CG21 - Bachelor of Engineering Technology

Showing: Term 1 2027
Overview

Course Overview

The Bachelor of Engineering Technology is designed to introduce the breadth of practice within your engineering discipline, while developing a high level of technical knowledge and capability in your chosen specialisation. Aircraft maintenance specialisations include mechanical and avionics. Civil includes municipal transportation and structural engineering. Other specialisations include electrical control, power engineering, mechanical design, mechanical energy, resource systems automation and resource systems data science. Online study options are available for all specialisations, except aircraft maintenance. The course integrates problem-solving, teamwork and communication skills to develop and demonstrate technical capabilities. You will learn problem-solving skills alongside technical content in exciting, real-world engineering contexts that promote sustainable and ethical practice.

To commence the Aircraft Maintenance Major, you must have already completed a Diploma of Aircraft Maintenance Engineering (Avionics or Mechanical) at Aviation Australia, or an equivalent qualification approved by the European Union Aviation Safety Agency (EASA). Upon completing the Diploma, you will receive 1.5 years of advanced standing towards the corresponding Aircraft Maintenance specialisation in this course. The final 1.5 years of the course are available on campus at Aviation Australia Brisbane and online. 

If you hold TAFE qualifications and relevant trade experience, you may be eligible to apply for recognised prior learning for the Trade Practice elective, as well as other units, which could result in advanced standing and a reduced course duration. Alternatively, you may choose the Trade Practice elective to integrate approximately 300 hours of TAFE training and experience into this course.

The Bachelor of Engineering Technology is part of CQUniversity’s Engineering Cadetship Program, which could enable you to combine sponsored study with ongoing employment at an engineering firm. Cadets are among the most work-ready graduates with additional workplace training, extensive experience, and industry connections. See CQUniversity’s Engineering Cadetships website for current opportunities.

The Bachelor of Engineering Technology is an alternate entry pathway for CQUniversity’s  Bachelor of Engineering Honours courses. You can also articulate into these courses easily to broaden your career opportunities.

Career Information

Bachelor of Engineering Technology graduates enjoy a wide variety of challenging career options across a range of industries and government sectors. As an Engineering Technologist you will apply your problem-solving skills and knowledge of scientific fundamentals to the design, testing, inspection, adaptation, commissioning, management or operation of on-site equipment, plant and sustainable systems.

Engineering Technologists, having specialised in one of the disciplines of civil (structural), civil (municipal/transportation), mechanical (process), mechanical (energy), mechanical (design), electrical (electrical power) or electrical (control), find employment in national and international public and private industry sectors including the energy, transportation, manufacturing, process, construction, mining and education industries.

The Bachelor of Engineering Technology course is based on the project-based learning philosophy which offers the opportunity to learn in context. This approach is designed to produce work-ready graduates with industry-relevant skills.

Course Details
Duration 3 years full-time or 6 years part-time
Credit Points that Must be Earned 144
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 undergraduate 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 Undergraduate Award
Qualification (post nominal) BEngTech
AQF Level Level 7: Bachelor Degree
Course Fees
Indicative Year - 2026
  • Commonwealth Supported Place – Indicative First Year Fee - $10,200
  • Domestic Full Fee Paying – Indicative First Year Fee - $34,200
  • International Indicative First Term Fee - $20,160
  • International Indicative First Year Fee - $50,100
Indicative Year - 2025
  • Commonwealth Supported Place – Indicative First Year Fee - $8,140
  • Domestic Full Fee Paying – Indicative First Year Fee - $26,307
  • International Indicative First Term Fee - $20,160
  • International Indicative First Year Fee - $40,290
Indicative Year - 2024
  • Commonwealth Supported Place – Indicative First Year Fee - $7,819
  • Domestic Full Fee Paying – Indicative First Year Fee - $25,269
  • International Indicative First Term Fee - $18,510
  • International Indicative First Year Fee - $37,230
Indicative Year - 2023
  • Commonwealth Supported Place – Indicative First Year Fee - $7,253
  • International Indicative First Term Fee - $18,300
  • International Indicative First Year Fee - $37,860
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
International Students
CRICOS Codes
Where and when can I start?

Domestic Availability

  • Term 2 - 2027
    Bundaberg Cairns Gladstone Mackay Online Rockhampton
  • Term 1 - 2027
    Bundaberg Cairns Gladstone Mackay Online Rockhampton
  • Term 2 - 2026
    Bundaberg Cairns Gladstone Mackay Online Rockhampton
  • Term 1 - 2026
    Bundaberg Cairns Gladstone Mackay Online Rockhampton
  • Term 2 - 2025
    Bundaberg Cairns Gladstone Mackay Online Rockhampton
  • Term 1 - 2025
    Bundaberg Cairns Gladstone Mackay Online Rockhampton
  • Term 2 - 2024
    Bundaberg Cairns Gladstone Mackay Online Rockhampton
  • Term 1 - 2024
    Bundaberg Cairns Gladstone Mackay Online Rockhampton
  • 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
  • Term 1 - 2021
    Bundaberg Cairns Gladstone Mackay Online Rockhampton
  • Term 2 - 2020
    Bundaberg Cairns Gladstone Mackay Online Rockhampton
  • Term 1 - 2020
    Bundaberg Cairns Gladstone Mackay Online Rockhampton
  • Term 2 - 2019
    Bundaberg Cairns Gladstone Mackay Online Rockhampton
  • Term 1 - 2019
    Bundaberg Cairns Gladstone Mackay Online Rockhampton
  • Term 2 - 2018
    Bundaberg Cairns Distance Gladstone Mackay Rockhampton
    Term 2 intake is only available for students with advanced standing. Students must hold a Diploma or above in an Engineering related field or have successfully completed at least some units in an engineering degree to be eligible. Students entering with advanced standing may have a reduced study load in some terms depending on the credit given for previous study.
  • Term 1 - 2018
    Bundaberg Cairns Distance Gladstone Mackay Rockhampton
  • Term 2 - 2017
    Bundaberg Cairns Distance Gladstone Mackay Rockhampton
    Term 2 intake is only available for students with advanced standing. Students must hold a Diploma or above in an Engineering related field or have successfully completed at least some units in an engineering degree to be eligible. Students entering with advanced standing may have a reduced study load in some terms depending on the credit given for previous study.
  • Term 1 - 2017
    Bundaberg Cairns Distance Gladstone Mackay Rockhampton
  • Term 2 - 2016
    Bundaberg Cairns Distance Gladstone Mackay Rockhampton
    Term 2 intake is only available for students with advanced standing. Students must hold a Diploma or above in an Engineering related field or have successfully completed at least some units in an engineering degree to be eligible. Students entering with advanced standing may have a reduced study load in some terms depending on the credit given for previous study.
  • Term 1 - 2016
    Bundaberg Cairns Distance Gladstone Mackay Rockhampton
  • Term 2 - 2015
    Bundaberg Distance Gladstone Mackay Rockhampton
    Term 2 intake is only available for students with advanced standing. Students must hold a Diploma or above in an Engineering related field or have successfully completed at least some courses in an engineering degree to be eligible. Students entering with advanced standing may have a reduced study load in some terms depending on the credit given for previous study.
  • Term 1 - 2015
    Bundaberg Distance Gladstone Mackay Rockhampton
  • Term 2 - 2014
    Distance
    Term 2 entry is only available to students with advanced standing. Incoming students should hold a Diploma or Advanced Diploma in an engineering discipline.
  • Term 1 - 2014
    Bundaberg Distance Gladstone Mackay Rockhampton

