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The information below will be relevant from 28/02/2023.
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CM15 - Bachelor of Engineering (Honours)(Major) and Master of Project Management in Engineering

Overview

Compulsory Residential School

Some units in this course require you to attend a compulsory Residential School or Work Integrated Learning. Please see Course Features in the Getting Started tab for further information.

Course Overview

The Bachelor of Engineering (Honours) and Master of Project Management in Engineering aims to produce an engineer skilled in both high-level engineering designs and managing engineering projects including project planning, stakeholder management, risk management, strategy, resource management, project control, procurement management, and execution. This course has a strong focus on contextual learning and promoting sustainable development, so you will apply theory to authentic scenarios throughout your course.

In your first year, you will develop skills in problem-solving, teamwork and engineering professional practice together with learning foundational technical content. In Term 2 of Year 1, you will undertake an authentic industry-based project with work-integrated learning. In the second year, you will gain in-depth discipline-specific technical knowledge and skills. In the third and fourth years of your course, you will develop a deeper understanding of the foundation knowledge that you gained in the first and second year. In the fourth and final year, while completing a number of engineering project units, you will choose project management units and will apply that knowledge to real-life projects.

You will confirm your ability to work as a professional engineer by completing a major individual engineering project, sometimes with an industry mentor, and a project management research project during the fifth year of the course.

The Master of Project Management in Engineering is not a standalone course and can only be studied with the Bachelor of Engineering (Honours) course.

Career Information

As a professional engineer you can be a driver of change in society and be not only responsible for technological change, but also the impact it has on communities, society and the environment in general. Professional engineers work with people, they listen, then set about solving problems for people and communities. This course provides a unique opportunity to become an engineer with high-level engineering planning and design skills complemented by project management skills including project planning, stakeholder management, risk management, strategy, resource management, project control and execution as well as procurement management.

Civil engineers are typically involved in planning, design and maintenance of physical infrastructure systems including the construction of buildings and bridges, transport and water resource systems, sewage and industrial waste systems, harbours and railways.

Civil and Humanitarian engineers typically specialise in planning, design and maintenance of critical infrastructure to improve the disaster resilience of communities using available technologies.

Mechanical engineers are typically involved in planning, design, installation, maintenance and operation of machines, thermodynamic and combustion systems, fluid systems, materials handling systems, manufacturing equipment and processing plants.

Electrical engineers typically specialise in systems design, development and maintenance of systems associated with electrical power and energy including electricity generation and distribution, telecommunications, instrumentation and control, microprocessors and electronics.

Mechatronics engineers typically specialise in the design and development of autonomous systems to improve productivity of various application areas such as health and medical, agriculture, manufacturing and transport.

Resource Systems engineers typically specialise in applying contemporary technologies to increase productivity, sustainability and safety of resource industry (mining and mineral processing) operations.

Course Details

Duration	5 years full-time or 10 years part-time
Credit Points that Must be Earned	240
Number of Units Required	CQUniversity uses the concept of credits to express the amount of study required for a particular course and individual units. The number of units varies between courses. Units in postgraduate courses normally consist of 6 points of credit or multiples thereof (e.g. 12, 18, 24).
Expected Hours of Study	One point of credit is equivalent to an expectation of approximately two hours of student work per week in a term.
Course Type	Postgraduate Double Degree
Qualification (post nominal)	BEng(Hons) MPMEng
AQF Level	Level 9: Masters Degree (Coursework)
Course Fees	Indicative Year - 2022 Commonwealth Supported Place – Indicative First Year Fee - $7,013 International Indicative First Term Fee - $18,030 International Indicative First Year Fee - $36,120

Admission Codes

Domestic Students Tertiary Admission Centre Codes (TAC) Codes	NSW - Online - 160345 QLD - Bundaberg - 810771 QLD - Cairns - 820771 QLD - Gladstone - 830771 QLD - Mackay - 840771 QLD - Online - 850551 QLD - Rockhampton - 850771 WA - Online - 150345
International Students CRICOS Codes	Not Applicable

Where and when can I start?

Units offered internally at the below campuses may be delivered using a combination of face-to-face and video conferencing style teaching.
Units offered via MIX mode are delivered online and require compulsory attendance of site-specific learning activities such as on-campus residential schools, placements and/or work integrated learning. See Course Features tab for further information. Online units are delivered using online resources only.
Please Click Here for more information.

The following tables list the courses availabilities by location and term. Directing your pointer over your preferred location will provide further information if this course is not available for the full duration. Please be sure to also check individual unit availability by location and term prior to enrolling.

Domestic Availability

Term 2 - 2023

Bundaberg

Cairns

Gladstone

Mackay

Online

Rockhampton

Term 1 - 2023

Bundaberg

Cairns

Gladstone

Mackay

Online

Rockhampton

Term 2 - 2022

Bundaberg

Cairns

Gladstone

Mackay

Online

Rockhampton

Term 1 - 2022

Bundaberg

Cairns

Gladstone

Mackay

Online

Rockhampton

Show All

International Availability

Term 2 - 2023

Sorry, no international availabilities found.

