Bachelor of Engineering - Bachelor of Science
Testamur Title of Degree: |
Bachelor of Engineering - Bachelor of Science |
Abbreviation: |
BE-BSc |
Home Faculty: |
Faculty of Engineering |
Duration: |
Five years full-time or part-time equivalent |
Total Credit Points: |
264 |
Delivery Mode: |
On campus (Face-to-face) |
Starting Session(s): |
Autumn/Spring |
Location: |
Wollongong |
UOW Course Code: |
750A |
UAC Code: |
751625 |
CRICOS Code: |
048493M |
Overview / Course Aims
The Faculties of Engineering and Health and Behavioural Sciences offer double degree courses over five years of full-time or eight years of part-time study leading to the Bachelor of Engineering and Bachelor of Science. These courses provide education in either Mechanical Engineering or Mechatronics, together with a major study in Exercise Science, to broaden the knowledge base of the graduate, thereby enhancing career prospects.
Entry Requirements/Assumed Knowledge
Requirement for admission to the double degree is a ATAR or equivalent which is equal to or greater than the rank required for admission to the Bachelor of Science (Exercise Science) or the Bachelor of Engineering, whichever is the higher. Assumed Knowledge: any two units of English plus Mathematics. Recommended studies: Physics, Chemistry and HSC Mathematics Ext. 1. International students are required to have a minimum overall IELTS score of 6 (Reading: 6 Writing: 6 Speaking: 6 Listening: 6).
Course Requirements
Note that the Bachelor of Science (Exercise Science) has 140 hours of compulsory practicum experience, which must be completed over the 5 years of the double degree. Students enrolled in the double degree must complete the subjects listed below.
Course Program
Bachelor of Engineering (Mechanical) - Bachelor of Science (Exercise Science)
Subject |
Session |
Credit Points | |
Year 1 | |||
Chemistry for Engineers |
Autumn |
6 | |
Foundations of Engineering |
Autumn |
6 | |
Engineering Materials |
Autumn |
6 | |
Mathematics 1: Algebra and Differential Calculus |
Autumn |
6 | |
Engineering Mechanics |
Spring |
6 | |
Engineering Design and Innovation |
Spring |
6 | |
Mathematics 2: Series and Integral Calculus |
Spring |
6 | |
Physics for Engineers |
Spring |
6 | |
Year 2 | |||
Mechanics of Solids |
Autumn |
6 | |
Mathematics 2E for Engineers Part 1 |
Autumn |
6 | |
Thermodynamics, Experimental Methods and Analysis |
Autumn |
6 | |
Introduction to Anatomy and Physiology I |
Autumn |
6 | |
Fundamentals of Electrical Engineering |
Spring |
6 | |
Engineering Analysis |
Spring |
6 | |
Fundamentals of Machine Component Design |
Spring |
6 | |
Machine Dynamics |
Spring |
6 | |
Introduction to Anatomy and Physiology II |
Spring |
6 | |
Year 3 | |||
Engineering Fluid Mechanics |
Autumn |
6 | |
Thermodynamics of Engineering Systems |
Autumn |
6 | |
Introduction to Behavioural Science |
Autumn |
6 | |
Foundations of Biomechanics |
Autumn |
6 | |
Molecules, Cells and Organisms |
Spring |
6 | |
Project and Business Management |
Spring |
6 | |
Mechanical Engineering Design |
Spring |
6 | |
Heat Transfer and Aerodynamics |
Spring |
6 | |
Musculoskeletal Functional Anatomy |
Spring |
6 | |
Year 4 | |||
Dynamics of Engineering Systems |
Autumn |
6 | |
Manufacturing Engineering Principles |
Autumn |
6 | |
