BH070 - Bachelor of Engineering (Mechanical Engineering) (Honours)

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Plan: BH070P23 - Bachelor of Engineering (Mechanical Engineering) (Honours)
Campus: City Campus

Program delivery and structure

Approach to learning and assessment
Work integrated learning
Program structure
Program transition plan

Approach to learning and assessment

The teaching approach in this program is designed to foster your development as an independent learner so you will be able to extend your capabilities once you graduate. The teaching method includes lectorial, seminar, tutorial, workshop, practical and laboratory sessions, site visits and provision of online materials.

You will be expected to complete all prescribed out-of-class learning activities in preparation of scheduled face-to-face and online classes, and encouraged to extend your learning through additional recommended readings and online activities. Of particular importance is the time spent in practice, laboratory based and work integrated learning activities that will develop your employability skills and capabilities.

Several courses in the program are delivered online, rather than on-campus, and you are likely to find that other courses transition to online delivery as you progress through the program. All courses use Canvas for electronic provision of course material, tutorial problems and/or other relevant documents.  

Assessment is designed to give you the opportunity to demonstrate your technical, design, research, and communication capabilities. The assessment you receive will enable your lecturer to provide you with feedback. This will enable you to improve your performance in the future. Various forms of assessment will be used throughout the program since the assessment you undertake will be appropriate to the objectives and student learning outcomes for each course. Assessment may include class tests, quizzes, essays/reports, oral class presentations, group projects, research projects, laboratory projects, practical assignments, reflective journals and timed assessments. 

Inherent requirements
The following information on inherent requirements outlines the tasks you will be required to undertake during professional placement and on-campus learning activities. The non-academic abilities listed are provided for information only and are not entry requirements.

If there are any activities outlined which may be difficult for you to undertake, there are a range of adjustments to your study conditions available to enable and support you to demonstrate these abilities. Please contact the Equitable Learning Service to discuss any adjustments you may require.

Please read the full list of the Bachelor of Engineering (Mechanical Engineering) (Honours) inherent requirements.

By understanding the types of activities you’ll participate in, you can:

  • understand more about the program
  • determine if you may need support during your studies
  • make an informed decision about whether the program is suitable for you

Please note that if you have a disability, long-term medical condition and/ or mental health condition ELS can support you to create reasonable adjustments to ensure you can participate in your studies. You can contact the Equitable Learning Services (ELS) unit if you would like to find out more. Information about ELS can be found at: www.rmit.edu.au/students/support-services/equitable-learning

The University considers the wellbeing and safety of all students, staff and the community to be a priority in on-campus learning and professional experience settings. 

Credit Transfer and Recognition of Prior Learning
If you have already developed areas of skill and knowledge included in this program (for example, through prior studies or work experience), you can apply for credit once you have enrolled in this program. There is information on the RMIT University website about how to apply for Credit: https://www.rmit.edu.au/students/student-essentials/enrolment/apply-for-credit.

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Work integrated learning

RMIT University is committed to providing you with an education that strongly links formal learning with professional or vocational practice. As a student enrolled in this program you will:

  • Undertake and be assessed on structured activities that allow you to learn, apply and demonstrate your professional or vocational practice
  • Interact with industry and community when undertaking these activities
  • Complete these activities in real work contexts or situations.

Any or all of these aspects of a WIL experience may be in a simulated workplace environment. 

In this program you will be doing specific courses that focus on work integrated learning (WIL). You will be assessed on professional or vocational work in a workplace setting (real or simulated) and receive feedback from those involved in your industry. 

The work integrated learning (WIL) designated courses for this program are:

  • OENG1166 Introduction to Professional Engineering Practice where you will participate in an "Engineers Without Borders (EWB)" project which is focussed on sustainable development as identified by EWB and community organisations.
  • OENG1168 Engineering Capstone Project Part B where you will work under the guidance of a professional engineer who may be from industry or be an academic or research staff member. You will apply your technical knowledge, research, design and professional engineering skills to either discipline specific, or cross disciplinary engineering problems, through robust research and established engineering design processes.

Engineering Professional Practice Module

If you are a student commencing a higher education engineering coursework degree from Semester 1 2024, completing the Engineering Professional Practice (EPP) module will be a requirement for graduation. This applies to all students in all locations. Students commencing before Semester 1 2024 may opt into the module. The EPP module will help you to prepare for a career as a fully accredited professional engineer. Completing the module will showcase your sound proficiencies in engineering knowledge, applications of engineering processes, professional skills and values that align with the competencies expected from a professional engineer in the workplace. This will be through a whole-of-program embedded e-portfolio that captures artefacts and reflection on learning for the purpose of professional accreditation, career development learning and employability.