International Availability

  • Term 2 - 2027
    Brisbane Online
  • Term 1 - 2027
    Brisbane Cairns Online Rockhampton
  • Term 2 - 2026
    Brisbane Online
  • Term 1 - 2026
    Brisbane Cairns Online Rockhampton
  • Term 2 - 2025
    Brisbane Online
  • Term 1 - 2025
    Brisbane Cairns Online
  • Term 2 - 2024
    Brisbane Online Rockhampton
  • Term 1 - 2024
    Brisbane Online Rockhampton
  • Term 2 - 2023
    Brisbane Rockhampton
  • Term 1 - 2023
    Rockhampton
  • Term 2 - 2022
    Rockhampton
  • Term 1 - 2022
    Rockhampton
  • Term 1 - 2021
    Sorry, no international availabilities found.
  • Term 2 - 2020
    Sorry, no international availabilities found.
  • Term 1 - 2020
    Sorry, no international availabilities found.
  • Term 2 - 2019
    Sorry, no international availabilities found.
  • Term 1 - 2019
    Sorry, no international availabilities found.
  • Term 2 - 2018
    Sorry, no international availabilities found.
    Term 2 intake is only available for students with advanced standing. Students must hold a Diploma or above in an Engineering related field or have successfully completed at least some units in an engineering degree to be eligible. Students entering with advanced standing may have a reduced study load in some terms depending on the credit given for previous study.
  • Term 1 - 2018
    Distance
  • Term 2 - 2017
    Sorry, no international availabilities found.
    Term 2 intake is only available for students with advanced standing. Students must hold a Diploma or above in an Engineering related field or have successfully completed at least some units in an engineering degree to be eligible. Students entering with advanced standing may have a reduced study load in some terms depending on the credit given for previous study.
  • Term 1 - 2017
    Distance
  • Term 2 - 2016
    Sorry, no international availabilities found.
    Term 2 intake is only available for students with advanced standing. Students must hold a Diploma or above in an Engineering related field or have successfully completed at least some units in an engineering degree to be eligible. Students entering with advanced standing may have a reduced study load in some terms depending on the credit given for previous study.
  • Term 1 - 2016
    Distance
  • Term 2 - 2015
    Sorry, no international availabilities found.
    Term 2 intake is only available for students with advanced standing. Students must hold a Diploma or above in an Engineering related field or have successfully completed at least some courses in an engineering degree to be eligible. Students entering with advanced standing may have a reduced study load in some terms depending on the credit given for previous study.
  • Term 1 - 2015
    Distance
  • Term 2 - 2014
    Distance
    Term 2 entry is only available to students with advanced standing. Incoming students should hold a Diploma or Advanced Diploma in an engineering discipline.
  • Term 1 - 2014
    Distance
For any problems regarding admissions availability for the selected course please contact 13 CQUni (13 27 86) or send us an email at https://contactus.cqu.edu.au/
Entry Requirements - What do I need to start?
Entry Scores
Rank Threshold SR 65 | ATAR 65
Academic Requirements

Additional requirements for Aircraft Maintenance Majors

  • a completed Diploma of Aircraft Maintenance Engineering – Avionics (10600NAT or 11065NAT) or,

  • a completed Diploma of Aircraft Maintenance Engineering - Mechanical (10599NAT or 11064NAT).

To select the Aircraft Maintenance Engineering Majors, students must have already completed a Diploma of Aircraft Maintenance Engineering (Avionics or Mechanical) at Aviation Australia’s Brisbane campus or an equivalent qualification approved by the European Union Aviation Safety Agency (EASA). Upon completing the Diploma, students receive 1.5 years of advanced standing towards the corresponding Aircraft Maintenance Major in this course.

 

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.

You are required to provide documentation confirming completion of:

  • a secondary qualification (Year 11 and 12, or equivalent), or
  • a completed Australian Qualifications Framework (AQF) Certificate IV or Diploma level qualification, or
  • a Bachelor level qualification study for a period of at least 2 years fulltime with a minimum overall GPA 4.0.

These qualifications must be completed within Australia, Canada, New Zealand, United Kingdom, South Africa, Ireland, or the United States of America to meet the English language proficiency requirements.

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 5.5 in each of the four components (listening, reading, writing and speaking), or
  • a Test of English as a Foreign Language (TOEFL) iBT overall score of at least 75 with no score less than 17 in each of the four components (listening, reading, writing and speaking), or
  • a Pearson Test of English Academic (PTE Academic) overall score of at least 54 with no less than 46 in each of the four components (listening, reading, writing and speaking), or
  • an Occupational English Test with a minimum result of 'B' in each of the four components (listening, reading, writing and speaking).

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.

Each application will be assessed individually.

Prerequisite Subjects
General Mathematics, Mathematics Methods or Specialist Mathematics (Unit 3 & 4, Grade C or higher) or equivalent., One of English, Literature, English as an Additional Language or English & Literature Extension (Units 3 & 4, C) or equivalent
Security Requirements

N/A

Health Requirements

N/A

Course Features

Awards and Accreditation

Interim Awards Not applicable
Exit Awards CL42 - Diploma of Engineering Studies
Accreditation
  • Professional Practice: Mechanical Major
    Engineers Australia

    The CG21 Bachelor of Engineering Technology course is fully accredited by Engineers Australia

    Graduates are recognised as engineering technologists and eligible for Graduate membership with EA.

  • Professional Practice: Electrical Major
    Engineers Australia

    The CG21 Bachelor of Engineering Technology course is fully accredited by Engineers Australia

    Graduates are recognised as engineering technologists and eligible for Graduate membership with EA.

  • Professional Practice: Civil Major
    Engineers Australia

    The CG21 Bachelor of Engineering Technology course is fully accredited by Engineers Australia

    Graduates are recognised as engineering technologists and eligible for Graduate membership with EA.

Residential School Requirements

Compulsory Residential School Online students of this course will be required to attend a CQUniversity location or other designated location for compulsory residential schools in some units. Students are advised to check unit details to determine whether a unit has a residential component prior to enrolling.
Click here to view all Residential Schools

Practicum/Work Placement

ENEP14004 - To be eligible for graduation, you must complete 360 hours of Professional Engineering Practice, including a minimum of 240 hours of industry experience. Mandatory work experience is set by the course accreditation body Engineers Australia. In one of your final terms of study, you must enrol into the following zero-credit unit, at no cost to you, and record your Professional Engineering Practice in an ePortfolio. The More Details tab contains a link to the Undergraduate Engineering Course Moodle Meta-site which contains further instructions on completing your Professional Engineering Practice.

