Engineer Your Career - EIT

Engineer Your CareerOnline Higher Education Prospectus

Dr. Steve Mackay – Dean of Engineering 4

Why Study with EIT? 5

Student Support, Academic Resources and Hardware Requirements 6 - 7

Master of Engineering (Industrial Automation) 8 - 9

Master of Engineering (Electrical Systems) 10 - 11

Master of Engineering (Mechanical) 12 - 13

Master of Engineering (Civil: Structural) 14 - 15

Bachelor of Science (Industrial Automation Engineering) 16 - 17

Bachelor of Science (Electrical Engineering) 18 - 19

Bachelor of Science (Mechanical Engineering) 20 - 21

Bachelor of Science (Civil and Structural Engineering) 22 - 23

Academic Scholarships 24

Contents

The Engineering Institute of Technology is one of the only institutes in the world specializing in engineering.

A note regarding recognition of these programs in the Australian education system: EIT is the owner of these programs. These qualifications are officially accredited by the Tertiary Education Quality and Standards Agency (TEQSA). EIT delivers these programs to students worldwide.

CRICOS Provider Number: 03567C • Higher Education Provider Number: 14008 • RTO Provider Number: 51971 • ABN: 39 135 762 426 • v04EIT Online Higher Education Prospectus | EIT Online Higher Education Prospectus | Page 3

Dr. Steve MackayDean of EngineeringDr. Steve Mackay is the founder of the Engineering Institute of Technology. He firmly believes in Nelson Mandela’s mantra that, “Education is the most powerful weapon which we can use to change the world.” His leadership has inspired EIT’s unique and distinctive approach to engineering education.

Since 2008 three core objectives define the essence of the institute:

• Collaborating comprehensively with industry to ensure graduates are job-ready.

• Employing platforms of learning to facilitate student accessibility and engagement.

• Keeping the business of education student-centric.

Dr. Mackay has enjoyed a varied career in engineering, having worked in automation, data acquisition, instrumentation, data communications, and process control throughout Australia, Europe, Africa, and North America over the past 35 years. He has successfully pioneered the application of new technologies in Australia and overseas, installing industrial data communication systems and implementing live online education, (including remote laboratories), for engineering students worldwide.

Dr. Mackay has been involved in a range of industries, including power stations, mining, mineral processing, oil/gas/petrochemical plants, and platforms. He has presented courses on industrial data communications, data acquisition, instrumentation, and process control to over 30,000 engineers and technicians worldwide for clients such as NASA, Rolls Royce, and BP. He has also co-authored and edited 25 engineering books that have been published across the world. Dr. Mackay is a Fellow of Engineers Australia with a license to practice as a Chemical, Mechanical, and Electrical Chartered Professional Engineer.

As Dean of the Engineering Institute of Technology, Dr. Mackay leads the institute in providing micro-credentials and engineering qualifications to over 1500 students per year from 140 countries. He has an unswerving focus on student outcomes and on excellence in education.

Why EIT?

When studying online, our unique synchronous delivery methodology and small class sizes encourage you to advance your technical knowledge and remain engaged in your studies while forming global networks.

The Engineering Institute of Technology (EIT) is one of the only institutes in the world specializing in engineering.

Like all Australian higher education providers and universities, EIT programs are accredited by the exacting standards of the Australian Government’s Tertiary Education Quality and Standards Agency (TEQSA). Many of our degrees are recognized under international engineering accords. Our degrees are designed by an international body of industry experts, ensuring you graduate with cutting-edge skills that are valued by employers around the world. We deliver our online degrees via a unique methodology that makes use of an international pool of expert lecturers, dedicated learning support officers, and provides you access to cutting-edge simulation software alongside virtual and remote laboratories to test concepts and deepen your understanding of program content. Together with our sister organization IDC Technologies, we have trained over 500,000 engineers, technicians, and technologists globally over the last 30 years.