Term 1 - 2023

Sorry, no international availabilities found.

Term 2 - 2022

Sorry, no international availabilities found.

Term 1 - 2022

Sorry, no international availabilities found.

Show All

For any problems regarding admissions availability for the selected course please contact 13 CQUni (13 27 86) or send us an email at http://contactus.cqu.edu.au/

What do I need to start?

Entry Scores

Rank Threshold

SR 69 | ATAR 69

Entry Requirements

English (Units 3 & 4, C) or equivalent; General Mathematics (Units 3 & 4, C) or equivalent.

English Language Proficiency Requirements:

If you were not born in Australia, Canada, New Zealand, United Kingdom, Ireland, South Africa or the United States of America you are required to meet the English Language Proficiency requirements set by the University. Applicants are required to provide evidence of completion within the last 10 years of:

A secondary qualification (Year 11 and 12, or equivalent), or
A completed Australian Qualifications Framework (AQF) Diploma level qualification, or
Bachelor level qualification study for a period of at least 2 years full-time with a minimum overall GPA 4.0 completed in Australia, Canada, New Zealand, United Kingdom, Ireland, South Africa or the United States of America, which will meet the English proficiency.

If you do not satisfy any of the above you will need to undertake an English language proficiency test and achieve the following scores:

An International English Language Testing System (IELTS Academic) overall band score of at least 6.0, with a minimum 6.0 in each subset; or
An Occupational English Test with Grades A or B only in each of the four components; or
Pearson Test of English Academic (PTE Academic) - Requires an overall score of 54 with no sub-score less than 54; or
Test of English as a Foreign Language (TOEFL)– Requires overall score of 75 or better with no score less than 21 (Internet Based).

English test results remain valid for no more than two years between final examination date and the date of commencement of study, and must appear on a single result certificate.

If you are an international student please visit International Students English requirements for further information.

Each student will be assessed individually.

Security Requirements

N/A

Health Requirements

N/A

Assumed Knowledge

Recommended study: Mathematical Methods, Physics, and Design

Fees and Charges

Domestic Fees

Course Features

Awards and Accreditation

Interim Awards	CC31 - Bachelor of Engineering (Honours)
Exit Awards	CC31 - Bachelor of Engineering (Honours) CL42 - Diploma of Engineering Studies
Professional Accreditation	Conditional accreditation was awarded by Engineers Australia in February 2022 at the Stage 1 Competency Standards for Professional Engineers.
Learned Society Accreditation	Not applicable

Residential School Requirements

Compulsory Residential School	All units in this course are offered in online mode. Some units will have compulsory Residential Schools for online students. These Residential Schools give students an opportunity to develop and demonstrate practical skills.
Click here to view all Residential Schools

Practicum/Work Placement

ENEP14004 - Students are required to complete 480 hours (including a minimum of 240 hours of industry experience) of Engineering Professional Practice prior to graduation. Once the students have completed the professional practice requirements, they must enrol in this unit and provide evidence of how they have attained the professional engineering practice exposure required by Engineers Australia.

Previous and Current Enrolments

Year	Number of Students
2022	2

Inherent Requirements

There are currently no inherent requirements associated with this course.

Core Learning Outcomes

Please refer to the Core Structure Learning Outcomes

Civil Learning Outcomes

1. Design and analyse complex structures that comply with relevant Australian Standards
2. Analyse and design geotechnical engineering elements using fundamental concepts including soil classification and properties
3. Analyse and design water resource infrastructure by applying hydraulics and hydrology concepts considering Australian Rainfall and Runoff standards
4. Evaluate traffic data and road safety issues and apply relevant standards to design transportation infrastructure
5. Apply mathematics, science and engineering skills to engineering disciplines
6. Conduct all phases of engineering projects utilising contemporary project management principles, techniques and tools, both autonomously and in teams
7. Demonstrate the skills of risk management, ethical practice and professional communication at the level expected of an engineering graduate
8. Investigate contract, negotiation, procurement, and decision-making processes within a contemporary project management framework
9. Apply civil engineering principles to create innovative solutions aligned with the United Nations Sustainable Development Goals.

	Course Learning Outcomes
Australian Qualifications Framework Descriptors	1	2	3	4	5	6	7	8	9
1. KNOWLEDGE Have a body of knowledge that includes the understanding of recent developments in a discipline and/or area of professional practice
2. KNOWLEDGE Have an understanding of research principles and methods applicable to a field of work and/or learning
3. SKILLS Have cognitive skills to demonstrate mastery of theoretical knowledge and to reflect critically on theory and professional practice or scholarship
4. SKILLS Have cognitive, technical and creative skills to investigate, analyse and synthesise complex information, problems, concepts and theories and to apply established theories to different bodies of knowledge or practice
5. SKILLS Have cognitive, technical and creative skills to generate and evaluate complex ideas and concepts at an abstract level
6. SKILLS Have communication and technical research skills to justify and interpret theoretical propositions, methodologies, conclusions and professional decisions to specialist and non-specialist audiences
7. SKILLS Have technical and communication skills to design, evaluate, implement, analyse and theorise about developments that contribute to professional practice or scholarship
8. APPLICATION OF KNOWLEDGE & SKILLS Be able to use creativity and initiative to new situations in professional practice and/or for further learning
9. APPLICATION OF KNOWLEDGE & SKILLS Be able to use high level personal autonomy and accountability
10 APPLICATION OF KNOWLEDGE & SKILLS Be able to plan and execute a substantial research-based project, capstone experience and/or piece of scholarship.
APPLICATION OF KNOWLEDGE & SKILLS Communicate, interact and collaborate with others effectively in culturally or linguistically diverse contexts in a culturally respectful manner

