Bachelor of Science (Electrical Engineering) On Campus

Introduction

Engineering cannot be underestimated: the wellbeing of the world is largely dependent on the work of engineers.

Isaac Asimov, a famous science fiction author, professor of biochemistry and robotics devotee said: “Science can amuse and fascinate us all, but it is engineering that changes the world.”

Engineering touches everything and is responsible for our progress through the ages; it is, for example, fundamental to all forms of transportation, to power generation, communication technologies and biomedicine. Engineers also contribute to solving the complex challenges in the world today, including pollution, hunger and disease.

It is a prestigious career to pursue, with the highest average starting salary of any undergraduate major. Because it is a respected profession the world over engineers can also consider working abroad.

There is more choice for engineers now than ever before; it is a discipline which is developing and broadening with the evolution of technology. Electrical engineering is one of those expanding streams of engineering, with an increasingly profound influence on most industries and enterprises.

The field of engineering concerned with the study and application of electricity and electromagnetism is electrical engineering. Essential to our modern infrastructure and conveniences, electrical engineers employ their skills across a large number of specializations, including the design of household appliances, lighting, wiring of buildings, telecommunication systems, power generation, transmission, distribution, and utilization. Electrical engineers can be involved in designing new systems, solving problems, testing equipment and working on a wide range of components and systems, from the smallest microchips to huge power station generators.

With this qualification you will have acquired the essential knowledge which underpins both this and other fields of engineering. More importantly, you will have become an electrical engineering technologist.

 

Industrial Experience

This program requires the completion of 240 hours of relevant industrial experience in an engineering environment under professional supervision. Two periods/units are allocated as time in which to achieve this. An industrial experience research project unit will provide you with the tools needed to meet your professional technologist and engineering outcomes. In addition, the program will also entail a hands-on workshop, which will be used to verify your hands-on work skills. If you already have experience relevant to any of the above, you may apply to have credit granted by completing the associated recognition of prior learning form to demonstrate that your experience is of a sufficient nature and standard

 

Presentation Format

The program is delivered on-campus, facilitated by an on-campus lecturer. You will be required to attend one of two daily classroom sessions (Monday – Friday). The available session times will be 8.00am – midday, and 1pm to 5pm. Please note we cannot guarantee that you will be placed in your preferred session, and on-campus attendance is compulsory.

The classroom sessions will be conducted by a dedicated on-campus lecturer, and will include video presentations, live stream tutorials with supplementary expert lecturers based around the world, practical exercises, assessments, class discussions and personal study.

 

Time Commitment

Each unit is composed of 10 hours of study per week (40 hours total) as follows:

• 1 hour pre-recorded lecture facilitated by the on-campus lecturer
• 1 hour tutorial lecture (live stream)
• 1 hour remote/virtual and local lab/assignment work
• 7 hours of personal study (guided and unguided)

 

Hardware and Software Requirements

Students are required to have a laptop computer for the duration of the program. Internet access will be provided in your classroom sessions however we strongly recommend that students arrange access to a computer and Internet connection outside classroom session hours, either through purchase, public library access or other arrangements, in order to continue with self study, assessment work etc.

Software for live stream sessions, simulations, remote and virtual laboratories will be provided.

 

Library Resources

For information on EIT’s extensive online libraries and resources, please visit the http://www.eit.edu.au/library-resources.

 

Program Structure

EIT have four available Bachelor of Science streams: Industrial Automation Engineering, Electrical Engineering, Mechanical Engineering and Civil and Structural Engineering.

If you select the Electrical Engineering stream, you must complete 81 credit points comprising of 12 core units (each worth 3 points), 2 x Industrial Experience Research Project units (with no credit points), 1 x Final Year Project (9 points value) plus 12 Electrical Engineering stream units (each worth 3 points). There are no optional or elective units in this program.

