The courses offered in Computer Science, apart from the Postgraduate Diploma in Computer Studies, are detailed in the Faculty of Science Handbook. The department participates fully in the Faculty of Engineering's Computer Aided Design Center and computer aided design is used in every year of the undergraduate course.

C. HUGHES, PhD MRIC Lond

NILMANI, BE (Met Eng) Roorkee, MSc (Met Eng) Banaras PhD (Met Eng) Imperial College DIC MAmerSM AMAusIMM.

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, allowing students to specialize in communications, electronics, computers, control or microwaves. Summer work during the course is required to ensure that students gain some industry experience concurrently with their academic studies.

MECHANICAL AND MANUFACTURING 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

DURMAZ, MSc Ankara

PRINCIPLES OF SELECTION

ENTRY TO SECOND YEAR COURSES

Admission to the Second Year course of first or second preference may be subject to application of the quota in some courses. Applicants who are not admitted to their first preference course will be offered their next highest preference, subject to availability of places.

ADVICE TO PROSPECTIVE STUDENTS

FIRST YEAR

RESULTS OF APPLICATIONS

CANCELLATION OF APPLICATIONS

ENROLMENT

COURSE REQUIREMENTS

Year at least six consecutive weeks for engineering students, five for surveying students as follows:. i) Students completing the course for BSurv must obtain approved practical experience in land surveying. Students who choose to do this must, before the start of the vacation at the end of their second year, inform the faculty office that they will fulfill practical experience requirements under this alternative arrangement.

HONOURS

Excursions take place in the following subjects: i) Several full and half-day excursions during semesters and the mid-year period outside of teaching. ii) A four-day field trip for combined Year 3 and Year 4 students during the non-teaching midterm. i) Second year - one excursion (not compulsory). ii) Third year - two excursions. iii) Fourth year - up to five excursions. ELECTRICAL ENGINEERING (i) Third year-three excursions. ii) Fourth year - excursions to industrial and/or research institutions can be organized.

FURTHER DEGREES AT BACHELOR LEVEL

Since the student in question will have qualified for the Bachelor of Engineering degree by virtue of completion of his or her original course, no other Bachelor of Engineering degree will be awarded. Two years (minimum) of additional study from the Faculty of Science is required to qualify for the BSc degree.

SUSPENSION AND LIMITATION FOR UNSATISFACTORY PROGRESS

When applying for re-admission, the Academic Committee may, on the recommendation of the relevant Faculty or Board of Studies or, where appropriate, on the recommendation of the Master of Business Administration Board, require that he be re-enrolled. selected into the course before the student is allowed to resume studies. If the Committee, on the recommendation of the relevant Faculty, Committee of Studies or Master of Business Administration Committee, is satisfied that the condition or circumstances of any such student seeking readmission to the course or courses has so changed that there is a reasonable probability that he he or she has made satisfactory progress in any such course, may allow such student to be re-admitted to such course without requiring the student to be reselected into the course.

PROGRESS RULES

Preamble

Suspension Guidelines 1 First Year

• Second and Later Years

This includes students who may repeat only those subjects failed in the first attempt and fail any of the subjects for a second time). The judgment here is at the discretion of the Examinations and Unsatisfactory Progress Committee which considers the relative weights of subjects in making its decision.

Rules Concerning Repeat Students

In the second attempt, the student may be recommended for expulsion if he does not complete the year. The completed course must be approved by the head of the relevant department and the dean of the faculty.

Progression to the following year of the course is decided by reference to the results obtained for the subjects that are repeated, but the Examinations and Unsatisfactory Progress Committee may also take into account the results obtained for other subjects. On entry to any year of the course for the first time, a student must take an equivalent full load of subjects.

REGULATIONS FOR FIRST DEGREES

DEGREES OF BACHELOR OF ENGINEERING AND BACHELOR OF SURVEYING*

A candidate who obtains honors in any subject of a Year can only be awarded a prize, exhibition or scholarship in that subject if he has passed the relevant examination in that Year in accordance with the provisions of section 5. A candidate who has passed has or has achieved credit for each year of the course, and completes the work prescribed in terms of section 3, may be admitted to the appropriate degree.

Note: The listed points only apply to the Faculty of Technology and in no way correspond to point values ​​in the structure of the Faculty of Science.

400-101 INTRODUCTION TO ENGINEERING A

400-102 INTRODUCTION TO ENGINEERING B

The graphic practice work, the assignments on topic 2 and the options are assessed throughout the year. At the beginning of the year, the student is informed of the relative weight assigned to the various components of the assessment.

400-103 INTRODUCTION TO ENGINEERING C

One two-hour examination of topics 3, 4 and/or 5 will be held at the end of each semester. One two-hour examination of topics 3, 4 and/or 5 will be held at the end of each semester.