Civil with Humanitarian Learning Outcomes

1. Design and analyse complex structures that comply with relevant Australian Standards
2. Analyse and design geotechnical engineering elements using fundamental concepts including soil classification and properties
3. Analyse and design water resource infrastructure by applying hydraulics and hydrology concepts considering Australian Rainfall and Runoff standards
4. Design transportation infrastructure using traffic data evaluations and relevant Australian standards
5. Design municipal infrastructure for increased disaster resilience
6. Conduct all phases of engineering projects utilising contemporary project management principles, techniques and tools, both autonomously and in teams
7. Demonstrate the skills of risk management, ethical practice and professional communication at the level expected of an engineering graduate
8. Investigate contract, negotiation, procurement, and decision-making processes within a contemporary project management framework
9. Apply civil and humanitarian engineering principles to create innovative solutions aligned with the United Nations Sustainable Development Goals.

	Course Learning Outcomes
Australian Qualifications Framework Descriptors	1	2	3	4	5	6	7	8	9
1. KNOWLEDGE Have a body of knowledge that includes the understanding of recent developments in a discipline and/or area of professional practice
2. KNOWLEDGE Have an understanding of research principles and methods applicable to a field of work and/or learning
3. SKILLS Have cognitive skills to demonstrate mastery of theoretical knowledge and to reflect critically on theory and professional practice or scholarship
4. SKILLS Have cognitive, technical and creative skills to investigate, analyse and synthesise complex information, problems, concepts and theories and to apply established theories to different bodies of knowledge or practice
5. SKILLS Have cognitive, technical and creative skills to generate and evaluate complex ideas and concepts at an abstract level
6. SKILLS Have communication and technical research skills to justify and interpret theoretical propositions, methodologies, conclusions and professional decisions to specialist and non-specialist audiences
7. SKILLS Have technical and communication skills to design, evaluate, implement, analyse and theorise about developments that contribute to professional practice or scholarship
8. APPLICATION OF KNOWLEDGE & SKILLS Be able to use creativity and initiative to new situations in professional practice and/or for further learning
9. APPLICATION OF KNOWLEDGE & SKILLS Be able to use high level personal autonomy and accountability
10 APPLICATION OF KNOWLEDGE & SKILLS Be able to plan and execute a substantial research-based project, capstone experience and/or piece of scholarship.
APPLICATION OF KNOWLEDGE & SKILLS Communicate, interact and collaborate with others effectively in culturally or linguistically diverse contexts in a culturally respectful manner

Electrical Learning Outcomes

1. Analyse and solve complex electrical power systems problems associated with generation, transmission, distribution, protection and renewable energy integration
2. Design and analyse complex industrial electrical machines and drive applications
3. Analyse, design, implement and test instrumentation and control systems using industry-standard software and hardware tools
4. Design, analyse and implement complex circuits, embedded systems and industrial communication networks to provide solutions to industrial applications
5. Apply mathematics, science and engineering skills to engineering disciplines
6. Conduct all phases of engineering projects utilising contemporary project management principles, techniques and tools, both autonomously and in teams
7. Demonstrate the skills of risk management, ethical practice and professional communication at the level expected of an engineering graduate
8. Investigate contract, negotiation, procurement, and decision-making processes within a contemporary project management framework
9. Apply electrical engineering principles to create innovative solutions aligned with the United Nations Sustainable Development Goals.

	Course Learning Outcomes
Australian Qualifications Framework Descriptors	1	2	3	4	5	6	7	8	9
1. KNOWLEDGE Have a body of knowledge that includes the understanding of recent developments in a discipline and/or area of professional practice
2. KNOWLEDGE Have an understanding of research principles and methods applicable to a field of work and/or learning
3. SKILLS Have cognitive skills to demonstrate mastery of theoretical knowledge and to reflect critically on theory and professional practice or scholarship
4. SKILLS Have cognitive, technical and creative skills to investigate, analyse and synthesise complex information, problems, concepts and theories and to apply established theories to different bodies of knowledge or practice
5. SKILLS Have cognitive, technical and creative skills to generate and evaluate complex ideas and concepts at an abstract level
6. SKILLS Have communication and technical research skills to justify and interpret theoretical propositions, methodologies, conclusions and professional decisions to specialist and non-specialist audiences
7. SKILLS Have technical and communication skills to design, evaluate, implement, analyse and theorise about developments that contribute to professional practice or scholarship
8. APPLICATION OF KNOWLEDGE & SKILLS Be able to use creativity and initiative to new situations in professional practice and/or for further learning
9. APPLICATION OF KNOWLEDGE & SKILLS Be able to use high level personal autonomy and accountability
10 APPLICATION OF KNOWLEDGE & SKILLS Be able to plan and execute a substantial research-based project, capstone experience and/or piece of scholarship.
APPLICATION OF KNOWLEDGE & SKILLS Communicate, interact and collaborate with others effectively in culturally or linguistically diverse contexts in a culturally respectful manner