Master of Engineering (Industrial Automation)

Master of Engineering (Electrical Systems)

Master of Engineering (Mechanical)

Master of Engineering (Civil: Structural)

Bachelor of Science (Industrial Automation Engineering)

Bachelor of Science (Electrical Engineering)

Bachelor of Science (Mechanical Engineering)

Bachelor of Science (Civil and Structural Engineering)

Our Online Higher Education Programs

CRICOS Provider Number: 03567C • Higher Education Provider Number: 14008 • RTO Provider Number: 51971 • ABN: 39 135 762 426 • v04

Other Programs and Delivery Modes

In addition to our higher education online programs, we deliver industry focused short courses and a range of diplomas/advanced diplomas in key fields of engineering. We also offer our bachelor’s and master’s degrees on-campus in Perth, Western Australia and Melbourne, Victoria. Find out more at www.eit.edu.au

EIT Online Higher Education Prospectus | Page 4 EIT Online Higher Education Prospectus | Page 5

Learning Support OfficersAll students need support, encouragement, and a go-to person. At the Engineering Institute of Technol-ogy, we provide all students dedicated learning sup-port officers (LSOs) for the duration of their studies, giving them a greater chance of success. Our LSOs guide you from the onboarding process through to graduation. Students studying our degrees have a committed LSO for each unit of study.

Academic SupportOur unique dedicated learning support officers and course coordinators provide academic guidance and support to you throughout your studies. In addition, our lecturers are available for appointments during classroom contact hours and after class via email, phone, and Skype. Our class sizes are small to allow you to build rapport with lecturers and fellow stu-dents. This enables you to ask questions and seek clarity when needed. We also provide mathematics support and English language assistance to help with speaking and writing skills.

Tech SupportWhether you have forgotten a password or have trouble accessing our student management system, learning platform, or remote and virtual labs, we pro-vide assistance with information technology queries during Australian business hours. Your dedicated learning support officer is your key point of contact in seeking assistance.

Orientation ProgramWe provide orientations sessions for all our online programs via our live and interactive webinar platform, BlackBoard Collaborate Ultra. These orientation sessions are your opportunity to find your away around our online learning environment, explore what services are available to you and connect with your classmates online. The online orientation will provide you an overview of our learning management system, support services, your program structure, weekly study requirements, assessment schedule and attendance expectations.

eLibrary Our eLibrary is hosted on our learning management system and provides our students access to a vast array of resources for the duration of their program. We subscribe to several collections from reputable online publishers, such as Elsevier. Each collection is designed to support you throughout your course by providing free access to relevant, recent, and useful information. This includes hundreds of thousands of resources, including textbooks, journals, articles, conference papers, and other learning resources such as equations and unit converters. The eLibrary also contains additional information to support students, including referencing guidelines, links, and guides to open-access resources, and thesis papers written by our previous master’s graduates.

Student Support Academic Resources We offer a range of personal and academic support

services for online students that are designed to help you get your studies off to a great start and foster your success through the duration of your program. We pride ourselves on providing you with quality learning

resources. All teaching materials are delivered via our learning management system, Moodle, including lecture and tutorial slides, and a comprehensive reading list.

We also provide access to an extensive online eLibrary and a wide range of engineering-focused library collections, including over 160 technical engineering manuals.


IDC Technical Manuals EIT students have access to over 160 technical engineering manuals published by our sister company IDC Technologies. These manuals cover a range of disciplines including mechanical, electrical, and civil engineering as well as instrumentation, automation and process control and data communications, and networking.

Knovel EIT students have access to the Knovel collection, an online library containing resources for specific industries and engineering disciplines collated by Elsevier publishers. Knovel suits the needs of EIT students as it provides content on various topics including process and design information and best practice, plus interactive graphs, tables, equations and formulation materials across several engineering disciplines. EIT reviews Knovel user access and resources quarterly to ensure the resources in this library support current and new programs. IEEE EIT students studying bachelor’s and master’s programs are provided with access to the IEEE Xplore STEM45 Journal collection. This online journal collection includes unlimited, full-text access to 45 selected IEEE journals. This collection is a valuable resource providing access to the latest research articles across a range of topics relevant to our EIT courses. Each journal is highly cited and peer-reviewed to ensure the highest quality content, plus the complete backfile of each journal.

