The professional head of the faculty is the dean, and each department is headed by a dean. The department is fully integrated into the Center for computer-aided planning of the Technical Faculty, and computer-aided planning is used in every year of undergraduate studies.

C. HUGHES, PhD MRIC Lond

B. KROHN

CIVIL AND AGRICULTURAL ENGINEERING DEPARTMENT

G. WILSON Research Assistant

ELECTRICAL AND ELECTRONIC ENGINEERING DEPARTMENT

In the fourth year of the course, some electives in Electrical Engineering 3E will be available to enable students to specialize in communications, electronics, computers, control or microwaves. Summer work during the course is required to ensure students have some industry experience alongside their academic studies.

INDUSTRIAL SCIENCE DEPARTMENT

The Applied Electronics in Applied Science program is a full-time day course with a prescribed sequence of subjects per year. The course aims to give a student a solid foundation in modern electronics and communication systems, a breadth of science and mathematics, some engineering, and after the first year to provide a range of courses to broaden the student's general education and cover topics of relevance in management or administrative careers.

MECHANICAL AND INDUSTRIAL ENGINEERING DEPARTMENT

The Melbourne Diploma in Industrial Engineering exempts the full examination requirements of the Institution of Engineers, Australia. A Diploma in Mechanical Engineering gives full exemption from the membership examination of the Institution of Engineers, Australia.

DEPARTMENT OF SURVEYING AND LAND INFORMATION

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ADMISSION TO COURSES

PRINCIPLES OF SELECTION

If the number of qualified applicants exceeds the number of places available in a particular course, the special selection principles will be used to determine which applicants will be admitted. Applicants not admitted to their first preference course will be offered their next highest preference, subject to availability.

ADVICE TO PROSPECTIVE STUDENTS

FIRST YEAR

RESULTS OF APPLICATIONS

CANCELLATION OF APPLICATIONS

SECOND AND LATER YEARS

ENROLMENT

COURSE REQUIREMENTS

The following rules apply to practical work in all subjects of the programs of the Faculty of Engineering:. Students who opt for this must report to the Faculty Office before the start of the holiday at the end of their second year that they will be fulfilling practical experience requirements in this alternative scheme.

HONOURS

FURTHER DEGREES AT BACHELOR LEVEL

SUSPENSION AND LIMITATION FOR UNSATISFACTORY PROGRESS

UNSATISFACTORY PROGRESS

A student whose study program has been terminated by a faculty or study board pursuant to paragraph 1 or paragraph 2 of paragraph 1 may appeal to the Doctorate Board. For the purposes of this Regulation—. a) each faculty or program committee may set up one or more progress committees on behalf of that faculty or program committee;

UNSATISFACTORY PROGRESS RULES

Preamble

Suspension Guidelines 1 First Year

• Second and Later Years

This includes students who may only repeat those subjects that they failed at the first attempt at the Year and who fail any of those subjects).

Rules Concerning Repeat Students

REGULATION FOR FIRST DEGREES

DEGREES OF BACHELOR OF ENGINEERING AND BACHELOR OF SURVEYING

A candidate who achieves distinction in any subject of a year may receive a prize, exhibition or scholarship in that subject only if he has passed that year at the relevant examination in accordance with the provisions of section 5. A candidate who has passed or gained credit in any year of the course and have completed the work prescribed under section 3 may be accepted to the appropriate degree.

A candidate may be awarded honors in any subject in a year except those designated in the details of courses as pass standard only. A candidate who has passed or obtained credit for each year of the program and has met the requirements in § 3 can be admitted to the degree.

DETAILS OF COURSES

DETAILS OF THE FIRST YEAR OF COURSES

COURSE DETAILS—LATER YEARS

FOURTH YEAR TOTAL 100 Note: In some cases, part or all of a course may be replaced. Courses must be approved by the chairperson of the department in which they are taught and by the chairperson of the Civil and Agricultural Engineering Department.

THIRD YEAR TOTAL 100 FOURTH YEAR

Candidates may only be allowed to take Engineering Mathematics 4 with the approval of the chair of the department. Candidates are only allowed to take Engineering Mathematics 4 with the approval of the chair of the department.