Mechanical Learning Outcomes

1. Apply mathematics, science and engineering skills to engineering disciplines
2. Design and analyse machine components and systems by applying principles of materials, statics, stress analysis and machine design using relevant design standards and codes
3. Apply dynamic modelling, control and simulation methods to design machine components and systems
4. Design and analyse energy generation and energy conversion systems through the application of thermodynamics and heat transfer principles
5. Design and model fluid machinery by applying fluid mechanics and hydraulics principles
6. Conduct all phases of engineering projects utilising contemporary project management principles, techniques and tools, both autonomously and in teams
7. Demonstrate the skills of risk management, ethical practice and professional communication at the level expected of an engineering graduate
8. Investigate contract, negotiation, procurement, and decision-making processes within a contemporary project management framework
9. Apply mechanical engineering principles to create innovative solutions aligned with the United Nations Sustainable Development Goals.

	Course Learning Outcomes
Australian Qualifications Framework Descriptors	1	2	3	4	5	6	7	8	9
1. KNOWLEDGE Have a body of knowledge that includes the understanding of recent developments in a discipline and/or area of professional practice
2. KNOWLEDGE Have an understanding of research principles and methods applicable to a field of work and/or learning
3. SKILLS Have cognitive skills to demonstrate mastery of theoretical knowledge and to reflect critically on theory and professional practice or scholarship
4. SKILLS Have cognitive, technical and creative skills to investigate, analyse and synthesise complex information, problems, concepts and theories and to apply established theories to different bodies of knowledge or practice
5. SKILLS Have cognitive, technical and creative skills to generate and evaluate complex ideas and concepts at an abstract level
6. SKILLS Have communication and technical research skills to justify and interpret theoretical propositions, methodologies, conclusions and professional decisions to specialist and non-specialist audiences
7. SKILLS Have technical and communication skills to design, evaluate, implement, analyse and theorise about developments that contribute to professional practice or scholarship
8. APPLICATION OF KNOWLEDGE & SKILLS Be able to use creativity and initiative to new situations in professional practice and/or for further learning
9. APPLICATION OF KNOWLEDGE & SKILLS Be able to use high level personal autonomy and accountability
10 APPLICATION OF KNOWLEDGE & SKILLS Be able to plan and execute a substantial research-based project, capstone experience and/or piece of scholarship.
APPLICATION OF KNOWLEDGE & SKILLS Communicate, interact and collaborate with others effectively in culturally or linguistically diverse contexts in a culturally respectful manner

Mechatronics Learning Outcomes

1. Solve authentic problems through analyses, design and programming of robotic systems
2. Analyse, design and build instrumentation and automated control systems to meet desired industrial needs within realistic constraints
3. Analyse complex scenarios and design mechatronics solutions using appropriate industry-standard software, hardware and embedded-systems development tools
4. Analyse mechatronics systems including parasitics and uncertainties by applying the principles of mechanical engineering design
5. Apply mathematics, science and engineering skills to engineering disciplines
6. Conduct all phases of engineering projects utilising contemporary project management principles, techniques and tools, both autonomously and in teams
7. Demonstrate the skills of risk management, ethical practice and professional communication at the level expected of an engineering graduate
8. Investigate contract, negotiation, procurement, and decision-making processes within a contemporary project management framework
9. Apply mechatronics engineering principles to create innovative solutions aligned with the United Nations Sustainable Development Goals.

	Course Learning Outcomes
Australian Qualifications Framework Descriptors	1	2	3	4	5	6	7	8	9
1. KNOWLEDGE Have a body of knowledge that includes the understanding of recent developments in a discipline and/or area of professional practice
2. KNOWLEDGE Have an understanding of research principles and methods applicable to a field of work and/or learning
3. SKILLS Have cognitive skills to demonstrate mastery of theoretical knowledge and to reflect critically on theory and professional practice or scholarship
4. SKILLS Have cognitive, technical and creative skills to investigate, analyse and synthesise complex information, problems, concepts and theories and to apply established theories to different bodies of knowledge or practice
5. SKILLS Have cognitive, technical and creative skills to generate and evaluate complex ideas and concepts at an abstract level
6. SKILLS Have communication and technical research skills to justify and interpret theoretical propositions, methodologies, conclusions and professional decisions to specialist and non-specialist audiences
7. SKILLS Have technical and communication skills to design, evaluate, implement, analyse and theorise about developments that contribute to professional practice or scholarship
8. APPLICATION OF KNOWLEDGE & SKILLS Be able to use creativity and initiative to new situations in professional practice and/or for further learning
9. APPLICATION OF KNOWLEDGE & SKILLS Be able to use high level personal autonomy and accountability
10 APPLICATION OF KNOWLEDGE & SKILLS Be able to plan and execute a substantial research-based project, capstone experience and/or piece of scholarship.
APPLICATION OF KNOWLEDGE & SKILLS Communicate, interact and collaborate with others effectively in culturally or linguistically diverse contexts in a culturally respectful manner

