiency in the use of the PASCAL language for constructing solutions to engineering problems. Syllabus (Semester 1) ldeal circuit elements (electronics and circuits) SI units in electrical engineering Resistance, inductance, capacitance, voltage sources, current sources, energy storage and energy dissipation. Linear circuit analysis (electronics and circuits) Kirchoff's Voltage Law (KVL), Kirchoff's Current Law (KCL). Voltage and current division. Circuit analysis using Mesh and nodal equations. Thevenin and Norton theorems. Superposition theorem. Sinusoidal circuit analysis - Part I (electronics and circuits) Reason for emphasis upon sinusoidal analysis. Peak, rms, average values. Response to sinusoidal excitation of resistive, inductive and capacitive elements. The phasor representation and the phasor diagram. Digital electronic concepts (electronics and circuits) Electrical representations of numerical data. Binary, octal and hexadecimal number systems. General number systems conversions. Basic logic gates. Boolean algebra. De Morgan's theorems. Truth tables. Combinatorial logic circuits including sum of products (SOP) and product sums (POS) realisations. Simple Karnaugh map. Simple flip-flop. Computing Part I Brief history of computing. lntroduction to computer systems including the disk operating system (DOS) and the Turbo Pascal development environment. Introductory Pascal including syntax diagrams, control structures, elementary types, continuing Pascal including subrange types, arrays, procedures, functions, variable and value parameters, predefined functions, identifier scope, enumerated types, sets, records, with statements, text files. Elementary inputloutput interfacing techniques using Pascal. Syllabus (Semester 2) Computing Part II Sinusoidal circuit analysis - Part 2 (electronics and circuits) Review of complex numbers. Concepts of reactance and impedance and admittance, conductance and susceptance. Series and parallel combination of elements. Application of linear circuit laws to AC circuits (include Thevenin and Norton theorems). Resonance. Introduction to frequency response. Analogue electronic circuits (electronics and circuits) Models for ideal amplifiers. Linear amplifier circuit analysis using Kirchoff's Laws. ldeal operational amplifiers. Linear applications of op-amps. Op-amp integrators and differentiators. Power gain and voltage gain. Power calculations (electronics and circuits) Instantaneous and average power. Real power, reactive power, apparent power and power triangle. Power factor and power factor correction. Complex power. Power measurement. Transformers (electronics and circuits) lntroduction to magnetic fields. EMF equation. ldeal transformer including voltage and current ratios, power transfer, impedance reflection/referral. Maximum power transfer, impedance matching. Text books Bishop. J.M Turbo Pascal Precisely: Addison-Wesley, 1992 Carlson, A.B. and Gisser, D.G. Electrical Engineering Concepts and Applications. 2nd ed, Reading, Mass.: Addison-Wesley, 1990 EE188 Administrative and Resource Package. Swinburne. 1994 EE188 (Computing) R~SOUK~ Package. Swinburne, 1994 (compulsory) Koffman, E.B. Turbo Pascal: Problem Solving and Programme Design. 3rd ed, Addison Wesley, 1991 References Ashley, R. and Fernandez, J. PCDOS: A Self Tmching Guide. 3rd ed, New York: Wiley. 1990 Bobrow, L.S. Fundamentals of Electrical Engineering. Forhrvorth, Tex.: Holt, Rinehart and Winston. 1985 Borland. Turbo Pascal User's Guide. Version 5.0 or 5.5 Borland. Turbo Pascal Reference Guide. Version 5.0 or 5.5 Carmody, L.A. and Holliday, R.L. A First Course in Computer Science with Turbo Pascal. Computer Sciences Press, 1991 Cogdell, J.R. Foundations of Electrical Engineereing. Englewood Cliffs, N.J.: Prentice-Wall, 1990 Del Toro, V. Electrical Engineering Fundamentals. 2nd ed. Englewood Cliffs. N.J.: Prentice-Hall, 1986 Di Elsi, J. Turbo Pascal 6.0: The Nuts and Bolts of Program Construction. McGraw-Hill, 1991 Dos Reference Manual Dos Technical Reference Duntemann, 1. Complete Turbo Pascal. 3rd ed, Scott, Forsman. 1989 Leestma. S.C. and Nyhoff. Turbo PascaCProgramming and Pmblem Solving. New York: Maxwell Macmillan, 1990 Maratek, S.M. Turbo Pascal. Wiley, 1991
n w n c EE254 Electrical Design No. of hours per week: two hours for two semesters Prerequisites: EE188 Electronics, Circuits and Computing Instruction: lectureshutorials/laboratory Assessment: project/examination/assignment A second-year subject in the degree of Bachelor of Engineering (Electrical- unstreamed). Subject aims To introduce the principles of coil design, heating and cooling, D.C. power supply design, printed circuit board design, amplifier design and programmable logic controllers. Subject description lntroduction to electrical design: electrical, magnetic and physical properties of materials. Coil design: series and shunt coils. Winding area, space factor, temperature rise and power dissipations. Project. Heating and cooling: heat generation, storage and dissipation. Conduction, convection and radiation. General heating equation, cyclic heating and heatsink design. DC power supplies: transformers, rectifiers, regulators and IC regulators. Split supply project. Printed circuit board design: track sizing, standards, construction methods and software tools. Amplifier design: BJT amplifiers, bias conditions and small signal model. Two stage amplifier design project. Software tools. lntroduction to programmable logic controllers. TextslReferences Electrical Engineering Design Data. Swinburne Press, 1983 Sedra, A.S. and Smith K.G. Microelectronic Circuitr 2nd ed, New York: Holt. Rinehart and Winston, 1987 ~~258 Electrical Machines No. of hours per week: four hours for two semesters Prerequisites: EE188 Electronics, Circuits and Computing Instruction: lectureskutorials/laboratory Assessment: examination/assignment z A second-year subject in the degree of Bachelor of % Engineering (Electrical- unstreamed). rn 3 Subject aims '!