DETAILS OF SUBJECTS

436-434 ADVANCED DESIGN METHODS IN MECHANICAL ENGINEERING

421-372 SOIL SCIENCE (AGRICULTURAL ENGINEERING COURSE)

421-373 SOIL DYNAMICS

421-374 SOIL MECHANICS

421-375 AGRICULTURAL STRUCTURES DESIGN

626-022 GEOLOGY (AGRICULTURAL ENGINEERING COURSE)

421-471 AMI TRACTOR-IMPLEMENT DYNAMICS

421-472 AM2 AGRICULTURAL MACHINE PERFORMANCE

421-474 AM4 AGRICULTURAL MECHANIZATION

421-481 AH1 SURFACE HYDROLOGY

421-482 AH2 AGRICULTURAL WATER MANAGEMENT

421-483 AH3 GROUNDWATER HYDROLOGY

421-484 AH4 AGRICULTURAL WASTE MANAGEMENT

421-491 AS1 FARM BUILDINGS AND ENVIRONMENTAL CONTROL

421-492 AS2 CROP STORAGE AND HANDLING

421-493 AE1 AGRICULTURAL SYSTEMS MANAGEMENT

421-494 AE2 PROFESSIONAL PRINCIPLES AND PRACTICE

200-041 AGRICULTURAL ECONOMICS (ENGINEERING COURSE)

421-485 PRACTICAL WORK

421-486 AGRICULTURAL ENGINEERING DESIGN

421-487 AGRICULTURAL ENGINEERING RESEARCH PROJECT

421-489 HYDRAULIC ENGINEERING (AGRICULTURAL ENGINEERING COURSE)

421-271 ENGINEERING IN AGRICULTURAL PRODUCTION

421-272 AGRICULTURAL BIOLOGY

200-031 AGRICULTURAL SCIENCE (ENGINEERING COURSE)

200-032 AGRICULTURE 1 (ENGINEERING COURSE)

456-301 APPLIED CHEMISTRY 2

456-401 APPLIED CHEMISTRY 3

Excursion reports, exercises and other written works will be taken into account in the evaluation of the exam results. i) Electrical properties of polymers: g. Pratt. ii) Atmospheric chemistry: dr. Mainwaring. All work completed in relation to exercises, laboratory exercises and project work will be taken into account when evaluating the results of the annual examination.

421-224 APPLIED MECHANICS

One day a week for two semesters, followed by approx. 2'A days per week devoted to project work in the third semester in addition to the work specified under 610-336 above.

OPTIMIZATION AND MATHEMATICAL PROGRAMMING 16 lectures, 8 hours tutorials, 8 hours practical work

STORAGES AND QUEUES

FORECASTING METHODS

317-201 BUSINESS ADMINISTRATION 1

317-202 BUSINESS ADMINISTRATION 2

317-203 BUSINESS ADMINISTRATION 3

411-201 CHEMICAL ENGINEERING 1

Electronics

Measurement and Instrumentation

• INTRODUCTION TO BIOCHEMICAL ENGINEERING (about 15 hours lectures)

The approximately 26-hour course consists of approximately 17 lectures and 9 exercises to introduce chemical engineering students to process control concepts and the methods and types of measurements and instruments used in the chemical process industry. Concepts of the metabolic control process and the response of microorganisms to environmental stimuli; implications in the design of industrial bioprocesses.

411-301 CHEMICAL ENGINEERING 2

PRACTICAL WORK

A series of one-day laboratory exercises that illustrate the principles of the lecture material covered in the course. The weighting of the component parts of the assessment will be displayed on the departmental tables before the start of the academic year.

411-401 CHEMICAL ENGINEERING 3

The final year project, which includes laboratory work, theoretical analysis and, where appropriate, computer work, is carried out under the supervision of a member of academic staff. The weightings of the assessment components will be posted on departmental notice boards before the start of the academic year.

411-403 CHEMICAL PLANT DEVELOPMENT AND DESIGN

The unit provides a lead-up to the feasibility study and design study of the chemical plant in the second half of last year. The design of a process to meet a specified requirement, including a study of the feasibility of several alternative processes that will meet the specification.

610-101 CHEMISTRY

Physical Chemistry

Preservation of the natural environment, influence of the engineer on the environmental aspects of disposal of liquid gaseous and solid substances, environmental legislation, influence on planning and design. This includes the preparation of flowcharts, consideration of the effects of market forecasts, economic evaluation, estimates to minimize capital and production costs, equipment specification, selection of appropriate materials for manufacture, location of instrumentation, personnel and labor requirements, and safety measures.

Inorganic Chemistry

A sketch of the chemistry of hydrocarbons and of the main groups of monofunctional compounds in terms of molecular structure and elementary electron theory. The practical work is assessed continuously throughout the year based on the student's performance in the laboratory and written reports.

610-004 CHEMISTRY (ENGINEERING COURSE)

Organic Chemistry

Inorganic Chemistry

CHEMISTRY—SECOND YEAR LEVEL

610-023 CHEMISTRY 2 (CHEMICAL ENGINEERING)

PHYSICAL CHEMISTRY III (36 lectures, 10 tutorials) Thermodynamics

Chemistry of hydrocarbons and of monofunctional compounds in terms of molecular structure and reaction mechanisms. This course builds on the basic treatment of the freshman course to provide basic, working coverage of common organic systems, their reactivity, and the factors that influence them.