400-104 INTRODUCTION TO ENGINEERING (SPECIAL COURSE)

Final assessment will be by pass and mark, and will be based on performance in all parts of the course.

400-105 ENGINEERING COMPUTING 1

610-004 CHEMISTRY (ENGINEERING COURSE)

Organic Chemistry

Inorganic Chemistry

610-102 CHEMISTRY

618-005 ENGINEERING MATHEMATICS 1

For pass and honors: one 3-hour written exam at the end of the first semester and two 2-hour written exams at the end of the second semester. Work completed in exercises and exercises and assignments will be included in the final assessment mark and students will be informed at the start of the year of the relative weight to be given to the components of the assessment.

640-006 PHYSICS 1 (ENGINEERING COURSE)

Laboratory work is assessed on the fly during the year and represents 10% of the total grade.

640-140 PHYSICS 1 (STANDARD) 640-120 PHYSICS 1 (ADVANCED)

618-101 ALGEBRA

618-102 ANALYSIS

The weighting of assessment components is announced at the start of the unit. The weighting of assessment components is announced at the start of the component.

618-132 APPLICATIONS

Written assignments (max. 26 pages in total) and a max. 3-hour written exam at the end of the 2nd semester. Differential and differential equations; first order ordinary differential equations, separable, linear integrative factor, homogeneous, applications (mixing, radiation, conduction and others).

LATER YEAR ENGINEERING COURSES

Rigid body dynamics: angular momentum and energy of the particle system, rigid body up to Euler equations; aircraft movements.

AGRICULTURAL ENGINEERING

200-032 AGRICULTURE 1 (ENGINEERING COURSE)

421-214 MECHANICS OF SOLIDS 1C

Analysis of elements: torsion of shafts, helical springs, shear in beams, combined bending and shear. Practical work done during the year will make up 15 percent of the final assessment in this subject.

421-230 FLUID FLOW AND HEAT TRANSFER

The five 2-hour lab sessions for the Heat Transfer Unit have been chosen to illustrate the material covered in the lectures. The Fluid Flow unit (1) will be examined through testing and review of work submitted over the course of the unit.

421-271 ENGINEERING IN AGRICULTURAL PRODUCTION

421-272 AGRICULTURAL BIOLOGY

431-215 ELECTRICAL ENGINEERING 1B

436-203 ENGINEERING DESIGN 1

436-221 ENGINEERING MATERIALS

451-202 COMPUTER PROGRAMMING

There will be no formal examination; the evaluation of this subject will be based on the projects presented as part of the practical work.

451-213 SURVEYING (ENGINEERING COURSE)

618-203 ENGINEERING MATHEMATICS 2A

Functions of several variables

Multiple Integrals

Vector Analysis

Fourier Series

Linear Algebra for Differential Equations

618-204 ENGINEERING MATHEMATICS 2B

Linear Ordinary Differential Equations with Constant Coefficients Brief review of the elementary approach for a single linear differential equation

Laplace Transforms

Complex Analysis

200-033 AGRICULTURE 2 (ENGINEERING COURSE)

421-320 FLUID MECHANICS

There is no practical test, but the written assignments may contain questions about the practical work. Practical and instructional tasks and tests held during the year will be assessed to be included in the exam results.

421-372 SOIL SCIENCE (AGRICULTURAL ENGINEERING COURSE)

Reports and other tasks in connection with the practical work must be handed in at specified times.

421-373 SOIL DYNAMICS

421-374 SOIL MECHANICS

421-376 AGRICULTURAL PHYSICS

421-377 PROPERTIES OF AGRICULTURAL MATERIALS

431-331 ELECTRONICS AND INSTRUMENTATION

436-202 DYNAMICS OF MACHINES

618-303 ENGINEERING MATHEMATICS 3A

618-304 ENGINEERING MATHEMATICS 3B

619-002 STATISTICS FOR ENGINEERS

626-022 GEOLOGY (AGRICULTURAL ENGINEERING COURSE)

200-041 AGRICULTURAL ECONOMICS (ENGINEERING COURSE)

421-445 VACATION WORK (PRACTICAL EXPERIENCE — AGRICULTURAL)

421-471 TRACTOR-IMPLEMENT DYNAMICS (AM1)

421-472 AGRICULTURAL MACHINE PERFORMANCE (AM2)

Up to two exams of r/2 hours, or the equivalent in time, covering both theory and practical work, part of which may be taken during the year, for passing and honorable mentions. tillage, land formation, compaction, drainage); distribution of agricultural materials (sprays, fertilizers, seeds, water); harvesting and transporting agricultural products (carrots, fodder, grain, horticultural crops, milk, wood).