Previous and Current Enrolments

Year Number of Students
2025 35
2024 43
2023 32
2022 36
2021 36
Inherent Requirements
Ethical Behaviour

Examples are:

  • Complying with academic and non-academic misconduct policies and procedures such as CQUniversity’s Student Charter, Student Misconduct Policy and Student Behavioural Misconduct Procedures and Assessment Policy and Procedure (Higher Education Coursework).
  • Using your knowledge and skills for the benefit of the community to create engineering solutions for a sustainable future, in accordance with the Engineers Australia Code of Ethics. In doing so, you will strive to serve the community ahead of other personal or sectarian interests.
  • Demonstrating integrity, scientific and technical competence, exude leadership qualities and promote sustainability, in the course of your engineering practice.
Behavioural Stability

Examples are:

  • Being reflective with personal behaviours in relation to professional performance and being positive and receptive to processing constructive supervisor/lecturer feedback or criticism.
  • Interacting with people from a wide range of backgrounds and cultures in a calm and composed manner in difficult to deal with situations.
  • Approaching difficult situations with diplomacy and refraining from using inappropriate words/actions either verbally or in written communication.
  • Accepting that engineering practice is a human-centric activity and that you must therefore, develop your ability to work well with others.
  • Having the desire to solve problems in order to improve the standard of living of the people in the community.
Legal Compliance

Examples are:

  • Understanding and complying with all relevant policies and procedures applicable in engineering practice.
  • Complying with rules and regulations that apply in your practice location.
  • Recognising and positively responding to any legal compliance issues that arise and bringing them to the attention of the appropriate stakeholders.
Communication Skills (Verbal, Non-verbal, Written and Technology)

Examples are:

  • Verbally communicating in the English language with accuracy, appropriateness and effectiveness.
  • Listening to other's point of view and actively participating in discussion activities related to the course.
  • Using language that is appropriate to the context of the individual, group or workplace.
  • Presenting in front of a range of stakeholders, including students, academics and industry
  • Establishing rapport with clients from differing socio-cultural environments in the delivery of engineering projects and responding appropriately to clients, supervisors and other professionals.
  • Using appropriate facial expressions: eye contact, being mindful of space, time boundaries, a range of body movements and gestures.
  • Recognising and interpreting non-verbal cues of others and responding appropriately during activities related to the course, as well as in the engineering practice environment.
  • Competently and appropriately constructing written assessment work in a logical, coherent manner, and with correct grammar and punctuation to the required academic standards.
  • Expressing complex and detailed information and knowledge into a logical and legible report, in a timely manner that meets professional standards and clearly communicates the intended message.
  • Accurately conveying and documenting information in a written form that meets legal and engineering requirements.
  • Accessing a computer for your studies, and possessing basic computer knowledge and skills to engage in the on-line learning environment that may include completing relevant on-line assessments and participating in on-line forums or responding to emails.
  • Regularly accessing the Internet for research, and email for communication with peers and lecturers.
  • Being adept and proficient in the use of discipline specific computer systems and be able to analyse, manipulate and display scientific information.
Cognitive Abilities (Knowledge and Cognitive Skills, Literacy and Numeracy)

Examples are:

  • Conceptualising and using appropriate knowledge in response to academic assessment items.
  • Applying theoretical knowledge, research evidence, policies and procedures in engineering practice.
  • Discerning the wide variety of socio-economic environments that engineering practice takes place in, and provide effective professional solutions to stakeholders.
  • Competently reading, writing and accurately interpreting information to convey language effectively in engineering projects and services.
  • Producing accurate, concise and clear engineering documentation which meets legal requirements.
  • Retrieving correct information from appropriates sources, processing it and converting it into simpler terms if required.
  • Demonstrating competency in applying appropriate mathematical knowledge and skills to make calculations that represent an engineering system.
  • Demonstrating effective use of numeracy skills to make accurate interpretations of engineering system response data.
  • Applying numeracy skills to interpret and solve problems in a range of engineering projects and services.
Sensory Abilities (Visual, Auditory, Tactile)

Examples are:

  • Accurately using instruments for measurements.
  • Observing and detecting subtle changes in responses to engineering systems using instrumentation.
  • Having sufficient auditory ability to be capable of hearing warnings when on site.
  • Interacting effectively with stakeholders including clients, members of the community, tradespeople and other members of the engineering team.
  • Climbing a ladder or steep stairs, walking along scaffolding and traversing a construction site.
Relational Skills

Examples are:

  • Patience - is valuable when it comes to dealing with picky or difficult clients, complex long-term projects or colleagues who are slow and hard to keep on task.
  • Trustworthiness - an invaluable asset to employers, who not only feel comfortable with the individual’s honesty and ethical values, but believe they will do what they say when they say they will do it.
  • Reliability - is an important relational skill in every profession, whether it relates to showing up for work on time, performing duties as assigned, or meeting crucial deadlines.
  • Empathy - being able to consistently look at and understand the perspective of others is a relational skill that’s highly valued in the customer service arena.
  • Influence - Having the ability to effectively persuade and influence others is a valuable relational workplace skill. An influential employee is typically intuitive and able to read people, which is an asset in many professional venues.
Reflective Skills

Examples are:

  • Read - around the topics you are learning about or want to learn about and develop
  • Ask - others about the way they do things and why
  • Watch - what is going on around you
  • Feel - pay attention to your emotions, what prompts them, and how you deal with negative ones
  • Talk - share your views and experiences with others
  • Think - learn to value time spent thinking about your work
Sustainable Performance

Examples are:

  • Actively participating in activities related to the course and professional experience.
  • Performing with the required physical and mental energy and endurance in performing engineering skills and services during set time frames.
  • Showing persistence when learning a new concept - seeing it as a challenge to be solved rather than an insurmountable obstacle.
Strength and Mobility (Gross Motor Skills and Fine Motor Skills)

Examples are:

  • Conducting repairs to engineering systems.
  • Transporting field equipment during the data collection phase of engineering projects.
  • Traversing uneven ground on construction sites.
  • Manipulating instruments in tests and measurements.
  • Using knobs and dials in equipment used for field data collection.
Interpersonal Engagement

Examples are:

  • Communicating respectfully with a multitude of community, government and industry stakeholders.
  • Creating and sustaining professional relationships.
  • Considering the views of different stakeholders in decision making.
  • Working with peers and contributing to team projects and assessments
Information and Communication Technology (ICT) Abilities
Examples are:
  • Competently using a desktop operating system such as Microsoft Windows or Mac OS X.
  • Competently using productivity software such as Microsoft Office.
  • Competently using the internet for a range of study and work integrated learning activities.
  • Using associated electronic devices such as (but not limited to) digital scanners, copiers, cameras and video cameras, a tablet computer or a mobile phone for study activities.
  • Completely using video communication software such as Zoom and Skype.
Core Learning Outcomes
Please refer to the Core Structure Learning Outcomes
Aircraft Maintenance - Avionics Learning Outcomes
  • 1. Demonstrate initiative and judgment in planning, problem-solving and decision-making in aircraft maintenance engineering professional practice
  • 2. Apply mathematical, science and engineering skills to engineering disciplines
  • 3. Competently and safely complete maintenance of various aircraft systems and subsystems including, flight control, navigation, autoflight, communication and avionic systems
  • 4. Analyse the operation of various aircraft systems and subsystems, including flight control, navigation, autoflight, communication and avionic systems
  • 5. Conduct all phases of engineering projects both autonomously and in teams
  • 6. Demonstrate the skills of risk management, ethical practice and professional communication at the level expected of an engineering technologist
  • 7. Apply 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
1. KNOWLEDGE Have a broad and coherent body of knowledge, with depth in the underlying principles and concepts in one or more disciplines as a basis for independent lifelong learning
2. SKILLS Have cognitive skills to review critically, analyse, consolidate and synthesise knowledge
3. SKILLS Have cognitive and technical skills to demonstrate a broad understanding of knowledge with depth in some areas
4. SKILLS Have cognitive and creative skills to exercise critical thinking and judgement in identifying and solving problems with intellectual independence
5. SKILLS Have communication skills to present a clear, coherent and independent exposition of knowledge and ideas
6. APPLICATION OF KNOWLEDGE & SKILLS Demonstrate initiative and judgement in planning, problem solving and decision making in professional practice and/or scholarship
7. APPLICATION OF KNOWLEDGE & SKILLS Adapt knowledge and skills in diverse contexts
8. APPLICATION OF KNOWLEDGE & SKILL Be responsible and accountable for own learning and professional practice and in collaboration with others within broad parameters
KNOWLEDGE Develop an understanding and appreciation of Aboriginal and Torres Strait Islander peoples and culture in contemporary and historical context using the respectful and appropriate protocols and terminology
APPLICATION OF KNOWLEDGE & SKILLS Engage in reflective self-evaluation of own cultural values and perspectives to proactively create an inclusive workplace that affirms and celebrates cultural diversity
APPLICATION OF KNOWLEDGE & SKILLS Display leadership by creating inclusive work environments and work with Aboriginal and Torres Strait Islander people in a culturally respectful manner
Aircraft Maintenance - Mechanical Learning Outcomes
  • 1. Demonstrate initiative and judgment in planning, problem-solving and decision making in aircraft maintenance engineering professional practice
  • 2. Apply mathematical, science and engineering skills to engineering disciplines
  • 3. Competently and safely complete maintenance of various aircraft systems and subsystems including airframe, engine, structure and electrical
  • 4. Analyse the operation of various aircraft systems and subsystems including airframe, engine, structure and electrical
  • 5. Conduct all phases of engineering projects both autonomously and in teams
  • 6. Demonstrate the skills of risk management, ethical practice and professional communication at the level expected of an engineering technologist.
  • 7. Apply 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
1. KNOWLEDGE Have a broad and coherent body of knowledge, with depth in the underlying principles and concepts in one or more disciplines as a basis for independent lifelong learning
2. SKILLS Have cognitive skills to review critically, analyse, consolidate and synthesise knowledge
3. SKILLS Have cognitive and technical skills to demonstrate a broad understanding of knowledge with depth in some areas
4. SKILLS Have cognitive and creative skills to exercise critical thinking and judgement in identifying and solving problems with intellectual independence
5. SKILLS Have communication skills to present a clear, coherent and independent exposition of knowledge and ideas
6. APPLICATION OF KNOWLEDGE & SKILLS Demonstrate initiative and judgement in planning, problem solving and decision making in professional practice and/or scholarship
7. APPLICATION OF KNOWLEDGE & SKILLS Adapt knowledge and skills in diverse contexts
8. APPLICATION OF KNOWLEDGE & SKILL Be responsible and accountable for own learning and professional practice and in collaboration with others within broad parameters
KNOWLEDGE Develop an understanding and appreciation of Aboriginal and Torres Strait Islander peoples and culture in contemporary and historical context using the respectful and appropriate protocols and terminology
APPLICATION OF KNOWLEDGE & SKILLS Engage in reflective self-evaluation of own cultural values and perspectives to proactively create an inclusive workplace that affirms and celebrates cultural diversity
APPLICATION OF KNOWLEDGE & SKILLS Display leadership by creating inclusive work environments and work with Aboriginal and Torres Strait Islander people in a culturally respectful manner
Civil Learning Outcomes
  • 1. Demonstrate initiative and judgment in planning, problem-solving and decision-making in civil engineering professional practice
  • 2. Apply mathematical, science and engineering skills to engineering disciplines
  • 3. Analyse and design geotechnical engineering elements using fundamental concepts including soil classification and properties
  • 4. Analyse and design civil infrastructure according to relevant Australian standards using industry best practices
  • 5. Conduct all phases of engineering projects both autonomously and in teams
  • 6. Demonstrate the skills of risk management, ethical practice and professional communication at the level expected of an engineering technologist
  • 7. Apply 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
1. KNOWLEDGE Have a broad and coherent body of knowledge, with depth in the underlying principles and concepts in one or more disciplines as a basis for independent lifelong learning
2. SKILLS Have cognitive skills to review critically, analyse, consolidate and synthesise knowledge
3. SKILLS Have cognitive and technical skills to demonstrate a broad understanding of knowledge with depth in some areas
4. SKILLS Have cognitive and creative skills to exercise critical thinking and judgement in identifying and solving problems with intellectual independence
5. SKILLS Have communication skills to present a clear, coherent and independent exposition of knowledge and ideas
6. APPLICATION OF KNOWLEDGE & SKILLS Demonstrate initiative and judgement in planning, problem solving and decision making in professional practice and/or scholarship
7. APPLICATION OF KNOWLEDGE & SKILLS Adapt knowledge and skills in diverse contexts
8. APPLICATION OF KNOWLEDGE & SKILL Be responsible and accountable for own learning and professional practice and in collaboration with others within broad parameters
KNOWLEDGE Develop an understanding and appreciation of Aboriginal and Torres Strait Islander peoples and culture in contemporary and historical context using the respectful and appropriate protocols and terminology