Resource Systems Learning Outcomes

1. Convert a traditional mine site design to an automated mine site design
2. Assess the feasibility of a resource project within the constraints of relevant legislation
3. Analyse and interpret data to make decisions using an evidence-based approach
4. Design effective solutions for complex resource systems problems using industry standards, relevant legislation and appropriate software
5. Design resource systems to improve safety and productivity while engaging stakeholders in a socially sustainable manner
6. Conduct all phases of engineering projects utilising contemporary project management principles, techniques and tools, both autonomously and in teams
7. Demonstrate the skills of risk management, ethical practice and professional communication at the level expected of an engineering graduate
8. Investigate contract, negotiation, procurement, and decision-making processes within a contemporary project management framework.

	Course Learning Outcomes
Australian Qualifications Framework Descriptors	1	2	3	4	5	6	7	8
1. KNOWLEDGE Have a body of knowledge that includes the understanding of recent developments in a discipline and/or area of professional practice
2. KNOWLEDGE Have an understanding of research principles and methods applicable to a field of work and/or learning
3. SKILLS Have cognitive skills to demonstrate mastery of theoretical knowledge and to reflect critically on theory and professional practice or scholarship
4. SKILLS Have cognitive, technical and creative skills to investigate, analyse and synthesise complex information, problems, concepts and theories and to apply established theories to different bodies of knowledge or practice
5. SKILLS Have cognitive, technical and creative skills to generate and evaluate complex ideas and concepts at an abstract level
6. SKILLS Have communication and technical research skills to justify and interpret theoretical propositions, methodologies, conclusions and professional decisions to specialist and non-specialist audiences
7. SKILLS Have technical and communication skills to design, evaluate, implement, analyse and theorise about developments that contribute to professional practice or scholarship
8. APPLICATION OF KNOWLEDGE & SKILLS Be able to use creativity and initiative to new situations in professional practice and/or for further learning
9. APPLICATION OF KNOWLEDGE & SKILLS Be able to use high level personal autonomy and accountability
10 APPLICATION OF KNOWLEDGE & SKILLS Be able to plan and execute a substantial research-based project, capstone experience and/or piece of scholarship.
APPLICATION OF KNOWLEDGE & SKILLS Communicate, interact and collaborate with others effectively in culturally or linguistically diverse contexts in a culturally respectful manner

Course Structure

In order to complete this course, you must:

Complete the core structure
Complete 1 major

Core Structure

View Full Course Structure

Number of units: 6	Total credit points: 42

Note that while the Bachelor of Engineering (Honours) and the Master of Project Management in Engineering is accredited by Engineers Australia at the professional level, the Master of Project Management in Engineering by itself is not an accredited entry to engineering professional practice.

In order to complete this course, you must:

Complete the Core Structure
Complete 1 Major

The More Details tab has a link to the Course Planners for this course.

Note that full-time students generally enrol in 24cp per term and part-time students (working more than 20 hours a week) generally enrol in a half-load i.e. 12cp per term.

If you are enrolled in civil, electrical or mechanical majors your Course Planner includes the MATH11247 Foundation Mathematics unit. You can opt-out of the MATH11247 Foundation Mathematics unit and complete an elective instead after successfully completing a mathematic self-diagnostics test. See More Details tab for how to access the diagnostic test and alternative pathways for completing the first year mathematics units.

Available units
Students must complete the following compulsory units:
ENEG11005	Fundamentals of Professional Engineering
ENEG11006	Engineering Statics
ENEG11007	Engineering Industry Project Investigation
ENEG11008	Materials for Engineers
MATH11218	Applied Mathematics
MATH11219	Applied Calculus

Course Structure

In order to complete this course, you must:

Complete the core structure
Complete 1 major

Civil Major

View Full Course Structure

Number of units: 29	Total credit points: 198

Intermediate Units

Available units
Students must complete the following compulsory units:
MATH11247	Foundation Mathematics
ENEG11009	Fundamentals of Sustainable Energy
ENEG12007	Creative Engineering
ENEC12009	Engineering Surveying
ENEC12010	Hydraulics and Hydrology
MATH12225	Applied Computational Modelling
ENEC12008	Geotechnical Engineering
ENEC12011	Transport Systems
ENEC12012	Stress Analysis
ENEG13002	Engineering Futures

Advanced Units

Please note that ENEC14014, ENEC14016 and ENEC14017 are double credit-point (12cp) units intended to provide an authentic project experience.