421-474 AGRICULTURAL MECHANIZATION (AM4)

421-482 AGRICULTURAL WATER MANAGEMENT (AH2)

421-483 GROUNDWATER HYDROLOGY (AH3)

421-484 AGRICULTURAL WASTE MANAGEMENT (AH4)

421-485 PRACTICAL WORK

421-486 AGRICULTURAL ENGINEERING DESIGN

421-487 AGRICULTURAL ENGINEERING RESEARCH PROJECT

421-491 FARM BUILDINGS AND ENVIRONMENTAL CONTROL (AS1)

421-492 CROP STORAGE AND HANDLING (AS2)

421-494 PROFESSIONAL PRINCIPLES AND PRACTICE (AE2)

421-489 HYDRAULIC ENGINEERING (AGRICULTURAL ENGI- NEERING COURSE)

436-303 ENGINEERING DESIGN 2

CHEMICAL ENGINEERING

FOURTH YEAR TOTAL 100 64

411-201 CHEMICAL ENGINEERING 1

• MATERIAL AND ENERGY BALANCES
• INTRODUCTION TO RATE P R O C E S S E S
• INTRODUCTION TO P R O C E S S ENGINEERING
• INTRODUCTION TO PROCESS CONTROL
• Measurement and Instrumentation
• INTRODUCTION TO BIOCHEMICAL ENGINEERING
• PRACTICAL WORK This will include

All laboratory activities and assignments from Chapter 3 – Introduction to process engineering are assessed and included in the final results. The assessment of the result of the annual examination takes into account all the work done in connection with practical work, problem papers and tests.

PHYSICAL CHEMISTRY III Thermodynamics

Structure of materials: The development of microstructure in alloys and its control by heat treatment. All records made during the year must be retained for submission if necessary in connection with the annual examination.

ORGANIC CHEMISTRY

INORGANIC CHEMISTRY

One written test of a maximum duration of three hours at the end of 1. term. Linear ordinary differential equations with constant coefficients Brief review of the elementary approach to a single linear differential equation Brief review of the elementary approach for a single linear differential equation with constant coefficients.

411-301 CHEMICAL ENGINEERING 2

• M A S S TRANSFER OPERATIONS
• CONVECTIVE AND RADIATIVE HEAT TRANSFER
• FLUID MECHANICS. PROPERTIES OF SOLIDS AND FLUID SOLID INTERACTIONS
• INTRODUCTION TO CHEMICAL REACTOR PRINCIPLES
• P R O C E S S DYNAMICS AND CONTROL
• P R O C E S S EQUIPMENT DESIGN
• ENGINEERING ECONOMIC ANALYSIS
• BIOCHEMICAL ENGINEERING
• P R O C E S S ENGINEERING
• PRACTICAL WORK

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

610-033 CHEMISTRY 3 (CHEMICAL ENGINEERING)

Linear Algebra and Metric Space Theory

Linear Differential Equations with Variable Coefficients

Partial Differential Equations

Applications of Fourier and Laplace transforms to the solution of ordinary differential equations, partial differential equations and integral equations.

618- 304 ENGINEERING MATHEMATICS 3B

619- 002 STATISTICS FOR ENGINEERS

One written examination of a maximum of three hours at the end of the first semester.

411-401 CHEMICAL ENGINEERING 3

• Heat transfer
• Mass transfer
• Particle mechanics
• Metallurgy and corrosion
• Chemical reactor principles
• Process dynamics and control

A final year project involving laboratory work, theoretical analysis and possibly computer work is carried out under the supervision of a member of the scientific staff. Weighting of parts of the assessment will be displayed on the department's notice boards before the start of the academic year.

411-403 CHEMICAL PLANT DEVELOPMENT AND DESIGN

Conservation of the natural environment, impact of engineering on environmental aspects of liquid gaseous and solid disposal, environmental legislation, effect on planning and design. The design of a process to meet a specified requirement, including an examination of the feasibility of various alternative processes which will meet the specification.

411-444 VACATION WORK (PRACTICAL EXPERIENCE — CHEMICAL)

The sequence for researching a chemical production project and preparing a report on the work. This includes drawing up flowcharts, considering the effects of market forecasts, economic evaluation, estimates for minimizing capital and production costs, equipment specification, selection of appropriate construction materials, location of instrumentation, personnel and labor requirements , and security measures.

CIVIL ENGINEERING

Project work under points 1 and 3 above will be included in the assessment of the final result in the subject.