Control Mechanisms Physiology |
Autumn |
6 | |
Control of Machines and Processes |
Spring |
6 | |
Psychology of Physical Activity and Health |
Spring |
6 | |
Exercise Physiology |
Spring |
6 | |
Clinical Biomechanics |
Spring |
6 | |
Plus |
two electives (one Mechanical plus one other) |
12 | |
Year 5 | |||
Exercise Prescription |
Annual |
16 | |
Advanced Exercise Physiology |
Autumn |
8 | |
Project Management and Human Factors in Engineering |
Autumn |
6 | |
Motor Control and Dysfunction |
Spring |
8 | |
Professional Experience |
0 | ||
Engineering Project A |
Autumn/Spring |
6 | |
or | |||
Thesis A |
Annual |
12 | |
or | |||
Thesis B |
Annual |
18 | |
Plus |
Two or three electives (one or two Mechanical plus one other) |
12 | |
Course Program
Bachelor of Engineering (Mechatronics) - Bachelor of Science (Exercise Science)
Subject |
Session |
Credit Points | |
Year 1 | |||
Chemistry for Engineers |
Autumn |
6 | |
Programming for Engineers |
Autumn |
6 | |
Foundations of Engineering |
Autumn |
6 | |
Engineering Materials |
Autumn |
6 | |
Mathematics 1: Algebra and Differential Calculus |
Autumn |
6 | |
Introduction to Circuits and Devices |
Spring |
6 | |
Engineering Mechanics |
Spring |
6 | |
Mathematics 2: Series and Integral Calculus |
Spring |
6 | |
Physics for Engineers |
Spring |
6 | |
Year 2 | |||
Circuits and Systems |
Annual |
6 | |
Digital Hardware |
Autumn |
6 | |
Mechanics of Solids |
Autumn |
6 | |
Mathematics 2E for Engineers Part 1 |
Autumn |
6 | |
Introduction to Anatomy and Physiology I |
Autumn |
6 | |
Electronics |
Spring |
6 | |
Engineering Design and Innovation |
Spring |
6 | |
Fundamentals of Machine Component Design |
Spring |
6 | |
Introduction to Anatomy and Physiology II |
Spring |
6 | |
Year 3 | |||
Introduction to Behavioural Science |
Autumn |
6 | |
Control Mechanisms Physiology |
Autumn |
6 | |
Foundations of Biomechanics |
Autumn |
6 | |
Molecules, Cells and Organisms |
Spring |
6 | |
Machine Dynamics |
Spring |
6 | |
Mechanical Engineering Design |
Spring |
6 | |
Musculoskeletal Functional Anatomy |
Spring |
6 | |
Exercise Physiology |
Spring |
6 | |
Year 4 | |||
Microcontroller Architecture and Applications |
Annual |
6 | |
Engineering Design and Management 3 |
Annual |
6 | |
Digital Signal Processing |
Autumn |
6 | |
Control Theory |
Autumn |
6 | |
Thermodynamics, Experimental Methods and Analysis |
Autumn |
6 | |
Psychology of Physical Activity and Health |
Spring |
6 | |
Signals and Systems |
Spring |
6 | |
Clinical Biomechanics |
Spring |
6 | |
Motor Control and Dysfunction |
Spring |
8 | |
Year 5 | |||
Exercise Prescription |
Annual |
16 | |
Advanced Exercise Physiology |
Autumn |
8 | |
Project Management and Human Factors in Engineering |
Autumn |
6 | |
Fluid Dynamics and Heat Transfer for Mechatronics |
Not offered 2012 |
6 | |
Power Engineering 2 |
Spring |
6 | |
Robotics and Flexible Automation |
Spring |
6 | |
or | |||
Thesis A |
Annual |
12 | |
or | |||
Thesis B * |
Annual |
18 | |
* 18 credit point thesis is equivalent to the 12 credit point thesis and one 6 credit point elective.
Other Information
Further information is available at http://coursefinder.uow.edu.au/ or email: Faculty of Engineering: engineering@uow.edu.au; Faculty of Health and Behavioural Sciences: hbs_central@uow.edu.au;