Available units
Students must complete the following compulsory units:
ENEC13015	Steel and Timber Design
ENEC13017	Advanced Structural Analysis
ENEC13016	Concrete Technology and Design
ENEC13014	Water Supply and Wastewater Technology
ENEC14014	Structural and Geotechnical Design
ENEC14016	Traffic and Transportation Engineering
ENEC14017	Water Resources Engineering

Electives

In addition to the units listed above, there is an elective slot in the civil major.

If you opt-out of the MATH11247 Foundation Mathematics unit you are required to complete an additional 6cp elective.

There is a pre-approved set of electives listed in the Course Planner (the link is in the More Details tab). Should you wish to complete an elective not on the pre-approved list, contact the Head of Course to discuss.

Capstone Project

At the end of the bachelor of engineering component of your course, you will complete a final year engineering project over 2 terms. The final year engineering project confirms your ability to work as a professional engineer.

Please see More Details section for information on enrolling into the final year project units ENEG14003 and ENEG14005.

Available units
Students must complete the following compulsory units:
ENEG14003	Engineering Honours Project Planning
ENEG14005	Engineering Honours Project Implementation

Engineering Project Management

In addition to the engineering project units ENEG14003 and ENEG14005, you will complete the following project management units which together make up the Master of Engineering Project Management qualification.

Available units
Students must complete the following compulsory units:
PPMP20007	Project Management Concepts
PPMP20008	Initiating and Planning Projects
PPMP20009	Leading Lean Projects
PPMP20010	Executing and Closing Projects
PPMP20011	Contract and Procurement Management
PPMP20012	Program and Portfolio Management Information Systems
PPMP20015	Research Proposal
PPMP20016	Research Project 2

Engineering Professional Practice

This course has 480 hours (including a minimum of 240 hours of industry experience) of Engineering Professional Practice requirement prior to graduation. 'Undergraduate Engineering Course' Moodle meta-site will provide you with information about the work experience requirements of the accreditation body, the evidence you need to collect and information on how to create the ePortfolio that you will use to accumulate evidence of your professional practice exposure throughout the course of study. In one of the later terms of study, after you have completed your professional practice requirements, you must enrol into the following unit to provide evidence of how you have attained the professional engineering practice exposure required by Engineers Australia. Note that this unit is zero-credits and hence is no cost to you.

Available units
Students must complete the following compulsory units:
ENEP14004	Engineering Practice Experience

Course Structure

In order to complete this course, you must:

Complete the core structure
Complete 1 major

Civil with Humanitarian Major

View Full Course Structure

Number of units: 29	Total credit points: 198

Intermediate Units

Available units
Students must complete the following compulsory units:
ENEC12008	Geotechnical Engineering
SOCL11059	Introducing Social Change
ENEC12009	Engineering Surveying
ENEC12010	Hydraulics and Hydrology
ENEC12011	Transport Systems
ENEC12012	Stress Analysis
ENEG12007	Creative Engineering
ENEG12008	Appropriate Technology for Humanitarian Projects
MATH11247	Foundation Mathematics
ENEG13002	Engineering Futures

Advanced Units

Please note that ENEC14014, ENEC14016 and ENEC14017 are double credit-point (12cp) units intended to provide an authentic project experience.

Available units
Students must complete the following compulsory units:
ENEC13014	Water Supply and Wastewater Technology
ENEC13015	Steel and Timber Design
ENEC13016	Concrete Technology and Design
ENEC14014	Structural and Geotechnical Design
ENEC14016	Traffic and Transportation Engineering
ENEC14017	Water Resources Engineering
ENEC14018	Disaster Resilient Infrastructure
ENEG13001	Humanitarian Engineering Project

Capstone Project

Please see More Details section for information on enrolling into the final year project units ENEG14003 and ENEG14005.

Available units
Students must complete the following compulsory units:
ENEG14003	Engineering Honours Project Planning
ENEG14005	Engineering Honours Project Implementation

Engineering Project Management

Available units
Students must complete the following compulsory units:
PPMP20007	Project Management Concepts
PPMP20008	Initiating and Planning Projects
PPMP20009	Leading Lean Projects
PPMP20010	Executing and Closing Projects
PPMP20011	Contract and Procurement Management
PPMP20012	Program and Portfolio Management Information Systems
PPMP20015	Research Proposal
PPMP20016	Research Project 2

Engineering Professional Practice

Available units
Students must complete the following compulsory units:
ENEP14004	Engineering Practice Experience

Course Structure

In order to complete this course, you must:

Complete the core structure
Complete 1 major

Electrical Major

View Full Course Structure

Number of units: 29	Total credit points: 198

Intermediate Units

Available units
Students must complete the following compulsory units:
MATH11247	Foundation Mathematics
ENEG11009	Fundamentals of Sustainable Energy
ENEG12007	Creative Engineering
ENEE12014	Electrical Circuit Analysis
ENEE12015	Electrical Power Engineering
ENEE12016	Signals and Systems
ENEX12002	Introductory Electronics
MATH12225	Applied Computational Modelling
ENEG13002	Engineering Futures

Advanced Units

Please note that ENEE14005, ENEE14006 and ENEE14007 are double credit-point (12cp) units intended to provide an authentic project experience.