INORGANIC CHEMISTRY

610-032 CHEMISTRY 3 (APPLIED CHEMISTRY)

Introduction to statistical and classical thermodynamics of polymer solutions; average molecular masses and average molecular dimensions. Units can be examined at specific times throughout the year and at the end-of-year examination term.

610-033 CHEMISTRY 3 (CHEMICAL ENGINEERING)

Written assignments and/or tests can be taken at fixed times during the year and during the examination period at the end of the year. The relative weightings of the various components of the assessment are published on the department bulletin boards before the start of the academic year.

CIVIL ENGINEERING

Definition of reaction rate, the rate constant, elementary and non-elemental reactions and the equilibrium constant, kinetic models for non-elemental reactions, tests for kinetic models, effect of temperature, mechanism search procedure, case studies. The results of assignments, tests and practicals, together with the marks for the written assignments, count in determining the final result.

421-360 ENGINEERING ECONOMICS

421-350 ENGINEERING PRACTICES

One two hour paper, or the equivalent, for pass and honors combined, which may be taken at the end of the course.

421-370 ENGLISH EXPRESSION FOR ENGINEERING

421-310 STRUCTURAL THEORY AND DESIGN

421-340 TRANSPORT ENGINEERING

626-023 GEOLOGY (ENGINEERING COURSE)

421-465 ADVANCED RESEARCH PROJECT

421-411 ST1 ADVANCED STRUCTURAL ANALYSIS

421-441 T1 TRANSPORTATION PLANNING

421-460 CIVIL ENGINEERING DESIGN

421-452 EP2 CONSTRUCTION METHODS AND WORKS ORGANISATION

421-463 SE1 ELEMENTS OF SYSTEMS ANALYSIS

421-450 ENGINEERING PRACTICES

421-432 GT2 FOUNDATION ENGINEERING

421-430 GEOTECHNICAL ENGINEERING

421-420 HYDRAULIC ENGINEERING

421-461 CM1 NUMERICAL ANALYSIS AND COMPUTER APPLICATIONS IN CIVIL ENGINEERING

421-421 H1 OCEAN AND COASTAL ENGINEERING

421-451 EP1 PROJECT PLANNING AND CONTROL

421-422 H2 PUBLIC HEALTH ENGINEERING

421-464 RESEARCH PROJECT

Practical and instructional tasks and tests held during the year will be assessed to be included in the exam results. The written report, together with an oral presentation of its main findings to an audience of students and teachers, will be graded for pass and honours.

421-423 H3 RIVER ENGINEERING

421-433 GT3 ROCK BREAKING AND EXCAVATION TECHNIQUES

421-462 CM2 STATISTICS AND PROBABILITY

421-410 STRUCTURAL ENGINEERING

The results of practical work and tests carried out during the year will be assessed as part of the test.

421-412 ST2 STRUCTURAL TECHNOLOGY 1

421 -413 ST3 STRUCTURAL TECHNOLOGY 2

421-442 T2 TRAFFIC ENGINEERING

421-440 TRANSPORT ENGINEERING

421-443 T3 TRANSPORT FACILITIES ENGINEERING

421-453 EP3 UNDERGROUND CONSTRUCTION AND TUNNELLING TECHNIQUES

421-212 CIVIL ENGINEERING STUDIES

AGRICULTURAL

Introduction of water hammer and wave action analysis in piping systems. 421-626 H9 SPECIAL STUDIES IN HYDRAULIC ENGINEERING. 421-654 EP7 SPECIAL STUDIES IN ENGINEERING PRACTICE For graduate students who desire further study of special subjects.

451-202 COMPUTER PROGRAMMING

Any changes to this procedure will be communicated to students in the first week of the semester in question.

451-205 COMPUTER SYSTEMS (SURVEYING COURSE)

622-220 COMPUTER SCIENCE 2E

DEVELOPMENT TECHNOLOGIES

Thermodynamics and heat transfer; world energy resources and demand;. extraction rates and conversion and utilization efficiencies; general overview of conversion systems; energy content of products and processes; energy saving; environmental aspects of energy use; economy of energy use. i) nature and availability of solar radiation; Radiation assessments and measuring instruments. ii) materials for the utilization of solar energy; radiation properties and heat transport properties. iii) Introduction to non-concentrating and concentrating tanks, design techniques and performance evaluation. iv) Solar component and operating characteristics of the solar system. v) practical use of solar energy; specific solar installations for developing countries, including solar desalination, solar photovoltaics and solar water pumping. 411. Use of alternative fuels in transport; engine-fuel matching and optimization, alternative engines, durability, in-vehicle fuel storage options, engine-vehicle matching. 436-810 ENERGY 1 - FUNDAMENTALS OF ENERGY. i) Background thermodynamics of energy systems; basic concepts of heat and mass transfer. ii) world resources and energy supply and demand; energy recovery rates; efficiency of conversion and use; general overview of conversion systems. iii) energy content of products and processes; Energy saving techniques; energy management, environmental aspects of energy use; economy of energy use. i) origin and composition of solid fuels; fuel classification concepts;. ii) production and properties of conventional liquid fuels; non-conventional liquid fuels, including alcohol fuels and vegetable oils. iii) Production and properties of gaseous fuels, use of conventional and non-conventional gaseous fuels.