The EPP module is ongoing throughout your degree, providing continuous development and requires you to complete a minimum number of hours of engineering-related activities. 420 hours are required for bachelor students. Articulating and masters students will complete a number of hours in proportion to the number of years of study in their offer letter. The total hours can comprise a combination of work, volunteering, roles in clubs, organisations and events, and professional development activities.

RMIT will support you in completing your EPP module by providing opportunities to participate in engineering-related activities. You will receive an annual summary statement documenting your achievements and verifying your continual professional development throughout your degree. The summary statement can be used as supporting material for job applications.

For further details on EPP, please contact RMIT Student Connect.

In these WIL courses, you will interact with organisations (industry, government and community) through discipline relevant projects and activities. These interactions and the work context provide a distinctive source of feedback to you to assist your learning.

In addition to these courses, it is strongly recommended that you undertake at least 10 weeks of engineering work experience supervised by a professional engineer. This can be done by enrolling in the optional course OENG1165 Professional Engineering Experience. This course can be taken as a technical option or University elective course in the program. 

Enrolling in OENG1165 means that you will be responsible for sourcing your engineering placement position, a task that aids development of critical career skills in identifying suitable roles and performing well in the recruitment process. The course is normally undertaken in the summer vacation period between years 3 and 4 of the program, but it can be taken at other times to align with your placement.

If you are already employed in a position that involves engineering work under the supervision of a qualified practising engineer, this can be assessed to determine if it would be an appropriate placement to support enrolment in OENG1165.

Further, in addition to these core courses you may also undertake an industry placement for six or twelve months either locally as advertised by local businesses, or internationally through the RMIT International Industry Experience and Research Program (RIIERP). 

Some courses in the program include guest lecturers from industry, government or the community and activities relating to industry as part of the learning experience.

Please note: students may be required to undertake additional screening/compliance checks as advised by Government, Industry or RMIT University as the need arises. If applicable, further information will be provided once enrolment has been completed. 

International Students will need to check their Visa requirements and any work regulations/limitations before they can commence any WIL Activity.  Further information can be found under the Visa Requirements for International Students section. 

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Program Structure

For students who commence their study in this program from 1 January 2016 onwards, please note that some courses listed in this structure will have their course marks count toward your program's weighted average mark. Your weighted average mark will determine the honours level of your award once you have completed the program. If a course counts toward your weighted average mark, that fact will be stated in its course guide. In Enrolment Online, after you completed your course enrolment, you will be notified which of the enrolled courses will count toward the weighted average mark.
 

For more information about the weighted average mark, please click here.

To graduate you must complete the following.
All courses listed may not be available each semester.

- Twenty-Four (24) core courses  
- One (1) University Elective
- Three (3) courses from the program option list or Two (2) courses from the program option list  and One (1) University Elective
- Four (4) courses (48cp) from one of the following combinations: 

Combination 1: Four (4) courses from one of the Program Minor lists or; 

Combination 2: Four (4) courses from any of the Program Minor lists .

The Engineering Minor Studies Courses Lists can be found at the end of the Program Structure. The Courses in each Minor/Major need to be completed in the sequence listed.

University Electives can include any Minor course, Program Option course, or any other course on the University Electives website. 

 

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Year One of Program

Complete the following Seven (7) Courses:

Course Title

Credit Points

Course Code

Campus

Introduction to Professional Engineering Practice 12 OENG1166 City Campus
Digital Fundamentals 12 OENG1206 City Campus
Engineering Science 12 OENG1208 City Campus
Engineering Mathematics 12 MATH2393 City Campus
Introduction to Engineering Design 12 OENG1250 City Campus
Introduction to Mechanical Engineering 12 MIET2528 City Campus
Applied Thermodynamics 12 MIET2421 City Campus
AND
Complete One (1) Course from the list below. If you have not completed VCE Maths methods or VCE Specialist Maths or equivalent, you must choose Introduction to Engineering Mathematics from this list.

Course Title

Credit Points

Course Code

Campus

Introduction to Engineering Mathematics 12 MATH2395 City Campus
Introduction to Environmental and Sustainable Systems Engineering 12 CIVE1186 City Campus
 
AND

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Year Two of Program

Complete the following Five (5) Courses:

Course Title

Credit Points

Course Code

Campus

Engineering Dynamics 12 MIET2134 City Campus
Advanced Mathematics for Engineers 12 MATH2414 City Campus
Fluid Mechanics of Mechanical Systems 12 MIET2422 City Campus
Mechanical Design 1 12 MIET2136 City Campus
Mechanics and Materials 2 12 MIET2115 City Campus
AND
Complete One (1) Course not already completed from the list below. However, if you completed Introduction to Engineering Mathematics in Year 1, you must complete Two (2) Courses from the list below.

Course Title

Credit Points

Course Code

Campus

Introduction to Environmental and Sustainable Systems Engineering 12 CIVE1186 City Campus
Systems Engineering Principles 12 MIET2385 City Campus
AND
Complete One (1) Course from the Technical options list below. However, if you completed Introduction to Engineering Mathematics in Year 1, you are not required to select a course from the list below.