Note: An Android or iOS tablet can be used to join webinars, but a computer is preferable for some simulation software and for remote laboratory access. A computer or laptop with a webcam is essential for invigilated examinations with EIT’s IRIS platform.

Hardware RequirementsComponent Minimum Supported Requirements

Operating System

Windows 7 or higher (Windows 10 recommended); or macOS 10.12 or higher (recommended)

Storage A minimum of 4GB memory (RAM), and a minimum of 20GB of spare disk space is recommended

Processor 1.5Ghz or higher, 2 cores or higher

Screen An 11” Monitor with at least 1024x768 screen resolution

Internet Internet access with at least 5Mbps download and upload speeds

Email A valid personal email address

Software Microsoft Office (Word, Excel, PowerPoint) or similar software

Browser An up-to-date web browser

Equipment Speakers, microphone/headset (can be built-in) and a webcam that can recognize your face for invigilated (online) exams

EIT Online Higher Education Prospectus | Page 7EIT On-Campus Prospectus | Page 6

Master of Engineering(Industrial Automation)

Our Master of Engineering (Industrial Automation) perfectly addresses this gap in the industrial automation industry. The program’s twelve core units and project thesis provide you with the practical knowledge and skills required. Students with a background in electrical, mechanical, instrumentation and control, or industrial computer systems engineering can benefit from this program.

The content has been carefully designed to provide you with relevant concepts and the tools required in today’s fast-moving work environment.

The Project Thesis, the capstone of the program, requires a high level of personal autonomy and accountability, as it reinforces the knowledge and skill base developed in the previous units. As a significant research component of the program, this project will facilitate research, critical evaluation, and the application of knowledge and skills with creativity and initiative, enabling you to critique current professional practice in the industrial automation industry.

You must complete forty-eight credit points comprising twelve core units and one capstone thesis. There are no electives in this program. The program duration is two years. Subjects will be delivered over four terms per year, and students will take two subjects per term. There will be a short break between years.

There is a global shortage of automation, instrumentation, and control engineers due to the rapid growth of new industries and technologies.

Potential Job Outcomes

Potential job roles include engineering and management positions in the following areas of expertise:

› Process control, commissioning and production management

› Plant, factory and building automation › Programmable Logic Controllers (PLCs),

Distributed Control Systems (DCSs) and SCADA

› Industrial design and consultation › Supply chain management, quality

assurance, and sales › Operations, maintenance, field services, and

technical support › Controls, instrumentation, and robotics › Industrial project management and

business development

Program Structure

Entry Requirements

To gain entry into this program, you need to meet EIT’s entry requirements. All program entry requirements are available on the Master of Engineering (Industrial Automation) program page on our website.

How to Apply

For information on how to apply, please visit the Master of Engineering (Industrial Automation) program page on our website.

CODE UNIT TITLE CREDIT POINTS

YEAR 1

ME501 Power Engineering 3

ME502 Programmable Logic Controllers 3

ME503 Industrial Process Control Systems 3

ME504 Industrial Instrumentation 3

ME505 Process Engineering (Plant Layout) 3

MXX507 Professional Engineering Management 3

ME507 Industrial Data Communications 1 3

ME508 Safety Instrumented Systems 3

YEAR 2

MXX501/601 Engineering Practice and Key Research Methods 3

ME601 Industrial Data Communications 2 3

ME602 SCADA and Distributed Control Systems 3

ME603 Advanced Process Control 3

ME700 Project Thesis (taken over one semester) 12

ADDITIONAL MANDATORY UNITS

BXX001-004 & MXX001 Hands-on Workshops 0

MXX510 Professional Experience 0

CRICOS Provider Number: 03567C • Higher Education Provider Number: 14008 • RTO Provider Number: 51971 • ABN: 39 135 762 426 • v04EIT Online Higher Education Prospectus | Page 8 EIT Online Higher Education Prospectus | Page 9

Master of Engineering(Electrical Systems)

The program presents the widely used wind and solar energy as centralized and distributed power sources as well as the effects of renewable integration on classic power issues. You will also learn energy storage as an integral part of a microgrid or at a larger utility level. You will get the opportunity to understand the use of artificial intelligence and machine learning as data-driven approaches in smart grids with the application of smart meters. The section on project management provides the skills required for effective management of power generation, transmission, and distribution projects.