APPLICATION OF KNOWLEDGE & SKILLS Engage in reflective self-evaluation of own cultural values and perspectives to proactively create an inclusive workplace that affirms and celebrates cultural diversity
APPLICATION OF KNOWLEDGE & SKILLS Display leadership by creating inclusive work environments and work with Aboriginal and Torres Strait Islander people in a culturally respectful manner
Electrical Learning Outcomes
  • 1. Demonstrate initiative and judgment in planning, problem-solving and decision making in electrical engineering professional practice
  • 2. Apply mathematics, science and engineering skills to engineering disciplines
  • 3. Design, analyse and implement complex circuits to provide solutions to industrial applications
  • 4. Analyse, design, implement and test electrical systems using industry-standard software and hardware tools
  • 5. Conduct all phases of engineering projects both autonomously and in teams
  • 6. Demonstrate the skills of risk management, ethical practice and professional communication at the level expected of an engineering technologist
  • 7. Apply 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
1. KNOWLEDGE Have a broad and coherent body of knowledge, with depth in the underlying principles and concepts in one or more disciplines as a basis for independent lifelong learning
2. SKILLS Have cognitive skills to review critically, analyse, consolidate and synthesise knowledge
3. SKILLS Have cognitive and technical skills to demonstrate a broad understanding of knowledge with depth in some areas
4. SKILLS Have cognitive and creative skills to exercise critical thinking and judgement in identifying and solving problems with intellectual independence
5. SKILLS Have communication skills to present a clear, coherent and independent exposition of knowledge and ideas
6. APPLICATION OF KNOWLEDGE & SKILLS Demonstrate initiative and judgement in planning, problem solving and decision making in professional practice and/or scholarship
7. APPLICATION OF KNOWLEDGE & SKILLS Adapt knowledge and skills in diverse contexts
8. APPLICATION OF KNOWLEDGE & SKILL Be responsible and accountable for own learning and professional practice and in collaboration with others within broad parameters
KNOWLEDGE Develop an understanding and appreciation of Aboriginal and Torres Strait Islander peoples and culture in contemporary and historical context using the respectful and appropriate protocols and terminology
APPLICATION OF KNOWLEDGE & SKILLS Engage in reflective self-evaluation of own cultural values and perspectives to proactively create an inclusive workplace that affirms and celebrates cultural diversity
APPLICATION OF KNOWLEDGE & SKILLS Display leadership by creating inclusive work environments and work with Aboriginal and Torres Strait Islander people in a culturally respectful manner
Mechanical Learning Outcomes
  • 1. Demonstrate initiative and judgment in planning, problem-solving and decision making in mechanical engineering professional practice
  • 2. Apply mathematics, science and engineering skills to engineering disciplines
  • 3. Design and analyse machine components and systems by applying principles of materials, statics, stress analysis and machine design using relevant design standards and codes
  • 4. Analyse, design, implement and test mechanical systems (energy/dynamic) using industry-standard software and hardware tools
  • 5. Conduct all phases of engineering projects both autonomously and in teams
  • 6. Demonstrate the skills of risk management, ethical practice and professional communication at the level expected of an engineering technologist
  • 7. Apply 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
1. KNOWLEDGE Have a broad and coherent body of knowledge, with depth in the underlying principles and concepts in one or more disciplines as a basis for independent lifelong learning
2. SKILLS Have cognitive skills to review critically, analyse, consolidate and synthesise knowledge
3. SKILLS Have cognitive and technical skills to demonstrate a broad understanding of knowledge with depth in some areas
4. SKILLS Have cognitive and creative skills to exercise critical thinking and judgement in identifying and solving problems with intellectual independence
5. SKILLS Have communication skills to present a clear, coherent and independent exposition of knowledge and ideas
6. APPLICATION OF KNOWLEDGE & SKILLS Demonstrate initiative and judgement in planning, problem solving and decision making in professional practice and/or scholarship
7. APPLICATION OF KNOWLEDGE & SKILLS Adapt knowledge and skills in diverse contexts
8. APPLICATION OF KNOWLEDGE & SKILL Be responsible and accountable for own learning and professional practice and in collaboration with others within broad parameters
KNOWLEDGE Develop an understanding and appreciation of Aboriginal and Torres Strait Islander peoples and culture in contemporary and historical context using the respectful and appropriate protocols and terminology
APPLICATION OF KNOWLEDGE & SKILLS Engage in reflective self-evaluation of own cultural values and perspectives to proactively create an inclusive workplace that affirms and celebrates cultural diversity
APPLICATION OF KNOWLEDGE & SKILLS Display leadership by creating inclusive work environments and work with Aboriginal and Torres Strait Islander people in a culturally respectful manner
Resource Systems Learning Outcomes
  • 1. Demonstrate initiative and judgement in planning predictive analytics, problem-solving, and decision-making in resource system engineering
  • 2. Apply mathematical science, modeling and optimization skills to professional mining practices
  • 3. Assess the feasibility of the resource project within the framework of Australian legislation for the resource industry
  • 4. Create automation applications for mine site design for new and existing facilities in line with Australian Standards, guidelines, and industry best practices
  • 5. Conduct all phases of engineering projects both autonomously and in teams
  • 6. Demonstrate the skills of risk management, ethical practice and professional communication at the level expected of an engineering technologist.
  • 7. Apply resource systems 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
1. KNOWLEDGE Have a broad and coherent body of knowledge, with depth in the underlying principles and concepts in one or more disciplines as a basis for independent lifelong learning
2. SKILLS Have cognitive skills to review critically, analyse, consolidate and synthesise knowledge
3. SKILLS Have cognitive and technical skills to demonstrate a broad understanding of knowledge with depth in some areas
4. SKILLS Have cognitive and creative skills to exercise critical thinking and judgement in identifying and solving problems with intellectual independence
5. SKILLS Have communication skills to present a clear, coherent and independent exposition of knowledge and ideas
6. APPLICATION OF KNOWLEDGE & SKILLS Demonstrate initiative and judgement in planning, problem solving and decision making in professional practice and/or scholarship
7. APPLICATION OF KNOWLEDGE & SKILLS Adapt knowledge and skills in diverse contexts
8. APPLICATION OF KNOWLEDGE & SKILL Be responsible and accountable for own learning and professional practice and in collaboration with others within broad parameters
KNOWLEDGE Develop an understanding and appreciation of Aboriginal and Torres Strait Islander peoples and culture in contemporary and historical context using the respectful and appropriate protocols and terminology
APPLICATION OF KNOWLEDGE & SKILLS Engage in reflective self-evaluation of own cultural values and perspectives to proactively create an inclusive workplace that affirms and celebrates cultural diversity
APPLICATION OF KNOWLEDGE & SKILLS Display leadership by creating inclusive work environments and work with Aboriginal and Torres Strait Islander people in a culturally respectful manner
Course Requirements
Core Structure View Full Course Structure
Number of units: 0 Total credit points: 0