Semester	Unit Code	Subjects	Credit Points
Year One
Semester 1	BSC101C	Engineering Mathematics 1 (Core)	3
Semester 1	BSC102C	Fundamentals of Electronics (Core)	3
Semester 1	BSC103C	Engineering Dynamics + Mechanics (Core)	3
Semester 1	BSC203C	Engineering Design and Drawing (Core)	3
Semester 1	BSC109C (Part A)	Industrial Experience Research Project	0
Semester 2	BSC104C	Engineering Mathematics 2 (Core)	3
Semester 2	BSC201C	Engineering Programming (Core)	3
Semester 2	BEE106S	Electrical Circuit Theory and Analysis	3
Semester 2	BSC107C	Physics and Chemistry for Engineers (Core)	3
Semester 2	BSC109C (Part B)	Industrial Experience Research Project	3
Holidays	BSC110C	Industrial Experience	0
Year Two
Semester 1	BEE108S	Direct Current and Alternating Current Motors	3
Semester 1	BSC105C	Mechanics of Machines (Core)	3
Semester 1	BSC202C	Engineering Mathematics 3 (Core)	3
Semester 1	BEE205S	Transformers and Switchgear	3
Semester 1	BSC302C (Part A)	Project Planning, Management and Costing (Core)	0
Semester 2	BEE204S	Power Generation, Transmission and Distribution	3
Semester 2	BEE206S	Electrical Safety, Earthing and Lightning Protection	3
Semester 2	BEE208S	Power Electronics and Variable Speed Drives	3
Semester 2	BEE209S	Power Quality and Energy Efficiency	3
Semester 2	BSC302C (Part B)	Project Planning, Management and Costing (Core)	3
Holidays	BSC210C	Industrial Experience	0
Year Three
Semester 1	BEE207S	Power System Protection	3
Semester 1	BEE301S	Electrical Utilization Engineering	3
Semester 1	BEE303S	Power Generation (Renewable and Non-Renewable Energy Technologies)	3
Semester 1	BEE304S	Electrical Control Circuits and PLC Programming	3
Semester 1	BSC305C (Part A)	Technology, Sustainability and Society (Core)	0
Semester 2	BEE306S	Data Communication for Power System Monitoring	3
Semester 2	BSC307C	Final Year Project (Electrical Engineering)	9
Semester 2	BSC305C (Part B)	Technology , Sustainability and Society (Core)	3

 

Entry Requirements

Entry Requirements

• An Australian Senior Certificate of Education or equivalent; OR
• A relevant (to the sub-discipline) Engineering Advanced Diploma or higher from an Australian higher education institution; OR
• An overseas qualification equivalent to the above item from a structured program of learning that leads to the full or partial achievement of an officially accredited qualification undertaken at a tertiary institution such as a university, government technical college, or government recognized private college (EIT assesses overseas qualifications using Australian Government guidelines to determine their comparability to qualifications); AND
• Satisfactory English language proficiency at an English pass level in an Australian Senior Certificate of Education or equivalent; OR
• A specified level of achievement in a recognized English language test such as: IELTS (or equivalent) at a score of at least 6.0 (with no individual band score less than 5.5); or TOEFL equivalent;
   

It is desirable that applicants hold a Senior Certificate with:

• Advanced Mathematics; or WACE Mathematics: Methods; or equivalent
• Physics and Chemistry, with equivalents considered.
   

Applicants with WACE Mathematics Applications (or equivalent) will be accepted, but EIT may also recommend a bridging course as a supplementary activity. To confirm that past studies in mathematics align with these requirements, applicants may compare the mathematics syllabus to the WACE here and contact an EIT Course Advisor for assistance:
http://www.scsa.wa.edu.au/internet/Senior_Secondary/Courses/WACE_Courses/Mathematics

International students who wish to study on-campus in Australia will need to have a valid international student visa. For more information visit: http://oncampus.eit.edu.au/apply/apply-to-eit-as-an-international-student.html

 

Prior Learning Recognition and Exemptions

EIT can give you credit for units where you can demonstrate substantial prior experience or educational background. An assessment fee may apply. If you wish to find out more please ask us for your copy of the policy for recognition of prior learning.

 

 

Brochure

To access the detailed program brochure, please complete this form.

 

Accreditation and International Standing

The Engineering Institute of Technology (EIT) is registered and accredited to offer both degree and vocational (diploma and certificate) programs. EIT is authorized by the Australian Government Tertiary Education Quality and Standards Agency (TEQSA) as a Higher Education Provider (www.teqsa.gov.au/national-register with registration number PRV14008).

EIT is a Registered Training Organization (RTO) in the Vocational Education and Training (VET) sector – provider number 51971.

EIT (and many individual courses) has received recognition, endorsement and/or accreditation as a training provider from authorizing bodies based around the world. For more information visit: http://www.eit.edu.au/accreditation-international-standing-for-online-engineering-training

 

Fee Information

For information regarding the program fees, please visit the fees page.