431-312 DISCUSSION SESSIONS 1 (ELECTRICAL ENGINEERING)

MECHANICAL ENGINEERING) Students of the postgraduate program will complete one of the subjects of the research project. After completing the research project subject, the master's students will take one of the subjects of Research Project 2 (candidates for the master's study will have to take both).

431-412 DISCUSSION SESSIONS 2 (ELECTRICAL ENGINEERING)

The Faculty of Engineering has received approval to introduce a graduate Diploma in Development Technology (Dip.Dev.Tech.), which will be a full-cost recovery program primarily for sponsored students. It is intended that this Diploma should be the normal route of entry to the Masters program in Development Technology.

436-312 DYNAMICS AND FLUID MECHANICS

436-202 DYNAMICS OF MACHINES 1

200-021 ECOLOGY (SURVEYING COURSE)

456-304 ECONOMIC STUDIES 2 (APPLIED SCIENCE)

456-305 ECONOMIC STUDIES 2E (APPLIED SCIENCE)

456-405 ECONOMIC STUDIES 3E (APPLIED SCIENCE)

456-304 Economic Studies 2 (Applied Science)

456-305 Economic Studies 2E (Applied Science)

456-405 Economic Studies 3E (Applied Science)

456-404 ECONOMIC STUDIES 3 (APPLIED SCIENCE)

316-308 ECONOMICS C 8

431-201 ELECTRICAL ENGINEERING 1

• Network and Signal Theory
• Electromagnetic Fields
• Power Devices
• Electronic Devices and Circuits
• Digital Techniques and Computer Systems

No student will be admitted to the annual exam without proof of adequate practice class attendance and satisfactory laboratory work. Laboratory work, practical class work and tests count towards the final assessment.

431-211 ELECTRICAL ENGINEERING 1A

Twenty-seven 3-hour laboratory and approximately 52 1-hour laboratory seminars and practice classes (which may include a number of short tests). Reports of laboratory work must be submitted periodically as required by the tutors and practice class calculations must be submitted as required by the tutors.

431-215 ELECTRICAL ENGINEERING 1B

All reports and practical work assignments must be submitted as requested by lecturers; such work will be graded and counted as part of the annual examination results. No student will be admitted to the annual examination without evidence of satisfactory practical work.

431-213 ELECTRICAL ENGINEERING 1M

431-301 ELECTRICAL ENGINEERING 2

The work done during the year in laboratory work, practical classes and tests will be taken into account in the evaluation of the examination results. Requirements regarding the passing of individual pieces of work will be detailed at the beginning of the academic year.

431-401 ELECTRICAL ENGINEERING 3

Students must take only one of the two courses offered in this section. The optional units offered will be announced to the students towards the end of the core course (Section 1).

431-421 ELECTRICAL ENGINEERING 3E

No student is admitted to the annual examination without documentation of satisfactory work during the year in all the above practical work. No student is admitted to the annual examination without documentation of satisfactory work during the year in all the above practical work.

431-331 ELECTRONICS AND INSTRUMENTATION

There will be up to six 3-hour papers, or the equivalent in time, for passes and honours. Additional tests may be held during the year and given some weight in the assessment of the final examination results.

431-214 ELECTRONICS FOR SURVEYORS

436-431 ENERGY CONVERSION AND UTILIZATION

Usage: Efficiency of conversion systems currently used in transportation, manufacturing processes and heating. Grading for passing and final honors will be based on performance throughout the year in tests, practical work and seminars.

436-203 ENGINEERING DESIGN 1

Environmental impact: Aspects of air and thermal pollution and waste disposal problems resulting from conversion systems.

436-303 ENGINEERING DESIGN 2

436-221 ENGINEERING MATERIALS

436-224 ENGINEERING MATERIALS (CIVIL ENGINEERING)

436-223 ENGINEERING MATERIALS (ELECTRICAL)

618-005 ENGINEERING MATHEMATICS 1

For pass and honors: a 2-hour paper in the holidays at the end of the first semester; The work that is done in tutorials and exercise classes and on assignments also counts in the exam.