$ To introduce the principles of magnetic circuits, electromechanical energy conversion, transformers, induction 2. machines and power electronics. u3 Subject description Magnetic circuits: reluctance, permanence, and inductance of magnetic circuits of series and parallel form. Calculations for non-linear magnetic circuits. Properties of magnetic circuit materials. lntroduction to electromechanical energy conversion: voltagecurrent, energy storage and forceltoque expressions for singly and doubly excited transducers. Means of torque production. Transformers: uses, types and modes of construction. Ideal transformer equations for emfs, emf ratio, mmf balance, current ratios. Phasor diagram. The practical transformer, equivalent circuit, voltage regulation, efficiency. Instrument transformers. lntroduction to rotating machinery: construction and principles of operation of three-phase induction machines, direct current machines. Power electronics: devices. The power diodes and the silicon control rectifier. Characteristics and ratings and specifications. Simple trigger circuits. AC to DC conversion: single phase and three phase half wave and full wave converters using diodes. Average voltage and ripple factor. Converters using SCR's with a resistive load. Application to speed control of a D.C. motor. An introduction to harmonic content and effective power factor. References Bell, D.A. Electronic Instrumentation and Measurements. Reston, V.A.: Reston Pub. Co., 1983 Chapman, S.J. Electric Machinery Fundamentals. 2nd ed, New York: McGraw-Hill, 1991 Helfrick, A.D. and Cooper, WD. Modern Electronics Instrumentation & Measurement Techniques Englewood Cliffs, N.J.: Prentice-Hall, 1990 Sen, 'C. Principles of Electrical Machines and hwer Elmmnics. New York: Wiley, 1989 Slemon, C.R. and Straughen, A. Electric Machines. Reading, Mass.: Addison-Wesley, 1980 EE263 Computer Systems Engineering No. of hours per week: three hours for two semesters Prerequisites: EE188 Engineering Science, Electronics and Computing Instruction: lecturesllaboratory Assessment: examinationlassignmentl laboratory A second-year subject in the degree of Bachelor of Engineering (Electrical- unstreamed). Subject aims For students to demonstrate a sound understanding of data abstraction and structured programming in PASCAL, and basic computer organisation. Subject description Data structures: Pascal pointer types, lists, stacks, queues, trees, directed and undirected graphs and algorithms for the manipulation of these structures, file types and organisations. Elementary computer organisation using Pascal as the descriptive language: the Von-Neumann fetch-execute cycle, simple single register architectures, their constraints and evolution to multiple register architectures (immediate, direct, register, register indirect and indexed addressing modes). Pascal to assembly language mappings for a multiple-register architecture. Informal treatment of parser construction from a language's syntax using assembly language as an example. The assembly process. The fetch decode and execution process for the multiple-register machine. Internal representation of data types. Integer and floating point arithmetic. References Egan, G .K. Introduction to Computer Systems. Hawthorn: Swinburne Press, 1991 Nyhoff, L.S. and Leestma. 5. Advanced Programming in Pascal with Data Structures. New York, MacMillan, 1988 Sedgewick, R. Algorithms. 2nd 4. Reading. Mass.: Addison-Wesley, 1988 Tanenbaum, A.S. Structured Computer Organisation. 3rd ed, Englewood Cl~ffs, N.J.: Prentice-Hall, 1990 Tenenbaum, A.M. and Augustein, M .J. Data Structures Using Pascal. Englewood Cliffs, N.J.: Prentice-Hall, 1981 EE282 Communication Principles No. of hours per week: two hours for two semesters Prerequisites: EE188 Electronics, Circuits and Computing Instruction: lectures/tutoriaIsllaboratory Assessment: examinationlassignment
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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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~ ~ 2 0 Advanced 7 Italian 2B No. 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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Subject aims and description This s
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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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Students will use state-of-the-art
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Subject aims and description The su
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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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