421-212 CIVIL ENGINEERING STUDIES

Equilibrium of fluids - pressure, shear and body forces, hydrostatic pressures on submerged objects, capillary effects. Properties of liquids - gas laws, compression and expansion, liquid/vapor equilibrium, vapor pressure, viscosity, conductivity and dispersion.

431-211 ELECTRICAL ENGINEERING 1A

436-224 ENGINEERING MATERIALS (CIVIL ENGINEERING)

Linear Ordinary Differential Equations with Constant Coefficients Brief review of the elementary approach for a single linear differential equation with constant coefficients. One written examination of a maximum of three hours at the end of Second Semester.

421 -310 STRUCTURAL THEORY AND DESIGN

421-330 GEOMECHAIMICS

421-340 TRANSPORT ENGINEERING

421-350 ENGINEERING PRACTICES

One two-hour assignment or equivalent performance and honors assignment combined, which may be completed at the end of the course.

421-360 ENGINEERING ECONOMICS

421-370 ENGLISH EXPRESSION FOR ENGINEERING

Review: Some elements of the following list of probability topics as described by class needs. Methods without distribution: Fisher, Wilcoxon, Mann-Whitney tests; Distribution-free location and scale tests; Distribution-free estimation and confidence intervals.

626-023 GEOLOGY (ENGINEERING COURSE)

421-420 HYDRAULIC ENGINEERING

421-430 GEOTECHNICAL ENGINEERING

421-440 TRANSPORT ENGINEERING

421-444 VACATION WORK (PRACTICAL EXPERIENCE — CIVIL)

421-460 CIVIL ENGINEERING DESIGN

421-411 ADVANCED STRUCTURAL ANALYSIS (ST1)

421-412 STRUCTURAL TECHNOLOGY 1 (ST2)

421-413 STRUCTURAL TECHNOLOGY 2 (ST3)

421-421 HYDRAULICS OF COASTS AND OCEANS (H1)

421-423 HYDRAULICS OF RIVERS AND ESTUARIES (H3)

421 -431 EARTH PRESSURE AND RETAINING SYSTEMS (GT1)

421-432 ANALYSIS AND DESIGN OF SHALLOW FOUNDATIONS (GT2)

421-451 PROJECT PLANNING AND CONTROL (EP1)

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

421-462 STATISTICS AND PROBABILITY (CM2)

ELECTRICAL ENGINEERING

THIRD YEAR TOTAL 100 FOURTH YEAR

421-224 APPLIED MECHANICS

Practical work done during the year will make up 20 percent of the final assessment in this section of the subject.

431-201 ELECTRICAL ENGINEERING 1

No students will be admitted to the annual examination without proof of satisfactory attendance at the practical class and of satisfactory laboratory work. Laboratory work, practice class work and tests will be taken into account in the final assessment.

436-223 ENGINEERING MATERIALS (ELECTRICAL)

Twenty-seven 3-hour laboratory and approximately 52 hours of 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.

618-205 ENGINEERING MATHEMATICS 2C

618-206 ENGINEERING MATHEMATICS 2D

618-207 ENGINEERING MATHEMATICS 2 E

• Eigenvalues
• Canonical forms
• Cayley-Hamilton Theorem
• Exponential matrix
• Linear equations
• Control applications

Laplace transform, with table lookup to solve auxiliary assignment problems on linear differential equations with constant coefficients. One written examination of a maximum of two hours at the end of the first semester.

618-208 ENGINEERING MATHEMATICS 2F

Fourier transforms

Generalized functions (Lighthill's theory)

Linear systems

Applications

Introduction to Quantum Theory Theory of thermal radiation

Quantum Theory Applied to Materials

Geometrical and Physical Optics

431-301 ELECTRICAL ENGINEERING 2

• Networks and Control
• Electronics and Communications
• Power Networks, Equipment, and Systems
• Digital Techniques and Computer Systems

Work done during the year with laboratory work, practice lessons and tests will be taken into account in the assessment of the exam results. Requirements for passing individual parts of the work will be detailed at the beginning of the academic year.

436-313 THERMODYNAMICS AND FLUID MECHANICS

618-309 ENGINEERING MATHEMATICS 3G

First-order partial differential equations Continuity equation, characteristics, shocks

Second-order partial differential equations

Frobenius method

Bessel functions

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).

Each student must write a thesis during the second semester of no more than 5,000 words on a topic in electrical engineering to be determined in consultation with the staff. No student is admitted to the annual examination without documentation of satisfactory work during the year in all the above practical work.

431-444 VACATION WORK (PRACTICAL EXPERIENCE

For pass and honors, up to seven 3-hour papers or equivalent time will be available. Additional tests may be conducted during the year, which must be given a certain weight in evaluating the results of the final examination.