618-025 ENGINEERING MATHEMATICS 2

Complex Functions and Series

Fourier Series

Functions of Several Variables

Multiple Integrals

Vector Analysis

Metric spaces

Ordinary Differential Equations

Laplace Transform

618-026 ENGINEERING MATHEMATICS 2A

Linear Algebra I

Linear Algebra II

Fourier Transform

618-035 ENGINEERING MATHEMATICS 3

618-036 ENGINEERING MATHEMATICS 3A

618-045 ENGINEERING MATHEMATICS 4

451-303 ENGINEERING PRACTICES (SURVEYING)

436-404 ENGINEERING PRODUCTION

ENVIRONMENTAL ENGINEERING COURSE

Nature of Waste - Solid Waste is a prerequisite for students who wish to take Treatment Procedures - Solid Waste. Other courses offered in the Faculty of Engineering or in other departments within the University may be taken with the approval of the course committee in consultation with the course coordinator.

400-650 ENVIRONMENTAL ENGINEERING - SPECIAL ELECTIVE

Atmospheric pollutants in the workplace; dust; radiation hazards in engineering; heating, air conditioning and refrigeration; industrial ventilation and industrial safety as it relates to the Workmen's Compensation Act. Students may enter this course only with special permission from the Faculty of Engineering.

436-445 FABRICATION TECHNOLOGY

421-230 FLUID FLOW AND HEAT TRANSFER

The Fluid Flow Unit (1) will be examined through testing and review of work submitted during the course.

421-320 FLUID MECHANICS

655-230 THE FUNDAMENTALS OF OPTICAL INSTRUMENTS

451-405 GEODETIC ASTRONOMY

Assignments and practical tasks completed during the course will be graded as part of the exam.

451-406 GEODETIC POSITIONING

421-330 GEOMECHANICS

626-034 GEOPHYSICS (SURVEYING COURSE)

436-433 HISTORY OF TECHNOLOGY

New sources of energy - electric dynamos and generators, water turbines, steam turbines and the internal combustion engine. Grading for success and the final grade will be based on performance throughout the year in fieldwork, assignments and seminars.

436-406 HUMAN ENGINEERING

451-407 HYDROGRAPHIC SURVEYING

421-314 HYDROLOGY

436-320 INDUSTRIAL ADMINISTRATION 1

436-420 INDUSTRIAL ADMINISTRATION 2

436-325 INDUSTRIAL ENGINEERING 1

This exam forms part of the whole subject and is the same as for unit 311-202 Business Administration 2. A list of the relative weights will be displayed on the departmental notice boards at the beginning of the year.

436-425 INDUSTRIAL ENGINEERING 2

All laboratory, design, self-study work, assignments, and occasional tests in a course are graded and included in the exam grades when determining final results. Principles and practice of the planning and control function in an organization, economic batch sizes and inventory management.

456-303 INDUSTRIAL MATERIALS

Quantified planning and control topics selected from: scheduling (including CPM/PERT), resource allocation, assembly line balancing, reliability and maintenance policies, equipment replacement, transportation considerations. All activities related to laboratory and practical training are taken into account in the assessment of the results of the annual examination.

700-110 INTRODUCTION TO CONSTRUCTION PRACTICE

400-101 INTRODUCTION TO ENGINEERING A

Some second-year courses may assume knowledge of the content of specific third-term options. Students will be informed at the beginning of the year of the relative weight that will be given to the different parts of the exam.

400-102 INTRODUCTION TO ENGINEERING B

Drawing office work, options and assignments for topics (1), (2) and (3) will be assessed during the year. Final grading will be for pass and honors and will be based on performance in the drawing office, options, assignments and three examination papers.

400-103 INTRODUCTION TO ENGINEERING C

400-104 INTRODUCTION TO ENGINEERING (SPECIAL COURSE)

451-101 INTRODUCTION TO SURVEYING

Students taking non-standard courses in the first year should note that their choice of options may be limited.

451-409 LAND INFORMATION SYSTEMS—MULTIPURPOSE CADASTRE

451 -404 LAND LAW AND MANAGEMENT

LAW OF PROPERTY IN LAND A course of 26 lectures

LAW RELATING TO SURVEYING

Land transfer law; organization of the Office of Titles; distinction between General Law and Torrens Systems; techniques to establish ownership under both systems, limitations imposed on land by law. The project work performed during the course will be assessed as part of the exam.

LAND MANAGEMENT A course of 12 lectures

Brief overview of the history of law in Australia, the difference between Common Law and Statute; how the law is approved; how to read an Act of Parliament; study of early survey techniques related to land subdivision; revision of the early land alienation system; the features contained in the current statute law regarding the distribution of surpluses and deficiencies etc. Land Act with emphasis on method of alienation of various classifications of Crown Lands; opening and closing of government roads according to this law; brief review of the Lands Department scheme and method of recording survey information.