Available units
Students must complete the following compulsory units:
ENEX13002	Power Electronics
ENEE13016	Power System Protection
ENEE13019	Control Systems Analysis and Design
ENEE13021	Power System Analysis and Design
ENEE13022	Communication Networks
ENEE14005	Capstone Power and Control Design
ENEE14006	Embedded Microcontrollers
ENEE14007	Electrical Machines and Drives Applications

Electives

In addition to the units listed above, there is an elective slot in the electrical major.

If you opt-out of the MATH11247 Foundation Mathematics unit you are required to complete an additional 6cp elective.

There is a pre-approved set of electives listed in the Course Planner (the link is in the More Details tab). Should you wish to complete an elective not on the pre-approved list, contact the Head of Course to discuss.

Capstone Project

Please see More Details section for information on enrolling into the final year project units ENEG14003 and ENEG14005.

Available units
Students must complete the following compulsory units:
ENEG14003	Engineering Honours Project Planning
ENEG14005	Engineering Honours Project Implementation

Engineering Project Management

Available units
Students must complete the following compulsory units:
PPMP20007	Project Management Concepts
PPMP20008	Initiating and Planning Projects
PPMP20009	Leading Lean Projects
PPMP20010	Executing and Closing Projects
PPMP20011	Contract and Procurement Management
PPMP20012	Program and Portfolio Management Information Systems
PPMP20015	Research Proposal
PPMP20016	Research Project 2

Engineering Professional Practice

Available units
Students must complete the following compulsory units:
ENEP14004	Engineering Practice Experience

Course Structure

In order to complete this course, you must:

Complete the core structure
Complete 1 major

Mechanical Major

View Full Course Structure

Number of units: 29	Total credit points: 198

Intermediate units

Available units
Students must complete the following compulsory units:
ENEG11009	Fundamentals of Sustainable Energy
MATH11247	Foundation Mathematics
ENEG12007	Creative Engineering
ENEM12009	Structural Mechanics
ENEM12010	Engineering Dynamics
MATH12225	Applied Computational Modelling
ENEM12008	Solid Materials Handling
ENEM12006	Fluid Mechanics
ENEG13002	Engineering Futures

Advanced units

Please note that ENEM14014, ENEM14015 and ENEM14016 are double credit-point (12cp) units intended to provide an authentic project experience.

Available units
Students must complete the following compulsory units:
ENEM13012	Maintenance Engineering
ENEM13018	Materials and Manufacturing
ENEM13015	Design of Machine Elements
ENEM14011	Energy Conversion
ENEM13019	Fluid Machinery
ENEM14015	Dynamic System Modelling and Control
ENEM14014	Capstone Thermofluid Engineering
ENEX13003	Design of Mechatronics Elements
ENEM13014	Thermodynamics

Electives

In addition to the units listed above, there are elective slots in the mechanical major.

If you opt-out of the MATH11247 Foundation Mathematics unit you are required to complete an additional 6cp elective.

There is a pre-approved set of electives listed in the Course Planner (the link is in the More Details tab). Should you wish to complete an elective not on the pre-approved list, contact the Head of Course to discuss.

Capstone Project

Please see More Details section for information on enrolling into the final year project units ENEG14003 and ENEG14005.

Available units
Students must complete the following compulsory units:
ENEG14003	Engineering Honours Project Planning
ENEG14005	Engineering Honours Project Implementation

Engineering Project Management

Available units
Students must complete the following compulsory units:
PPMP20007	Project Management Concepts
PPMP20008	Initiating and Planning Projects
PPMP20009	Leading Lean Projects
PPMP20010	Executing and Closing Projects
PPMP20011	Contract and Procurement Management
PPMP20012	Program and Portfolio Management Information Systems
PPMP20015	Research Proposal
PPMP20016	Research Project 2

Engineering Professional Practice

Available units
Students must complete the following compulsory units:
ENEP14004	Engineering Practice Experience

Course Structure

In order to complete this course, you must:

Complete the core structure
Complete 1 major

Mechatronics Major

View Full Course Structure

Number of units: 30	Total credit points: 198

Intermediate Units

Available units
Students must complete the following compulsory units:
ENEG11009	Fundamentals of Sustainable Energy
ENEG12007	Creative Engineering
ENEE12014	Electrical Circuit Analysis
MATH12225	Applied Computational Modelling
ENEX12002	Introductory Electronics
ENEM12010	Engineering Dynamics
ENEE12016	Signals and Systems
ENEX12001	Electrical Power and Machines
ENEM12009	Structural Mechanics
ENEG13002	Engineering Futures

Advanced Units

Please note that ENEX14001 Mechatronics Systems Design and ENEE14006 Embedded Microcontrollers are double credit-point (12cp) units intended to provide an authentic project experience.