ELECTRICAL)

316- 308 ECONOMICS C 8 (INDUSTRIAL RELATIONS)

317- 201 BUSINESS ADMINISTRATION 1 (ORGANISATIONAL BEHAVIOUR)

317-202 BUSINESS ADMINISTRATION 2 (ORGANISATION AND MANAGEMENT)

317-203 BUSINESS ADMINISTRATION 3 (BUSINESS DECISIONS)

INDUSTRIAL ENGINEERING

No student will be admitted to the final examination without evidence of satisfactory practical work.

436-320 INDUSTRIAL ADMINISTRATION 1

Organization and Management (24 lectures and 12 tutorials) As for 317-202 Business Administration 2

436-325 INDUSTRIAL ENGINEERING 1

Manufacturing Processes (First Semester - 20 lectures, 11 tutorials and 11 hours of laboratory work. Second Semester - 20 lectures, 11 tutorials and 11 hours of laboratory work). Second Semester - 18 lectures, 12 tutorials and 11 hours of lab work.). a) Introduction to problem solving in industrial engineering (12 lectures and 12 hours of tutorials and practical lessons).

618-307 ENGINEERING MATHEMATICS 3 E

Basic probability and statistics: Simple and conditional probabilities up to Bayes' theorem; Random variables (discrete); Common counting distributions. Bernoulli, genetic, hypergeometric and Poisson; Random variables (continuous); Cumulative distributions; Probability Densities; Some common continuous distributions.

436-415 SPECIAL PROJECT (INDUSTRIAL ENGINEERING)

436-420 INDUSTRIAL ADMINISTRATION 2

436-425 INDUSTRIAL ENGINEERING 2

Second Semester — 24 lectures, 10 tutorials and 10 hours of laboratory work.). a) Metal cutting machine tools: Requirements and design features of machine tools, including the generation of machined surfaces, work capacity, speed, feed and power, specification and inspection, analyzes of machine tool drives and stability analyses. Business Planning (First Semester — 42 lectures, 19 tutorials and 19 hours of laboratory work. Second Semester — 42 lectures, 19 tutorials/practice classes and 19 hours of laboratory work.).

436-446 VACATION WORK (PRACTICAL EXPERIENCE — INDUSTRIAL)

436-406 HUMAN ENGINEERING

Kinematics of the human body, biomechanics of musculoskeletal components, prostheses, artificial limbs and implants. The tests will take place at the end of the 1st and 2nd semester together with a final 3-hour exam task at the end of the year.

436-432 PHILOSOPHY OF TECHNOLOGY

Characteristics, respiration and metabolism, oxygen deprivation, decompression hazards, special environments, contaminants, designs for the atmospheric environment. In the assessment of passing and obtaining the diploma, the performance on the exam, tests, laboratory and seminar work is taken into account.

436-433 HISTORY OF TECHNOLOGY

Renaissance Mechanics and Engineers: Leonardo, His Predecessors and Successors, "The Machine Books" and Their Authors. New energy sources: electric dynamos and generators, water turbines, steam turbines and the combustion engine.

436-434 ADVANCED DESIGN METHODS IN MECHANICAL ENGINEERING

Ancient technology: The mathematics and technology of Neolithic stone rings, surveying and construction of dams, irrigation canals. Contributions to case study discussions and work on class assignments during the year will be given weight in assessing the standard of candidates.

436-435 TOOL ENGINEERING

436-436 MECHANICAL ENGINEERING ROBOTICS — THEORY AND APPLICATION

Assessment of materials, measurement of process limits and determination of geometric and frictional effects in selected work processes including rolling, drawing and extrusion.

436-445 FABRICATION TECHNOLOGY

MECHANICAL ENGINEERING

436-305 MECHANICAL TECHNOLOGY 2

All laboratory work, projects, tutorials, assignments and case tests set in each course will be graded and included with the exam grades in determining the final results. A list of relative weightings will appear on departmental notice boards at the beginning of the year.

436-310 MECHANICAL ENGINEERING SCIENCE 2

Mechanics of Solids (First Semester — 18 lectures, 8 tutorials and 7 hours of laboratory work. Second Semester — 18 lectures, 8 tutorials and 7 hours of laboratory work.). Second Semester — 9 lectures, 4 tutorials and 5 hours of laboratory work. a) Three-dimensional elasticity; principal values, level stress and level stress.

618-307 ENGINEERING MATHEMATICS 3E

One written exam lasting no more than two hours and having extensive tasks involving the use of a computer.

436-405 MECHANICAL TECHNOLOGY 3

Technology (First semester — 18 lectures, 3 exercises and 3 hours of laboratory work. Second semester — 18 lectures, 3 exercises and 3 hours of laboratory work.). An examination of the determinants and consequences of technological change and the role and responsibility of the engineer in the process:. a) The nature of technology, science and their interrelationship.