The Project Thesis, the capstone of the program, requires a high level of personal autonomy and accountability, as it reinforces the knowledge and skill base developed in the previous units.

As a significant research component of the program, this project will facilitate research, critical evaluation, and the application of knowledge and skills with creativity and initiative, enabling you to critique current professional practice in the electrical engineering industry.

The rapid development of the renewable field has led to a shortage of fully skilled electrical engineers who are competent in both classic power system operation and renewable system integration.



› Electrical and electronics system design › Instrumentation, control systems &

automation › Oil & gas › Systems engineering › Communication systems › Embedded systems › Mining › Manufacturing › Building › Electric vehicles › Power generation & distribution › Renewable and energy storage systems


Program Structure

Entry Requirements

To gain entry into this program, you need to meet EIT’s entry requirements. All program entry requirements are available on the Master of Engineering (Electrical Systems) program page on our website.

How to Apply

For information on how to apply, please visit the Master of Engineering (Electrical Systems) program page on our website.


YEAR 1

MEE501 Power Generation 3

MEE509 Transmission and Distribution Systems 3

MEE601 Electric Power System Analysis 3

MEE510 Power Conversion 3

MEE602 System Stability Analysis 3


MEE511 Renewable Energy Systems 3

MEE512 Power System Safety and Protection 3

YEAR 2

MEE505 Substation Design and Automation 3

MEE603 Power Quality and Mitigation 3


MEE605 Smart Grids 3

ME700 Project Thesis (taken over 2 terms - equivalent to 4 units) 12


BXX001-004* & MXX001 Hands-on Workshops 0

MXX001 Professional Practise Hands-on Workshop 0


*Applicable to students gaining entry under option 1) or 4) of the Entry Requirements.


Master of Engineering(Mechanical)

The program will provide you with the requisite skills in mechanical engineering technology and maintenance to take advantage of these growing needs in the industry. Ultimately the degree will imbue graduates with the confidence required of professional and proficient mechanical engineers.

The learning journey culminates with a project which integrates the knowledge acquired during the program. You will gain an accurate understanding of the content, and the process will exercise your creativity and design-thinking capabilities. Employers hold those who possess these skills in high regard, and graduates can expect a significant advantage when interacting with employers, clients, consultants, and fellow engineering peers.

The Project Thesis, the capstone of the program, requires a high level of personal autonomy and accountability, as it reinforces the knowledge and skill base developed in the previous units. As a significant research component of the program, this project will facilitate research, critical evaluation, and the application of knowledge and skills with creativity and initiative, enabling you to critique current professional practice in the mechanical engineering industry.

The Master of Engineering (Mechanical) addresses the specific core competencies and associated knowledge and aptitudes required of mechanical engineers.



› Aeronautical › Automotive › Mining › Manufacturing › Automation › Robotics


Program Structure

Entry Requirements

To gain entry into this program, you need to meet EIT’s entry requirements. All program entry requirements are available on the Master of Engineering (Mechanical) program page on our website.

How to Apply

For information on how to apply, please visit the Master of Engineering (Mechanical) program page on our website


YEAR 1

MME501 Materials for Engineers 3

MME502 Heat Transfer 3

MME503 Industrial Hydraulics and Pneumatics 3

MME504 Drives, Pumps and Compressors 3

MME505 Process Engineering 3

MME506 Advanced Fluid Dynamics 3


MME508 Industrial Gas Turbines 3

YEAR 2

MME602 Computer Aided Design and Manufacturing 3

MME603 Finite Element Method 3


MME604 Introduction to Aerodynamics 3






Master of Engineering(Civil: Structural)

This Master of Engineering (Civil: Structural), therefore, addresses the specific core competencies and associated underpinning knowledge required of structural engineers.