Available units
Students must complete the following compulsory units:
ENEX13001	Instrumentation and Industrial Automation
ENEX13002	Power Electronics
ENEX13003	Design of Mechatronics Elements
ENEX13004	Advanced Dynamics and Robotics
ENEE13019	Control Systems Analysis and Design
ENEX13005	Machine Design and Vibrations
ENEX13006	Thermofluids Theory and Applications
ENEE14006	Embedded Microcontrollers
ENEX14001	Mechatronics Systems Design

Capstone Project

Please see More Details section for information on enrolling into the final year project units ENEG14003 and ENEG14005.

Available units
Students must complete the following compulsory units:
ENEG14003	Engineering Honours Project Planning
ENEG14005	Engineering Honours Project Implementation

Engineering Project Management

Available units
Students must complete the following compulsory units:
PPMP20007	Project Management Concepts
PPMP20008	Initiating and Planning Projects
PPMP20009	Leading Lean Projects
PPMP20010	Executing and Closing Projects
PPMP20011	Contract and Procurement Management
PPMP20012	Program and Portfolio Management Information Systems
PPMP20015	Research Proposal
PPMP20016	Research Project 2

Engineering Professional Practice

Available units
Students must complete the following compulsory units:
ENEP14004	Engineering Practice Experience

Course Structure

In order to complete this course, you must:

Complete the core structure
Complete 1 major

Resource Systems Major

View Full Course Structure

Number of units: 30	Total credit points: 198

Intermediate Units

Available units
Students must complete the following compulsory units:
ENEG11009	Fundamentals of Sustainable Energy
COIT11222	Programming Fundamentals
COIT11226	Systems Analysis
ENEC12009	Engineering Surveying
COIT11237	Database Design & Implementation
ENAR12014	Introduction to Mining Technology
ENAR12016	Earth Science
ENEE12014	Electrical Circuit Analysis
ENEE12016	Signals and Systems
ENEX12002	Introductory Electronics

Advanced Units

Please note that ENER14001 Resource Systems Automation Project and ENER14002 Resource Systems Feasibility Project are double credit-point (12cp) units intended to provide an authentic project experience.

Available units
Students must complete the following compulsory units:
ENAR12006	Rock Engineering
ENAR12013	Mine Planning and Design
ENAR12004	Mine Management and Safety
COIT12209	Data Science
ENEX13001	Instrumentation and Industrial Automation
ENER14001	Resource Systems Automation Project
ENER14002	Resource Systems Feasibility Project
ENAR13001	Economic Geology

Electives

In addition to the units listed above, there is an elective slot in the resource systems major.

There is a pre-approved set of electives listed in the Course Planner (the link is in the More Details tab). Should you wish to complete an elective not on the pre-approved list, contact the Head of Course to discuss.

Capstone Project

Please see More Details section for information on enrolling into the final year project units ENEG14003 and ENEG14005.

Available units
Students must complete the following compulsory units:
ENEG14003	Engineering Honours Project Planning
ENEG14005	Engineering Honours Project Implementation

Engineering Project Management

Available units
Students must complete the following compulsory units:
PPMP20007	Project Management Concepts
PPMP20008	Initiating and Planning Projects
PPMP20009	Leading Lean Projects
PPMP20010	Executing and Closing Projects
PPMP20011	Contract and Procurement Management
PPMP20012	Program and Portfolio Management Information Systems
PPMP20015	Research Proposal
PPMP20016	Research Project 2

Engineering Professional Practice

Available units
Students must complete the following compulsory units:
ENEP14004	Engineering Practice Experience

More Details

There is no additional information for this course.

Courses

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CM15 - Bachelor of Engineering (Honours)(Major) and Master of Project Management in Engineering

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Compulsory Residential School

Course Overview

Career Information

Indicative Year - 2022

Admission Codes

Domestic Availability

Term 2 - 2023

Bundaberg

Cairns

Gladstone

Mackay

Online

Rockhampton

Term 1 - 2023

Bundaberg

Cairns

Gladstone

Mackay

Online

Rockhampton

Term 2 - 2022

Bundaberg

Cairns

Gladstone

Mackay

Online

Rockhampton

Term 1 - 2022

Bundaberg

Cairns

Gladstone

Mackay

Online

Rockhampton

International Availability

Term 2 - 2023

Sorry, no international availabilities found.

Term 1 - 2023

Sorry, no international availabilities found.

Term 2 - 2022

Sorry, no international availabilities found.

Term 1 - 2022

Sorry, no international availabilities found.

Awards and Accreditation

Residential School Requirements

Practicum/Work Placement

Previous and Current Enrolments

In order to complete this course, you must:

Core Structure

In order to complete this course, you must:

Civil Major

In order to complete this course, you must:

Civil with Humanitarian Major

In order to complete this course, you must:

Electrical Major

In order to complete this course, you must:

Mechanical Major

In order to complete this course, you must:

Mechatronics Major

In order to complete this course, you must:

Resource Systems Major