Local Government Act; opening and closing of roads (along with relationship of Country Roads Board Act); alignment of streets; Local government requirements for land subdivision; right of appeal against refusal to seal; statement of attunements; regulations. Weightings of assessment components are announced at the start of the course.

Project work must be completed as required and assignments up to a total of 100 pages may be set. Weighting of components of assessment will be announced at the start of the course.

618-037 MATHEMATICS 3 (SURVEYING COURSE)

MATHEMATICS AND MATHEMATICAL SCIENCES

436-436 MECHANICAL ENGINEERING ROBOTICS—THEORY AND APPLICATION

Overview and classification of robotic systems; pick and place devices, continuous path manipulators, telechirs, wabots, articulated grippers, load capacities, work volume and limits of accuracy of performance characteristics, robot vision, voice actuators, obstacle avoidance, locomotion strategies, specific examples of robotic applications and limitations to performance. Programming and response; point-to-point programming, higher-level languages, teaching mode programming, space and tool coordinates, computer off-line programming, programming for flexible manufacturing, human factors in the control of robotic systems.

436-210 MECHANICAL ENGINEERING SCIENCE 1

Kinematics of robotic arms; kinematic description of manipulators with multiple degrees of freedom, joint coordinates, task coordinates, transformation of coordinate systems, kinematic models, description of industrial tasks and translation into robot requirements. All laboratory exercises, exercises, assignments, and periodic tests assigned in any course will be graded and included in the exam grades in determining final scores.

436-310 MECHANICAL ENGINEERING SCIENCE 2

Set B: (18 lectures and 12 hours of exercises). a) dependence of mechanical behavior on discontinuities in materials and thus on their microstructure and macrostructure and the presence of inclusions and defects. All laboratory exercises, exercises, assignments and occasional tests in any subject will be graded and included in the examination marks in determining the final results.

436-410 MECHANICAL ENGINEERING SCIENCE 3

The core course and the advanced course will consist of units from the following subjects. The selection is determined by the responsible lecturer and communicated at the start of the lectures on the subject. i) Flat boundary value problems in elasticity.

436-205 MECHANICAL TECHNOLOGY 1

Complex coordinates, general solution of the biharmonic equation, Cartesian and Polish coordinates, unit circle, conformal transformation. ix) Viscoelasticity: Creep and stress relaxation, one-dimensional linear viscoelasticity, integral and transformation methods, three-dimensional viscoelasticity, dynamic and thermal effects, non-linear viscoelasticity. There will be no formal examination; the assessment of this section will be based on the projects submitted as part of the practical work.

436-305 MECHANICAL TECHNOLOGY 2

436-405 MECHANICAL TECHNOLOGY 3

421-214 MECHANICS OF SOLIDS 1C

Analysis of elements: torsion of shafts, spiral springs, shear in beams, combined bending and shear. Practical work carried out during the year will make up 15 per cent. of the final assessment in this subject.

436-432 PHILOSOPHY OF TECHNOLOGY

451-408 PHOTOGRAMMETRY—CURRENT DEVELOPMENTS

Assignments and practical work completed during the course will be assessed as part of the exam.

451-302 PHOTOGRAMMETRY 1

451-402 PHOTOGRAMMETRY 2

Theory, instruments and techniques of data collection by color and multiband photography, multispectral scanners and other electromagnetic sensors.

640-023 PHYSICS 2B (APPLIED SCIENCE)

640-032 PHYSICS 3 (APPLIED SCIENCE)

640-006 PHYSICS 1 (ENGINEERING COURSE)

One subject will be taught at the advanced level and the other at the standard level. Students will be selected for the advanced class based on their overall marks in VCE Physics, Pure Mathematics and Applied Mathematics.

640-026 PHYSICS 2 (ENGINEERING COURSE)

Both classes will be based on the same syllabus below, and students will be ranked on a common final score list. Temperature; Heat and the first law of thermodynamics; thermal properties of materials; kinetic theory of gases.

456-420 POLYMER ENGINEERING

Diffraction of X-rays, electrons and neutrons and their relation to the crystal structure of matter.

451-212 PROFESSIONAL AND LEGAL ASPECTS OF SURVEYING

451-204 RESIDENTIAL FIELD COURSE

436-407 SOME ASPECTS OF BIOENGINEERING

Tests are held at the end of periods 1 and 2, along with a 3-hour final exam at the end of the year. In the assessment for passing and final honors, attention is paid to the performance in the exam, tests, laboratory and seminar work.