The curriculum covers a diverse range of topics geared to producing well-rounded graduates equipped with the knowledge that employers require. This master’s program aims to provide the student with a multitude of tools and techniques, including those that tackle specific organizational problems and also those needed to design and implement engineering structures.

The Project Thesis is the capstone unit of the program and draws on the topic and reinforces the knowledge and skill base developed in the preceding units. As a significant research component of the program, this project will facilitate research, critical evaluation along with the application of knowledge and skills with

creativity and initiative, enabling students to critique and potentially enhance current professional practice in the civil engineering industry. The Project Thesis requires a high level of personal autonomy and accountability, enabling you to critique current professional practice in the civil engineering industry.

The society in which we live today is fundamentally dependent on the structures that structural engineers design and deliver.



› Construction › Roads › Railway › Transportation › Geotechnical › Structural › Waterworks › Earthworks › Irrigation › Town planning


Program Structure

Entry Requirements

To gain entry into this program, you need to meet EIT’s entry requirements. All program entry requirements are available on the Master of Engineering (Civil: Structural) program page on our website.

How to Apply

For information on how to apply, please visit the Master of Engineering (Civil: Structural) program page on our website.


YEAR 1

MCS501 Structural Analysis 3

MCS502 Advanced Engineering Materials 3

MCS503 Structural Design Part 1 - Advanced Topics on Reinforced Concrete Design

3

MCS504 Project, Design and Construction Management 3

MCS505 Advanced Structural Engineering Methods Part 1 3

MCS506 Structural Design Part 2 - Advanced Topics on Steel Design

3

MCS507 Structural Dynamics 3


YEAR 2

MCS602 Advanced Structural Engineering Methods Part 2 3

MCS603 Earthquake Structural Design 3

MCS604 Structural Refurbishment and Structural Failure 3

MCS605 Design of High Rise Structures and Bridges 3






Bachelor of Science(Industrial Automation Engineering)

Due to rapidly evolving technology, industrial processes are becoming increasingly automated. Previously mechanized systems, which required human intervention, now use technologies such as robotics and computerized control systems for higher accuracy, reliability, and cost-effectiveness. As industrial automation continues to develop with technological advancements, it is essential that prospective engineers graduate with skills that can be applied within the industry. Our Bachelor of Science (Industrial Automation Engineering) provides you with cutting-edge skills that are valuable in the workplace.

With this qualification, you will have acquired the essential knowledge which underpins both this and other fields of engineering, e.g. process, electrical, telecommunications and safety system engineering. More importantly, you will have become an industrial automation technologist.

Industrial automation is an expanding stream of engineering, with an increasingly profound influence on most industries and enterprises.

Entry Requirements

To gain entry into this program, you need to meet EIT’s entry requirements. All program entry requirements are available on the Bachelor of Science (Industrial Automation Engineering) program page on our website.

How to Apply

For information on how to apply, please visit the Bachelor of Science (Industrial Automation Engineering) program page on our website.


SEMESTER CODE UNIT TITLE CREDIT POINTS

YEAR 1

Semester 1 BSC101C Engineering Mathematics 1 (Core) 3

Semester 1 BSC102C Electrical Circuit Theory and Analysis (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 BSC201C Engineering Programming (Core) 3

Semester 2 BIA106S Principles of Chemical Engineering 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 2

Semester 1 BIA108S Process Instrumentation and Control 3

Semester 1 BSC105C Mechanics of Machines (Core) 3


Semester 1 BIA205S Electrical Control Circuits and PLC Programming 3

Semester 1 BSC302C (Part A) Project Planning, Management and Costing (Core) 0

Semester 2 BIA204S Ancillary Support Systems 3

Semester 2 BIA206S Communications and Networks 3

Semester 2 BIA208S Safety Systems Engineering 3

Semester 2 BIA209S Analysis and Modelling of Dynamics Systems 3

Semester 2 BSC302C (Part B) Project Planning, Management and Costing (Core) 3


YEAR 3

Semester 1 BIA207S Automation Systems and Supervisory Control 3

Semester 1 BIA301S Communication Systems and Protocols 3

Semester 1 BIA303S Embedded Systems Design 3

Semester 1 BIA304S Power and Drive Controls 3

Semester 1 BSC305C (Part A) Technology, Sustainability and Society (Core) 0

Semester 2 BIA306S Instrument and Control Engineering Practices 3

Semester 2 BSC307C Final Year Project (Industrial Automation Engineering) 9

Semester 2 BSC305C (Part B) Technology, Sustainability and Society (Core) 3




Graduates will be able to be employed as technologists working in a wide range of manufacturing, industrial, chemical, military, mineral processes, and mining industries.