To complete this course, you must pass all units in one of the Major. The More Details tab has a link to the Course Planners Site, which lists all units for this course. Note that full-time students generally enrol in 24cp per term, and part-time students generally enrol in a half-load of 12cp per term.

 

 

Aircraft Maintenance - Avionics Major View Full Course Structure
Number of units: 21 Total credit points: 144

Initially, the introductory and intermediate units of this Major may not be scheduled and delivered by CQUniversity staff. It is expected that all the students (domestic and international) coming into this Major will come through the Diploma pathway and will be provided credit for relevant units. The School of Engineering and Technology has a third party teaching agreement with Aviation Australia to deliver these units at the Brisbane and Cairns campuses. 

Students must contact Course Management before commencing this major. The first 1.5 years involves studying a Diploma of Aircraft Maintenance at Aviation Australia.

Introductory units

Available units
Students must complete the following compulsory units:
ENTA11011 Analytical Methods and Physics for Aircraft Maintenance
ENTA11012 Electronic Fundamentals for Aircraft Maintenance
ENTA11013 Electrical Fundamentals for Aircraft Maintenance
ENTA11014 Avionics Aircraft Maintenance Practices
ENTA11015 Human Factors and Aviation Legislation
ENTA11016 Aircraft Instrumentation Systems
ENEG11005 Introduction to Contemporary Engineering
ENEG11007 Engineering Industry Project Investigation
MATH11218 Applied Mathematics

Intermediate units

Available units
Students must complete the following compulsory units:
ENTA12015 Aerodynamics, Flight Control and Navigation
ENTA12016 Automatic Flight Control and Communication Systems
ENTA12017 Aircraft Systems - Avionics

Advanced units

Available units
Students must complete the following compulsory units:
ENEM13012 Maintenance Engineering
ENEX12003 Essential Mathematics for Control Systems
ENTG13003 Advanced Materials in Aviation
ENTA13021 Aircraft Communication Systems
ENTA13022 Remote Piloted Aircraft Systems
ENTA13023 Advanced Aircraft Control Systems

Professional Engineering Practice

To be eligible for graduation, you must complete 360 hours of Professional Engineering Practice, including a minimum of 240 hours of industry experience. Mandatory work experience is set by the course accreditation body Engineers Australia. In one of your final terms of study, you must enrol into the following zero-credit unit, at no cost to you, and record your Professional Engineering Practice in an ePortfolio. The More Details tab contains a link to the Undergraduate Engineering Course Moodle Meta-site which contains further instructions on completing your Professional Engineering Practice.

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

Project Units

At the end of your course, you will complete an undergraduate thesis over two terms under the supervision of an academic adviser. Your thesis confirms your ability to work as an Engineering Technologist. You should organise an Academic Adviser and a suitable project topic before commencing the thesis planning unit. It is strongly recommended to decide your topic based on your career interests. 

Available units
Students must complete the following compulsory units:
ENTG13002 Engineering Technology Project Planning
ENTG13001 Engineering Technology Project Implementation
Aircraft Maintenance - Mechanical Major View Full Course Structure
Number of units: 23 Total credit points: 144

Initially, the introductory and intermediate units of this Major may not be scheduled and delivered by CQUniversity staff. It is expected that all the students (domestic and international) coming into this Major will come through the Diploma pathway and will be provided credit for relevant units. The School of Engineering and Technology has a third party teaching agreement with Aviation Australia to deliver these units at the Brisbane and Cairns campuses. 

Students must contact Course Management before commencing this major. The first 1.5 years involves studying a Diploma of Aircraft Maintenance at Aviation Australia.

Introductory Units

Available units
Students must complete the following compulsory units:
ENTA11011 Analytical Methods and Physics for Aircraft Maintenance
ENTA11013 Electrical Fundamentals for Aircraft Maintenance
ENTA11015 Human Factors and Aviation Legislation
ENTA11017 Electronic Fundamentals for Aircraft Structural Maintenance
ENTA11018 Aircraft Structural Maintenance Practices
ENTA11019 Aircraft Materials and Hardware
ENTA11020 Instrumentation Systems for Aircraft Structural Maintenance
ENEG11005 Introduction to Contemporary Engineering
ENEG11007 Engineering Industry Project Investigation
MATH11218 Applied Mathematics

Intermediate Units

Available units
Students must complete the following compulsory units:
ENTA12018 Gas Turbine Engines
ENTA12019 Propeller Maintenance
ENTA12020 Aerodynamics and Airframe Systems
ENTA12021 Aircraft Structures and Systems

Advanced Units

Available units
Students must complete the following compulsory units:
ENTA13026 Advanced Engineering Design
ENTG13003 Advanced Materials in Aviation
ENTA13022 Remote Piloted Aircraft Systems
ENEM13012 Maintenance Engineering
ENTA13024 Thermofluid Engineering for Aviation
ENTA13025 Sustainable Energy for Aviation

Professional Engineering Practice

To be eligible for graduation, you must complete 360 hours of Professional Engineering Practice, including a minimum of 240 hours of industry experience. Mandatory work experience is set by the course accreditation body Engineers Australia. In one of your final terms of study, you must enrol into the following zero-credit unit, at no cost to you, and record your Professional Engineering Practice in an ePortfolio. The More Details tab contains a link to the Undergraduate Engineering Course Moodle Meta-site which contains further instructions on completing your Professional Engineering Practice.

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

Project Units

At the end of your course, you will complete an undergraduate thesis over two terms under the supervision of an academic adviser. Your thesis confirms your ability to work as an Engineering Technologist. You should organise an Academic Adviser and a suitable project topic before commencing the thesis planning unit. It is strongly recommended to decide your topic based on your career interests. 

Available units
Students must complete the following compulsory units:
ENTG13002 Engineering Technology Project Planning
ENTG13001 Engineering Technology Project Implementation
Civil Major View Full Course Structure
Number of units: 23 Total credit points: 144

The total number of units is 20 for the Structural plug-in and 19 for the Municipal Transportation plug-in, excluding electives. The number of elective units depends on whether you select 12-credit or 6-credit options. In total, you must complete 24 elective credits.

Introductory units

Available units
Students must complete the following compulsory units:
ENEG11005 Introduction to Contemporary Engineering
ENEG11006 Engineering Statics
ENEG11007 Engineering Industry Project Investigation
ENEG11008 Materials for Engineers
MATH11247 Foundation Mathematics
MATH11218 Applied Mathematics
MATH11219 Applied Calculus

Intermediate Units

Available units
Students must complete the following compulsory units:
ENEC12008 Geotechnical Engineering
ENEC12009 Engineering Surveying and Spatial Sciences
ENEC12010 Hydraulics and Hydrology
ENEC12011 Transport Systems
ENEC12012 Stress Analysis
ENEG12007 Creative Engineering
ENEG13002 Engineering Futures

Advanced units [Plug-ins]

You must study 1 plug-in. You can choose from Municipal Transportation or Structural. Each plug-in is 30cp.

Municipal Transportation Plug-in

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
ENEC14016 Traffic and Transportation Engineering
ENEC14017 Water Resources Engineering

Structural Plug-in

ENEC14014 is a double credit-point (12cp) unit intended to provide an authentic project experience.

Available units
Students must complete the following compulsory units:
ENEC13015 Steel and Timber Design
ENEC13016 Concrete Technology and Design
ENEC13017 Advanced Structural Analysis
ENEC14014 Structural and Geotechnical Design

Elective Units 

Students must complete 12 credit points from the following list.