Thermodynamics (First semester — 12 lectures, 6 hours of lessons and 6 hours of laboratory work. Second semester — 12 lectures, 6 lessons and 6 hours of laboratory work.). The Basic Course and the Advanced Course will consist of units taken from the following topics.

Complex coordinates, general solution of the biharmonic equation, Cartesian and polar 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. 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.

436-444 VACATION WORK (PRACTICAL EXPERIENCE — MECHANICAL)

316- 308 ECONOMICS C8 (INDUSTRIAL RELATIONS)

436-404 ENGINEERING PRODUCTION

The assessment for pass and final honors will be based on performance throughout the year on tests, practical work and seminars. The topics will be chosen to accommodate as far as possible the particular interests of candidates.

436-431 ENERGY CONVERSION AND UTILISATION

Grading for passing and final assessments will be based on performance throughout the year in tests, practical work and seminars. Assessment for success and final honors will be based on performance throughout the year in fieldwork, assignments and workshops.

MECHANICAL AND MANUFACTURING ENGINEERING

431-213 ELECTRICAL ENGINEERING 1M

No student is admitted to the annual examination without documentation of satisfactory practical work.

436-250 APPLIED MECHANICS 1

The course will cover the basic principles and behavior of fluids at rest and in motion and will include: static forces on submerged structures, stability of floating bodies, kinematics and dynamics of fluids; incompressible flow in pipes and channels; compressible flow; flow around submerged bodies such as vehicles, structures and airfoils, boundary layer entrainment; characteristics of fluid machines and applications in fluid networks; flow measurements and instrumentation; dynamic similarity, model testing. A list of relative weightings will appear on departmental notice boards at the beginning of the year.

436-251 MANUFACTURING SCIENCE 1

FLUID MECHANICS (a course of 13 lectures and 6 tutorials in semester 1, 13 lectures and 7 tutorials in semester 2 and a total of 13 hours of laboratory work spread over the year). Lab work, tutorial work, assignments and occasional tests that occur in a course are graded and factored into the exam grades when determining final results.

436-252 ENGINEERING DESIGN AND MATERIALS 1

In this part of the course, the emphasis is on identifying the feature requirements of typical applications. This part of the course focuses on the relationships between structure and properties discussed in Section 1.

618-205 ENGINEERING MATHEMATICS 2 C

Work on project assignments and projects during the year will be taken into account when assessing the standard of all candidates.

618- 206 ENGINEERING MATHEMATICS 2D

Complex Variables

619- 004 STATISTICS FOR MECHANICAL AND MANUFACTURING ENGINEERS

SURVEYING

FOURTH YEAR TOTAL 100

A list of available options is posted and students are asked to indicate their preferred order from those options. At the end of each semester, a two-hour exam is held on topics 3, 4 and/or 5.

451-101 RESIDENTIAL FIELD COURSE 1

Vectors and Vector Geometry

Addition, multiplication, division, cartesian and polar forms, complex exponentials, expressions in powers of cos and sin 8 in cos n8, sin n0, geometry of.

431-101 COMPUTER SCIENCE 1A

Numerical calculation: number representation, rounding and truncation errors, integration, solving linear and non-linear equations, curve fitting, random number generation.

SURVEYING ELECTIVE STUDIES

200-021 ECOLOGY (SURVEYING COURSE)

451-201 SURVEYING 1

Introduction to the Land Act, the Land Transfer Act, the Municipal Administration Act and the Property Rights Act. There is no formal practical test, the assignments completed during the year will be graded as part of the test.

451-204 RESIDENTIAL FIELD COURSE

One written exam, lasting no more than three hours, at the end of the second semester. Additional tests may be given during the semester, which must be given a certain weight in evaluating the results of the final exam.

655-230 THE FUNDAMENTALS OF OPTICAL INSTRUMENTS

700-001 BUILDING CONSTRUCTION (SURVEYING COURSE)

421-314 HYDROLOGY

451-301 SURVEYING 2

451-302 PHOTOGRAMMETRY 1

Theory and Procedures of Terrestrial and Industrial Photogrammetry; planning, assessment of accuracy and precision, case studies. The assignments submitted during the year and the practical work will be included in the assessment.

451-303 ENGINEERING PRACTICES (SURVEYING)

Laboratory sessions are related to elementary stereoscopic measurement and operation of stereoscopic plotting equipment.

451-304 MATHEMATICS 3 (SURVEYING COURSE)

451-401 SURVEYING 3

Map projections: Transformation from geographic to grid coordinates and from grid to geographic coordinates on selected map projections of the spheroid. Assignments and practical work carried out during the course will be assessed as part of the examination.