› Process control, commissioning and production management

› Plant, factory and building automation › Programmable Logic Controllers (PLCs),

Distributed Control Systems (DCSs) and SCADA › Industrial design and consultation › Supply chain management, quality assurance, and

sales › Operations, maintenance, field services, and

technical support › Controls, instrumentation, and robotics › Industrial project management and business

development

The degree consists of a combination of core units, sub-discipline specific ‘stream’ units, industrial work experience, and a final year project.

Program Structure


Bachelor of Science(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, building wiring, telecommunication systems, power generation, transmission, distribution, and utilization.

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.

The field of engineering concerned with the study and application of electricity and electromagnetism is electrical engineering.


YEAR 1








Semester 2 BEE106S Fundamentals of Electronics 3




YEAR 2

Semester 1 BEE108S Direct Current and Alternating Current Motors 3



Semester 1 BEE205S Transformers and Switchgear 3


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



YEAR 3

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 BIA205S - BEE304S Electrical Control Circuits and PLC Programming 3


Semester 2 BEE306S Data Communication for Power System Monitoring 3

Semester 2 BSC307C Final Year Project (Electrical Engineering) 9





Entry Requirements

To gain entry into this program, you need to meet EIT’s entry requirements. All program entry requirements are available on the Bachelor of Science (Electrical Engineering) program page on our website.

How to Apply

For information on how to apply, please visit the Bachelor of Science (Electrical Engineering) program page on our website.


Graduates will be able to be employed as technologists working in a wide range of manufacturing, industrial, chemical, military, mineral processes, and mining industries.


› Electrical system planning, design, and development

› Power supply, distribution, and transmission › Electrical commissioning and power production

management › Renewable energy › Electrical instrumentation and control › Electronics research, design and testing › Operations, maintenance, field services and

technical support › Electrical project management and business

development › Radio and television broadcasting › Mining


Program Structure


Bachelor of Science(Mechanical Engineering)

Mechanical engineers use the principles of force, energy and motion to improve the safety, efficiency and technological advancement of the world around us.

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 a mechanical engineering technologist.

Mechanical engineering is the field of engineering that applies physics and the material sciences to develop machinery.


YEAR 1








Semester 2 BME106S Hydraulics and Pneumatics 3




YEAR 2

Semester 1 BME108S Pumps, Seals, Compressors and Turbines 3



Semester 1 BME205S Process Plant Layout, Pipeline and Piping Systems 3


Semester 2 BME204S Mechanical Design 3

Semester 2 BME206S Fluid Mechanics 3

Semester 2 BME207S Thermodynamics 3

Semester 2 BME209S Automation, Measurement and Control 3



YEAR 3

Semester 1 BME208S Energy Systems 3

Semester 1 BME301S Lubrication, Maintenance and Condition Monitoring 3

Semester 1 BME303S Heat and Mass Transfer 3

Semester 1 BME304S Heating, Ventilation and Air-Conditioning Systems 3


Semester 2 BME306S Manufacturing Processes and Technology 3

Semester 2 BSC307C Final Year Project (Mechanical Engineering) 9





Entry Requirements

To gain entry into this program, you need to meet EIT’s entry requirements. All program entry requirements are available on the Bachelor of Science (Mechanical Engineering) program page on our website.

How to Apply

For information on how to apply, please visit the Bachelor of Science (Mechanical Engineering) program page on our website.