Trade Practice 1 (12 credits): Students who already have completed trade certificate from the approved list may be eligible for Recognition of Prior Learning for Trade Practice 1.

OR 

  • ENEG11009 Fundamentals of Sustainable Energy (6 credits) and,
  • Discipline-Approved Elective (6 credits)

Available units
Students must complete the following compulsory units:
ENEG11009 Fundamentals of Sustainable Energy
ENAG11010 Trade Practice 1

Professional Engineering Practice

To be eligible for graduation, you must complete 360 hours of Professional Engineering Practice, including a minimum of 240 hours of industry experience. Mandatory work experience is set by the course accreditation body Engineers Australia. In one of your final terms of study, you must enrol into the following zero-credit unit, at no cost to you, and record your Professional Engineering Practice in an ePortfolio. The More Details tab contains a link to the Undergraduate Engineering Course Moodle Meta-site which contains further instructions on completing your Professional Engineering Practice.

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

Project Units

At the end of your course, you will complete an undergraduate thesis over two terms under the supervision of an academic adviser. Your thesis confirms your ability to work as an Engineering Technologist. You should organise an Academic Adviser and a suitable project topic before commencing the thesis planning unit. It is strongly recommended to decide your topic based on your career interests. 

Available units
Students must complete the following compulsory units:
ENTG13002 Engineering Technology Project Planning
ENTG13001 Engineering Technology Project Implementation
Electrical Major View Full Course Structure
Number of units: 23 Total credit points: 144

The total number of units is 19, excluding electives. The number of elective units depends on whether you select 12-credit or 6-credit options. In total, you must complete 24 elective credits.

Introductory units

Available units
Students must complete the following compulsory units:
ENEG11009 Fundamentals of Sustainable Energy
MATH11247 Foundation Mathematics
MATH11219 Applied Calculus
ENEG11005 Introduction to Contemporary Engineering
ENEG11007 Engineering Industry Project Investigation
MATH11218 Applied Mathematics

Intermediate Units

Available units
Students must complete the following compulsory units:
ENEE12014 Electrical Circuit Analysis
ENEE12015 Electrical Power Engineering
ENEE12016 Signals and Systems
ENEX12002 Introductory Electronics
MATH12225 Applied Computational Modelling
ENEX13002 Power Electronics
ENEG12007 Creative Engineering
ENEG13002 Engineering Futures

Plug-ins

You must study 1 plug-in. You can choose from Electrical Control or Electrical Power. Each plug-in is 30cp.

Electrical Control Plug-in

ENEE14006 is a double credit-point (12cp) unit intended to provide an authentic project experience.

Available units
Students must complete the following compulsory units:
ENEE13019 Control Systems Analysis and Design
ENEE13022 Communication Technology
ENEX13001 Industrial Control and Automation
ENEE14006 Embedded Microcontrollers

Electrical Power Plug-in

ENEE14007 is a double credit-point (12cp) unit intended to provide an authentic project experience.

Available units
Students must complete the following compulsory units:
ENEE13016 Power System Protection
ENEE13021 Power System Analysis and Design
ENEE13022 Communication Technology
ENEE14007 Electrical Machines and Drives Applications

Elective Units 

Students must complete 12 credit points from the following list.

Trade Practice 1 (12 credits): Students who already have completed trade certificate from the approved list may be eligible for Recognition of Prior Learning for the Trade Practice 1 unit.

OR 

ENEG11006 Engineering Statics (6 credits) and,
ENEG11008 Materials for Engineers (6 credits)

Available units
Students must complete the following compulsory units:
ENEG11006 Engineering Statics
ENEG11008 Materials for Engineers
ENAG11010 Trade Practice 1

Professional Engineering Practice

To be eligible for graduation, you must complete 360 hours of Professional Engineering Practice, including a minimum of 240 hours of industry experience. Mandatory work experience is set by the course accreditation body Engineers Australia. In one of your final terms of study, you must enrol into the following zero-credit unit, at no cost to you, and record your Professional Engineering Practice in an ePortfolio. The More Details tab contains a link to the Undergraduate Engineering Course Moodle Meta-site which contains further instructions on completing your Professional Engineering Practice.

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

Project Units

At the end of your course, you will complete an undergraduate thesis over two terms under the supervision of an academic adviser. Your thesis confirms your ability to work as an Engineering Technologist. You should organise an Academic Adviser and a suitable project topic before commencing the thesis planning unit. It is strongly recommended to decide your topic based on your career interests. 

Available units
Students must complete the following compulsory units:
ENTG13002 Engineering Technology Project Planning
ENTG13001 Engineering Technology Project Implementation
Mechanical Major View Full Course Structure
Number of units: 23 Total credit points: 144

The total number of units is 19, excluding electives. The number of elective units depends on whether you select 12-credit or 6-credit options. In total, you must complete 24 elective credits.

Introductory units

Available units
Students must complete the following compulsory units:
MATH11247 Foundation Mathematics
MATH11219 Applied Calculus
ENEG11008 Materials for Engineers
ENEG11006 Engineering Statics
ENEG11005 Introduction to Contemporary Engineering
ENEG11007 Engineering Industry Project Investigation
MATH11218 Applied Mathematics

Intermediate Units

Available units
Students must complete the following compulsory units:
ENEM12006 Fluid Mechanics
ENEM12008 Bulk Materials Handling
ENEM12009 Structural Mechanics
ENEM12010 Engineering Dynamics
MATH12225 Applied Computational Modelling
ENEM13018 Materials and Manufacturing
ENEG12007 Creative Engineering
ENEG13002 Engineering Futures

Plug-ins

You must study 1 plug-in. You can choose from Mechanical Design or Mechanical Energy. Each plug-in is 24 cp.

Mechanical Design Pug-in

ENEM14015 is a double credit-point (12cp) unit intended to provide an authentic project experience.

Available units
Students must complete the following compulsory units:
ENEX13003 Mechanical Design Practice
ENEM13015 Design of Machine Elements
ENEM14015 Dynamic System Modelling and Control

Mechanical Energy Plug-in

ENEM14014 is a double credit-point (12cp) unit intended to provide an authentic project experience.

Available units
Students must complete the following compulsory units:
ENEM13014 Thermodynamics
ENEM14011 Energy Conversion
ENEM14014 Capstone Thermofluid Engineering

Elective Units 

Students must complete 12 credit points from the following list.

Trade Practice 1 (12 credits): Students who already have completed trade certificate from the approved list may be eligible for Recognition of Prior Learning for the Trade Practice 1 unit.