436-415 SPECIAL PROJECT (INDUSTRIAL ENGINEERING)

As far as possible, the subjects will be selected to meet the candidates' special interests. Characteristics, respiration and metabolism, oxygen deficiency, decompression hazards, special environments, pollutants, design for the atmospheric environment.

436-416 SPECIAL PROJECT (MECHANICAL ENGINEERING)

619-002 STATISTICS FOR ENGINEERS

619-003 STATISTICS AND STOCHASTIC PROCESSES

Expectations: Multivariate Gaussian processes; Chebyshev/Chernov inequalities; Central Limit Theorem; Weighted independent random variables.

619-011 STATISTICS 1T (APPLIED STATISTICS)

451-201 SURVEYING 1

Photogrammetry: Introduction to Cameras and Photography; the geometry of some aerial photos, elevation and tilt displacements; basic stereoscopic measurements and photo interpretation, survey of photogrammetric maps in Australia. Introduction to the Constitution, Land Transfer Law, Local Government Law and Property Law.

451-301 SURVEYING 2

There will be no formal practical examination, the assignments carried out during the year will be assessed as part of the examination. There will be no formal practical examination; the practical work carried out during the year will be assessed as part of the examination.

451-401 SURVEYING 3

SURVEYING ELECTIVE STUDIES

451-213 SURVEYING (ENGINEERING COURSE)

The subject provides an introduction to the principles and practice of surveying with particular emphasis on engineering applications.

451-403 SURVEYING STUDIES

• PROFESSIONAL PRACTICE A course of 15 lectures
• ENVIRONMENTAL INVESTIGATIONS A course of 15 lectures
• PROJECT
• COMPUTER SYSTEMS

The assessment will be based on one assignment during the course and an exam at the end of the course. The assessment will be based on assignments during the course and a test at the end of the unit.

436-313 THERMODYNAMICS AND FLUID MECHANICS

Specific criteria for assessment will include:. i) planning and organization of the work performed. ii) evidence of reading and ability to assess relevant literature, (iii) clarity and logic in the approach to the assignment. iv) clear and systematic documentation in the report, (v) the quality of the written and oral presentation. This course will provide an introduction to the various computer configurations and operating systems used during the 4th year of the BSurv course.

436-435 TOOL ENGINEERING

705-002 TOWN PLANNING (Introductory)

HIGHER DEGREES AND POST GRADUATE STUDIES*

• DEGREES AWARDED
• TYPES OF CANDIDATURE 1 FULL-TIME CANDIDATURE
• PART-TIME CANDIDATURE
• NON-ATTENDING CANDIDATURE
• EXTERNAL CANDIDATURE
• DETAILS OF GRADUATE STUDIES PROGRAMMES
• Coursework includes
• APPLICATIONS FOR CANDIDATURE
• ENROLMENT AND RE-ENROLMENT
• GRANTS AND SCHOLARSHIPS (i) Research Awards
• ADDITIONAL INFORMATION

Units in the elective course may be chosen from more than one of the streams offered after consultation with the course coordinator. The research component will be assessed by thesis and will constitute 60 percent of the total work.

REGULATIONS FOR HIGHER DEGREES

• DEGREE OF MASTER OF ENGINEERING S C I E N C E
• DEGREE OF MASTER OF SURVEYING SCIENCE
• D E G R E E S OF MASTER OF ENGINEERING AND MASTER OF SURVEYING
• DEGREE OF MASTER OF APPLIED SCIENCE
• DEGREE OF DOCTOR OF ENGINEERING
• DEGREE OF DOCTOR OF APPLIED SCIENCE
• DEGREE OF DOCTOR OF PHILOSOPHY
• DIPLOMA IN DEVELOPMENT TECHNOLOGIES

For the purposes of rule 4.4.1, the thesis must be written in English, unless the council decides otherwise on the recommendation of the academic council. A candidate may, prior to commencing the course, be required to participate in Australia in a preliminary program of study prescribed by the Faculty.

AWARDS FOR ENGINEERING, SURVEYING AND APPLIED SCIENCE STUDENTS

Assistant Registrar (Engineering) Assistant Registrar (Engineering) Chairman, Civil and Agricultural Engineering Chairman, Civil and Agricultural Engineering R.6.111. President, Electrical and Electronic Engineering President, Electrical and Electronic Engineering President, Electrical and Electronic Engineering R.6.72(20).