451-402 PHOTOGRAMMETRY 2

Calculation of grid coordinates, grid bearing, reverse grid bearing, plane bearing, grid distance, plane distance and spheroid distance.

451-403 SURVEYING STUDIES

• PROFESSIONAL PRACTICE
• ENVIRONMENTAL INVESTIGATIONS A course of 15 lectures in Second Semester
• PROJECT
• COMPUTER S Y S T E M S

This course will provide an introduction to the different computer configurations and operating systems used during the 4th year of the BSurv course. Assessment will be based on assignments during the course and a test at the end of the unit.

451-404 LAND LAW AND MANAGEMENT

LAW OF PROPERTY IN LAND A course of 26 lectures

A course of 16 hours of lectures and 16 hours of tutorials and practical classes in the First Semester. The scores obtained for the individual sections are combined to give a pass and honors grade for the course as a whole.

LAW RELATING TO SURVEYING

Land transfer law; organization of the Bureau 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

Land Act with Emphasis on the Method of Alienation of the Different Classifications of Crown Lands; the opening and closing of government roads under this Act; brief overview of the Lands Department's set-up and method of recording research information. Local Government Act; road opening and closing (along with its relationship to the Country Roads Board Act); alignment of streets; Local government requirements for land parcelling; right of appeal against the refusal to seal; statement of alignments; regulations.

451-444 VACATION WORK (PRACTICAL EXPERIENCE - SURVEYING)

Act, Land Compensation Act, Fencing Act, Land Conservation Act, Health Act, Spatial Planning Act, Cluster Ownership Act, Land Land Act etc.

705-545 TOWN PLANNING

Urban development processes and the role of individuals and different groups in those processes; planning as intervention in those processes. Planning and development case studies: planning and development of industry, retail, housing, etc.

451-406 GEODETIC POSITIONING

451-407 HYDROGRAPHIC SURVEYING

451-408 PHOTOGRAMMETRY — CURRENT DEVELOPMENTS

Development in theory and procedures for mapping and surveying by photogrammetry, including analytical plotters, block alignment, camera calibration, precise terrestrial methods at close range. Assignments and practical tasks completed during the course will be graded as part of the exam.

SCIENCE AND SURVEYING (Combined Course)

APPLIED SCIENCE COURSES

317-201 BUSINESS ADMINISTRATION 1 (ORGANISATIONAL BEHAVIOUR)

317-202 BUSINESS ADMINISTRATION 2

ORGANISATION AND MANAGEMENT)

456-401 APPLIED CHEMISTRY 3

A simple treatment of the analysis of ultraviolet, infrared, nuclear magnetic resonance and mass spectra with particular emphasis on application in organic structure determination. All work done in connection with tutorials, laboratory classes and project work will be taken into account in the assessment of the results of the annual examination.

456-405 ECONOMIC STUDIES 3 E (APPLIED SCIENCE)

It is expected that in 1989 the following subjects will be offered: i) Electrical properties of polymers, (ii) Atmospheric chemistry. One day per week for one and a half semester, followed by approximately 2 Vi days per week devoted to project work during the second semester, in addition to the specified work.

APPLIED SCIENCE (APPLIED ELECTRONICS)

Note: This is the final year of the course and is only available to currently enrolled students.

421 ELECTRICAL ENGINEERING 3E

In the first semester and the early part of the second semester, 6 hours per week will be devoted to experiments related to the Section 1 syllabus. There will be approximately three 1-hour tutorials per week devoted to topics associated with lecture courses and practice classes.

431-444 VACATION WORK

There will be a maximum of six 3-hour papers, or the equivalent in time, for passes and awards.

PRACTICAL EXPERIENCE - ELECTRICAL)

317-203 BUSINESS ADMINISTRATION 3 (BUSINESS DECISIONS)

433-320 COMPUTER SCIENCE 3E

640-032 PHYSICS 3 (APPLIED SCIENCE)

SECOND YEAR 1989

• DEGREES AWARDED
• TYPES OF CANDIDATURE 1 FULL-TIME CANDIDATURE
• PART-TIME CANDIDATURE
• NON-ATTENDING CANDIDATURE
• EXTERNAL CANDIDATURE
• DETAILS OF GRADUATE STUDIES PROGRAMS
• Coursework includes

In the case of the part-time Master's courses in Environmental Engineering, candidates are normally required to attend an average of 6 hours per week over a period of three academic years. It consists of formal courses, seminars, laboratory work and practical classes and a research or design project relevant to the needs of the student's country and institution of employment.