› Mechanical design and manufacturing › Material fabrication › Mechanical power › Thermal power and diesel › Mechanical engineering contracts, sales,

commissioning and consultation › Building systems › Industrial operations and maintenance › Mechanical project management and business

development › Automotive engineering › Acoustics › Fluid mechanics, hydraulics and piping › Lubrication › Mining › Heating, Ventilation, and Air-conditioning (HVAC)


Program Structure


Bachelor of Science(Civil and Structural Engineering)

Engineers in this field are responsible for ensuring that the infrastructure around us gets developed, is safe, meets our needs, and improves our quality of life. This includes buildings, bridges, railways, tunnels, water distribution, and waste management networks. As a civil engineer, you could be involved in sustainable urban development, environmental protection, conservation of energy and water resources, or even geotechnical, hydraulic, or transport engineering. You could even specialize in fields such as earthquake and blast-resistant technologies.

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 a civil and structural engineering technologist.

Civil and structural engineering is one of the oldest forms of engineering which involves the design, construction, and maintenance of the built environment. SEMESTER CODE UNIT TITLE CREDIT

POINTSYEAR 1








Semester 2 BCS106S Structural Mechanics 3




YEAR 2

Semester 1 BCS108S Construction Engineering 3



Semester 1 BCS205S Engineering Surveying 3


Semester 2 BCS204S Strength of Materials - Advanced Topics 3

Semester 2 BCS206S Applied Fluid Mechanics 3

Semester 2 BCS207S Soil Mechanics 3

Semester 2 BCS209S Structural Design and Concrete Structures 3



YEAR 3

Semester 1 BCS208S Hydraulics 3

Semester 1 BCS301S Design of Steel Structures 3

Semester 1 BCS303S Geotechnical Engineering 3

Semester 1 BCS304S Road Design 3


Semester 2 BCS306S Civil Design 3

Semester 2 BSC307C Final Year Project (Civil and Structural Engineering) 9






Program Structure

Entry Requirements

To gain entry into this program, you need to meet EIT’s entry requirements. All program entry requirements are available on the Bachelor of Science (Civil and Structural Engineering) program page on our website.

How to Apply

For information on how to apply, please visit the Bachelor of Science (Civil and Structural Engineering) program page on our website.



› Civil and structural planning, design and development

› Building contracts, sales, commissioning and consultation

› Building control and surveying › Site management › Water and waste management › Civil and structural operations and maintenance › Civil and structural project management and

business development


FIND OUT MORE AT WWW.EIT.EDU.AUThe information contained in this publication is accurate and current at the date of publishing. For up-to-date information, please visit our website: www.eit.edu.au

Academic ScholarshipsEIT has created scholarships for a range of our higher education programs. Visit our website for detailed information, including eligibility criteria and application requirements.

EIT International Science And Engineering Merit (ISEM) Scholarship Outstanding future students can apply for this scholarship to receive 35% off their tuition fees while studying at EIT.

EIT Women In Engineering Scholarship This scholarship offers future students the opportunity to apply to receive mentoring from one of EIT’s female engineers, plus AU$5000 at the end of each year of study for the duration of the program.

The Richard E. Morley Industrial Automation Scholarship This scholarship offers a 20% discount off your overall tuition fees for future students studying our Bachelor of Science (Industrial Automation Engineering) or Master of Engineering (Industrial Automation) degrees.

The Engineering Institute Of Technology (EIT) Dean’s Scholarship This scholarship allows outstanding future students to apply to receive 10% off their tuition fees while studying at EIT.

EIT Academic Excellence Scholarship This scholarship awards continuing students with a 10% discount off tuition fees for the next semester to reward high academic performance in each program type.

EIT Senior Year Merit Scholarship Excel in your first year in one of EIT’s online bachelor degrees from your home country and then apply to complete the second and third year (at a reduction of 20%) on campus.

EIT International Science and Engineering Merit (ISEM) Scholarship The scholarship awards continuing students with outstanding academic achievement in a bachelor’s and master’s program a 35% reduction on tuition fees for the next term/semester.

EIT Women in Engineering Scholarship This scholarship awards continuing female students with high academic achievement a 25% discount on tuition fees for the next term/semester combined with mentorship with one of EIT’s female engineers.


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