LIST OF SUBJECTS

POST GRADUATE COURSES

BOOKLISTS

421-470 AGRICULTURAL ENGINEERING (FOURTH YEAR)

200-041 AGRICULTURAL ECONOMICS (ENG. COURSE)

AGRICULTURAL ENGINEERING (Third Year)

AGRICULTURAL ENGINEERING (Second Year)

200-031 AGRICULTURAL SCIENCE (ENG. COURSE)

Frederickson A G Principles and Applications of Rheology Prentice-Hall McCrum N G Read B E and Williams G Anelastic and Dielectric Effects in Polymerics. Eirich E R Rheology: Vols l-V Academic Reiner M Deformation, Strain and Flow Lewis Sherman P Industrial Rheology Academic Blythe A R Electrical Properties of Polymers CUP.

617-001 BASIC OPERATIONS RESEARCH

Popov E P Mekanika dagiti Materiales [S/ bersion] 2nd ed Prentice-Hall Meriam J L Dinamika [SI bersion] 2nd ed Wiley. Stanier R Y Adelberg E. A. ken Ingraham J Sapasap a Mikrobiolohia maika-4 nga ed. Macmillan Bailey J E ken Ollis DF Dagiti Pangrugian ti Biokemikal nga Inhenieria 2nd edn. McGraw- ni McGraw-.

610-101 CHEMISTRY 1

Timoshenko S Trdnost materialov Pt 1 3rd ed Van Nostrand Rheinhold 'Levenspiel O Chemical Reaction Engineering 2nd ed Wiley. Svarovsky L So//r/ Liquid Separation 2nd ed Butterworth Allen T Particle Size Measurement 3rd ed Chapman & Hall DelToro Electrical Engineering Fundamentals 2nd ed Prentice-Hall.

610-004 CHEMISTRY (ENG. COURSE)

Guy A G and Hren J J Elements of Physical Metallurgy 3rd ed. Addison-Wesley Fontana and Green Corrosion Engineering McGraw-Hill. Ramalho R S Intro to Wastewater Treatment Processes 2nd Ed. Academic Press Stanbury PF and Whittaker A"Principles of Fermentation Technology 1st ed.

CIVIL ENGINEERING (Third Year)

CIVIL ENGINEERING (Fourth Year)

Prentis J M Dynamics of Mechanical Systems 1970 Longman Meirovitch L Elements of Vibration Analysis McGraw-Hill (For each of the above: latest edition or Student's edition). Hayt W H and Kemmerly J E Engineering Circuit Analysis 2nd ed McGraw-Hill Gray P E and Searle C L Electronic Principles: Physics.

431-215 ELECTRICAL ENGINEERING 1 B

Cooper GR and McGillem CD Probabilistic Methods of Signal and System Analysis 2nd ed Holt Rinehart & Winston. Huelsman LP Basic Circuit Theory with Digital Computations 1972 Prentice-Hall Phillips CL and Nagle HT Digital Control System Analysis and Design 1984.

431-321 ELECTRICAL ENGINEERING 2E

Phillips and Nagle Digital Control System Analysis and Design Prentice-Hall Kimbark E W Power System Stability: Synchronous Machines Dover. 34;Gray and Meyer Analysis and Design Analog Circuits Wiley Schwartz Information Transfer ISE McGraw-Hill Ogata K Modern Control Engineering 1970 Prentice-Hall.

436-315 ENGINEERING DESIGN 1A

Proakis J G Digital Communications 1983 McGraw-Hill Katz P Digital control using microprocessors Prentice-Hall Millman J Microelectronics 1979 McGraw-Hill. Analysis and Design of Phillips and Nagle Digital Control Systems Prentice-Hall Constantine Houris and Lamont Digital Control Systems McGraw-Hill Brierley H G Telecommunications Engineering 1986 Edward Arnold Weste N & Eshraghian K Principle of CMOS VLSI Design Addison-Wesley.

Scarr A J T Metrology and Precision Engineering McGraw-Hill Other reference material will be given during the course. Frans M J Engineering Design: The Conceptual Stage 1971 Heinemann Shigley J E Mechanical Engineering Design 3rd ed McGraw-Hill.

451-191 INTRODUCTION TO SURVEYING

Breckon CJ Jones LJ Moorhouse C E Visual Messages 2nd ed Pitman Edminister JA Electric Circuits 2nd ed Schaums McGraw-Hill. Welsh J and Elder J Introduction to Pascal 2nd Edition 1982 Prentice-Hall Nilsson J W Electric Circuits 2nd Edition 1986 Addison-Wesley.

618- 037 MATHEMATICS 3 (SURVEYING COURSE)

436-436 MECHANICAL ENGINEERING ROBOTICS

Wallace F J and Linning W A Basic Engineering Thermodynamics 1 st ed Pitman 'Lichty L C Combustion Engine Processes 1 st ed McGraw-Hill. Cannon R H Dynamics of Physical Systems 1st ed McGraw-Hill Den Hartog J P Mechanical Vibrations 4th ed McGraw-Hill.

421-213 MECHANICS OF SOLIDS 1 B