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Unit of study_

Introduction to Engineering Disciplines - ENGG1800

Year - 2019

This unit gives a brief introduction to a range of specialisations in Engineering including Aeronautical, Biomedical, Chemical, Civil, Mechanical, Electrical and Information Engineering. First-year students have the opportunity to experience aspects of each engineering stream and thus be able to better select which area they wish to pursue in their future studies. There are four Schools in the Faculty and each School will deliver a three-week module covering its specialisations. School of Chemical and Biomolecular Engineering. This module enables students to gain an appreciation of the methods in transforming raw materials to value-added products. Students gain an insight into the application of the basic principles of chemistry, mathematics, material and energy balance in assessing and designing processes, operations and maintenance and safety requirements and procedures. This is achieved through a project based activity that involves a paper-based study of a process followed by construction and testing of performance. School of Civil Engineering. Introductory lectures in Engineering Economics and Construction Planning, Foundation Engineering, Structural Engineering, Materials, Environmental Engineering. Each student is involved in the erection and dismantling of several Scaled Model Structures in the Civil Engineering Courtyard. Preliminary lectures related to the models include safety issues, loading, static analysis, foundation calculations, construction management, engineering drawings and detailing, geometric calculations, and survey measurements. Exercises related to these issues are performed before assembly and disassembly of the models. School of Electrical and Information Engineering. Overview of Electrical Engineering, Basic circuit analysis: circuits, currents and voltages: Power and Energy; Ohms law, KCL, KVL. Resistive circuits: Resistance in series and parallel; voltage divider and current divider circuits. Introduction to digital systems: Basic logic circuit concepts, Synthesis of logic circuits, Sequential logic circuits. Microcomputers: Computer Organisation, Memory types, Digital process control, assembly language and programming. There are laboratory exercises based on the above topics. School of Aerospace, Mechanical and Mechatronic Engineering (AMME). AMME has four degree streams: Aerospace, Mechanical, Biomedical and Mechatronics. Two or three of these streams are covered during this module in any year. Mechanical Engineering demonstrates aspects of mechanical design and manufacturing techniques with a hands-on building task. Aerospace has a lecture on fundamentals of aircraft design. And a hands-on Design-Build-Test task where students work in small teams to gain an introduction to lightweight structures, aerodynamics and flight stability and control. Mechatronics covers software control of machines, including basic electronic knowledge with examples, concepts of software and hardware integration. Group based activity is to design and implement a simple mechatronics system using a Mindstorm Lego set. Biomedical engineering provides a hands-on design project to develop a joint replacement concept. The design process captures inputs such as joint range of motion considerations, biomaterials selection, manufacturing route, design risk analysis. Mechanical Engineering demonstrates aspects of mechanical design and manufacturing techniques with a hands-on building task. Aerospace has a lecture on fundamentals of aircraft design. And a hands-on Design-Build-Test task where students work in small teams to gain an introduction to lightweight structures, aerodynamics and flight stability and control. Mechatronics covers software control of machines, including basic electronic knowledge with examples, concepts of software and hardware integration. Group based activity is to design and implement a simple mechatronics system using a Mindstorm Lego set. Biomedical engineering provides a hands-on design project to develop a joint replacement concept. The design process captures inputs such as joint range of motion considerations, biomaterials selection, manufacturing route, design risk analysis.

Classes
Lectures, Laboratories

Assessment
Through semester assessment (100%)

Prohibitions

CIVL1900 OR CHNG1108 OR MECH1560 OR AERO1560 OR AMME1960 OR BMET1960 OR MTRX1701 OR ENGG1960

Details

Faculty: Engineering and Information Technologies

Semester 1

25 Feb 2019

Department/School: Aerospace, Mechanical and Mechatronic
Study Mode: Normal (lecture/lab/tutorial) day
Census Date: 31 Mar 2019
Unit of study level: Junior
Credit points: 6.0
EFTSL: 0.125
Available for study abroad and exchange: No
Faculty/department permission required? No
Location
Camperdown
Courses that offer this unit

Non-award/non-degree study If you wish to undertake one or more units of study (subjects) for your own interest but not towards a degree, you may enrol in single units as a non-award student. Cross-institutional study If you are from another Australian tertiary institution you may be permitted to undertake cross-institutional study in one or more units of study at the University of Sydney.

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