OR 

  • ENEG11009 Fundamentals of Sustainable Energy (6 credits) and,
  • Discipline Approved Elective (6 credits)

Available units
Students must complete the following compulsory units:
ENEG11009 Fundamentals of Sustainable Energy
ENAG11010 Trade Practice 1

Professional Engineering Practice

To be eligible for graduation, you must complete 360 hours of Professional Engineering Practice, including a minimum of 240 hours of industry experience. Mandatory work experience is set by the course accreditation body Engineers Australia. In one of your final terms of study, you must enrol into the following zero-credit unit, at no cost to you, and record your Professional Engineering Practice in an ePortfolio. The More Details tab contains a link to the Undergraduate Engineering Course Moodle Meta-site which contains further instructions on completing your Professional Engineering Practice.

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

Project Units

At the end of your course, you will complete an undergraduate thesis over two terms under the supervision of an academic adviser. Your thesis confirms your ability to work as an Engineering Technologist. You should organise an Academic Adviser and a suitable project topic before commencing the thesis planning unit. It is strongly recommended to decide your topic based on your career interests. 

Available units
Students must complete the following compulsory units:
ENTG13002 Engineering Technology Project Planning
ENTG13001 Engineering Technology Project Implementation
Resource Systems Major View Full Course Structure
Number of units: 22 Total credit points: 144

The total number of units is 20, excluding electives. You can select one 12-credit elective or two six-credit electives depending on your interest and eligibility. 

Introductory units

Available units
Students must complete the following compulsory units:
MATH11247 Foundation Mathematics
MATH11219 Applied Calculus
ENEG11009 Fundamentals of Sustainable Energy
ENEG11005 Introduction to Contemporary Engineering
ENEG11007 Engineering Industry Project Investigation
MATH11218 Applied Mathematics
ENEG11006 Engineering Statics

Intermediate Units

Available units
Students must complete the following compulsory units:
ENAR12004 Mine Management and Safety
ENAR12006 Rock Engineering
ENAR12013 Mine Planning and Design
ENAR12014 Introduction to Mining Technology
ENAR13001 Economic Geology
ENEC12009 Engineering Surveying and Spatial Sciences

Plug-ins

You must study 1 plug-in. You can choose from Automation or Data Science. Each plug-in is 36cp.

Automation Plug-in

ENER14001 Resource Systems Automation Project is a double credit-point (12cp) unit intended to provide an authentic project experience.

Available units
Students must complete the following compulsory units:
MATH12225 Applied Computational Modelling
ENEE12014 Electrical Circuit Analysis
ENEX12002 Introductory Electronics
ENEX13001 Industrial Control and Automation
ENER14001 Resource Systems Automation Project

Data Science Plug-in

ENER14002 Resource Systems Feasibility Project is a double credit-point (12cp) unit intended to provide an authentic project experience.

Available units
Students must complete the following compulsory units:
COIT11222 Programming Fundamentals
COIT11226 Systems Analysis
COIT11237 Database Design & Implementation
COIT12209 Data Science
ENER14002 Resource Systems Feasibility Project

Elective Units 

Students must complete 12 credit points from the following list.

Trade Practice 1 (12 credits): Students who already have completed trade certificate from the approved list may be eligible for Recognition of Prior Learning for the Trade Practice 1 unit.

OR 

 Discipline-Approved Elective (6 credits) and,
 ENEG11008 Materials for Engineers

Available units
Students must complete the following compulsory units:
ENEG11006 Engineering Statics
ENEG11008 Materials for Engineers
ENAG11010 Trade Practice 1

Professional Engineering Practice

To be eligible for graduation, you must complete 360 hours of Professional Engineering Practice, including a minimum of 240 hours of industry experience. Mandatory work experience is set by the course accreditation body Engineers Australia. In one of your final terms of study, you must enrol into the following zero-credit unit, at no cost to you, and record your Professional Engineering Practice in an ePortfolio. The More Details tab contains a link to the Undergraduate Engineering Course Moodle Meta-site which contains further instructions on completing your Professional Engineering Practice.

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

Project Units

At the end of your course, you will complete an undergraduate thesis over two terms under the supervision of an academic adviser. Your thesis confirms your ability to work as an Engineering Technologist. You should organise an Academic Adviser and a suitable project topic before commencing the thesis planning unit. It is strongly recommended to decide your topic based on your career interests. 

Available units
Students must complete the following compulsory units:
ENTG13002 Engineering Technology Project Planning
ENTG13001 Engineering Technology Project Implementation
More Details

Engineering Undergraduate Course Moodle

All students should regularly check the Engineering Undergraduate Course Moodle for the latest information, including key staff contacts, intensive class schedules, student mobility and exchange opportunities, cadetships and scholarships, social events and student societies, and final-year project advice.

Course Planners

Course planners are online for each major, full-time or part-time study option, and commencing term. Students are also encouraged to create a personalised planner if obtaining credit, advance standing or studying at an alternate pace. The Engineering Undergraduate Course Moodle includes instructions for obtaining your personalised course planner.

Mobility and Exchange

This course supports overseas study through a short-term mobility practicum as part of the elective ENEG13001 Humanitarian Engineering Project or a semester exchange experience at an approved overseas institution. The Engineering Undergraduate Course Moodle includes current mobility and exchange programs, application instructions and staff contacts for inquiries.

Cadetships

Flexible and online course delivery options provide support for working students. The CQUniversity Engineering Cadetship model allows students to enter the engineering workforce from their first year of study. Cadets can extend their learning by directly applying new knowledge to workplace scenarios and learning from working with engineers and associates. All cadets are paid, and many are also offered full sponsorship of course tuition fees. Cadetship opportunities are posted on the CQUniversity Engineering Cadetships Website.

Course Articulation

The undergraduate engineering courses include a common foundation year, allowing students to articulate between courses with minimal or no additional study should their circumstances or career aspirations change. Students may also change their major during their first year of study. The Engineering Undergraduate Course Moodle contains instructions and staff contacts for inquiries.

High School Course Pathways

Students can consider taking any of the several pathways designed to ease their transition into the course. Pathways for high school graduates commence in Year 11 and include reduced mathematics units to study by completing Mathematical Methods, early study of engineering units while at high school through CQUniversity’s Start Uni Now (SUN) program, and credit for other units by completing Engineering General and/or Design General with extra-curricular activities if supported at high school. Prospective students can request further information on engineering course pathways by emailing our college professional team SETAdmin@cqu.edu.au).

Mature-age Course Pathways

Mature-age students who do not meet the course entry requirements should contact our college professional team (SETAdmin@cqu.edu.au) to explore alternate pathways before committing to CQUniversity’s Skills for Tertiary Education Preparation Studies (STEPS) program.

Distinction

The distinction level is determined by the grade point average (GPA) of the first attempts of all second- and third-level units with numerical codes 12### or 13###. To be eligible for distinction, students must study at least 72 credit units at CQUniversity and achieve an overall GPA of at least 5.00.

Engineering Professional Practice

This course includes mandatory professional practice, as explained in the handbook.

Additional entry requirements

Students must have a Diploma of Aircraft Maintenance to study either of the two Aircraft Maintenance Majors. This Diploma will award 1.5 years of advanced standing, enabling course completion in 1.5 years of full-time study.