Environmental Engineering

Enrollment in the graduate program will be conditional on satisfactory performance in the preliminary studies. As an alternative which will better suit the requirements of some students, some of the units offered above or elsewhere in the University may be incorporated into a Master's program with thesis and coursework.

Chemical Engineering

Students will study core and elective streams in the initial academic year, followed by a project. 3-year students will study a core subject, elective streams and a project, preferably in that order, over 3 academic years.

Civil and Agricultural Engineering

Topics from the fields: Decision theory and simple applications; linear graph theory; production forecasting; simulation; organization of decision-making and action; cash flow forecasting; competitive bidding; business operations of the company in the offer situation; evaluation and tendering; marketing; cost control; quality control; security; productivity; network methods; construction operation planning. Laboratory, practical, seminar and design exercises within each 24-hour unit are appropriate and complementary to the general topics covered in lectures.

Electrical and Electronic Engineering

Details of the unit courses are given in a supplement to this textbook available from the Coordinator of Postgraduate Studies, Department of Civil and Agricultural Engineering.

Mechanical and Manufacturing Engineering

Further details of the course can be obtained by contacting the secretary of the Mechanical and Manufacturing Engineering Department.

Agricultural Engineering

Civil Engineering

Industrial and Manufacturing Engineering

Industrial Science

Mechanical Engineering

Surveying and Land Information

• APPLICATIONS FOR CANDIDATURE
• FEES
• ENROLMENT AND RE-ENROLMENT
• GRANTS AND SCHOLARSHIPS (i) Research Awards
• ADDITIONAL INFORMATION
• POSTGRADUATE C O U R S E S — DETAIL OF UNITS Civil and Agricultural Engineering

Regarding PhD candidacy, further information can be obtained from the Assistant Registrar (Research Office).

CIVIL AND AGRICULTURAL ENGINEERING POST- GRADUATE UNITS —

421-601 MASTER OF ENGINEERING SCIENCE — CIVIL 421-602 MASTER OF ENGINEERING SCIENCE —

AGRICULTURAL

Correlations with engineering properties. 421-634 SCHEME ENGINEERING GT6 One or both of the following topics:. 421-653 SPECIAL STUDIES IN ENGINEERING PRACTICES EP5 For graduate students who desire further study of special topics.

DEVELOPMENT TECHNOLOGIES

-805 SOLAR ENERGY ENGINEERING (second semester only). i) Nature and availability of solar radiation; radiation estimates and measuring instruments. ii) Materials for using solar energy; radiation properties and thermal transport properties. iii) Introduction to non-concentrating and concentrating collectors, design techniques and performance estimation. iv) Operational characteristics of the solar component and solar system. v) Practical applications of solar energy; special solar energy installations for developing countries, including solar desalination, photovoltaic solar energy and solar water pumping. MECHANICAL) Students in the Graduate Diploma program take one of the Research Project courses.

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 after consultation with the course coordinator. ENVIRONMENT ENVIRONMENT ENVIRONMENT ENVIRONMENT COURSE WORK COURSE WORK COURSE WORK COURSE WORK COURSE WORK COURSE WORK COURSE WORK COURSE.

400-650 ENVIRONMENTAL ENGINEERING — SPECIAL ELECTIVE

433-801 POSTGRADUATE DIPLOMA IN COMPUTING STUDIES

48 or more points as described above must be achieved before the diploma can be awarded. In particular, students who have completed one or more recommended units or the equivalent in a previous course may instead take other approved units.

UNITS

433-291 COMPUTING STUDIES 2A

433-292 COMPUTING STUDIES 2B

433-293 COMPUTING STUDIES 2 C

Students recommended for suspension have the right to be heard by the Academic Board, but if the Committee's recommendation is upheld by the Board, the student will be suspended from the course for academic reasons. If the Academic Board is satisfied that a student's condition or circumstances have changed so much that there is a reasonable probability that the student will make satisfactory progress, the Board may authorize the readmission of the student, subject to any conditions it determines necessary.

REGULATIONS FOR HIGHER DEGREES

• DEGREE OH MASTER OF ENGINEERING S C I E N C E
• DEGREE OF MASTER OF SURVEYING S C I E N C E
• DEGREES OF MASTER OF ENGINEERING AND MASTER OF SURVEYING
• DEGREE OF MASTER OF APPLIED S C I E N C E
• DEGREE OF DOCTOR OF ENGINEERING
• DEGREE OF DOCTOR OF APPLIED SCIENCE
• DEGREE OF DOCTOR OF PHILOSOPHY

Regardless of the provisions in the preceding paragraphs, the training for a candidate for the master's degree in dietetics must be under the control of the Faculty of Science. The Faculty may appoint persons who are not members of the Faculty of Engineering to such a committee. iii).