Course Title

Credit Points

Course Code

Campus

Mechatronics Principles 12 MIET2370 City Campus
Applied Heat and Mass Transfer 12 MIET2039 Bundoora Campus
Engineering Computer Graphics 12 MIET1088 Bundoora Campus
Computational Fluid Dynamics 12 MIET2394 Bundoora Campus
Professional Engineering Experience 12 OENG1165 City Campus
Renewable Energy Systems 12 MIET2032 Bundoora Campus
MIET2062 City Campus
AND
Complete One (1) Course from:
University Elective
 
AND

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Year Three of Program

Complete the following Two (2) Courses:

Course Title

Credit Points

Course Code

Campus

Solid Mechanics 3 12 MIET1071 Bundoora Campus
Mechanical Design 2 12 MIET1068 Bundoora Campus
AND
Select and Complete One (1) of the following courses:

Course Title

Credit Points

Course Code

Campus

Mechanical Vibrations 12 MIET1076 Bundoora Campus
Heat Transfer 12 MIET1081 Bundoora Campus
AND
Select and Complete One (1) of the following courses:

Course Title

Credit Points

Course Code

Campus

Finite Element Analysis 12 MIET1084 Bundoora Campus
Mechanics of Machines 12 MIET1077 Bundoora Campus
AND
{
Select and Complete Forty-eight (48) Credit Points from your selected Minor combination
OR
Select and Complete Twenty-four (24) Credit Points from your selected Minor combination and Twenty-four (24) Credit Points from the Technical option list below.

Course Title

Credit Points

Course Code

Campus

Mechatronics Principles 12 MIET2370 City Campus
Applied Heat and Mass Transfer 12 MIET2039 Bundoora Campus
Engineering Computer Graphics 12 MIET1088 Bundoora Campus
Computational Fluid Dynamics 12 MIET2394 Bundoora Campus
Professional Engineering Experience 12 OENG1165 City Campus
}
 
AND

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Year Four of Program

Complete the following Four (4) Courses:

Course Title

Credit Points

Course Code

Campus

Thermal-Fluid System Design 12 MIET2515 City Campus
MIET2518 Bundoora Campus
Engineering Capstone Project Part A 12 OENG1167 City Campus
OENG1180 Bundoora Campus
OENG1224 Melbourne transfer to Vietnam
Automatic Control 12 MIET2006 Bundoora Campus
Engineering Capstone Project Part B 12 OENG1168 City Campus
OENG1179 Bundoora Campus
OENG1231 Melbourne transfer to Vietnam
AND
Select and Complete One (1) of the following courses not already completed:

Course Title

Credit Points

Course Code

Campus

Mechanical Vibrations 12 MIET1076 Bundoora Campus
Heat Transfer 12 MIET1081 Bundoora Campus
AND
Select and Complete One (1) of the following courses not already completed:

Course Title

Credit Points

Course Code

Campus

Finite Element Analysis 12 MIET1084 Bundoora Campus
Mechanics of Machines 12 MIET1077 Bundoora Campus
AND
{
Select and Complete Twenty-four (24) Credit Points from your selected Minor combination or Twenty-four (24) Credit Points from the Technical option list below
OR
Select and Complete One (1) course from the Technical option list below and One (1) University elective.

Course Title

Credit Points

Course Code

Campus

Mechatronics Principles 12 MIET2370 City Campus
Applied Heat and Mass Transfer 12 MIET2039 Bundoora Campus
Engineering Computer Graphics 12 MIET1088 Bundoora Campus
Computational Fluid Dynamics 12 MIET2394 Bundoora Campus
Professional Engineering Experience 12 OENG1165 City Campus
Renewable Energy Systems 12 MIET2032 Bundoora Campus
MIET2062 City Campus
}
 
AND

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Minor: Automotive Engineering

Select and Complete Four (4) Courses from the following:

Course Title

Credit Points

Course Code

Campus

Vehicle Noise and Vibration 12 MIET1192 Bundoora Campus
Vehicle Dynamics and Design 12 AUTO1933 Bundoora Campus
Vehicle Power Systems 12 AUTO1006 Bundoora Campus
Autonomous Vehicles 12 AUTO1932 Bundoora Campus
Formula SAE Project 2 12 AUTO1931 City Campus
AUTO1940 Bundoora Campus
 
AND

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Minor: Intelligent Manufacturing Technologies

Select and Complete Four (4) Courses from the following:

Course Title

Credit Points

Course Code

Campus

Industry 4.0 12 MANU2544 City Campus
MANU2546 Bundoora Campus
Automated System Design 12 MANU2230 Bundoora Campus
MANU2548 City Campus
Advanced Manufacturing and Design 12 MANU2455 City Campus
MANU2549 Bundoora Campus
Manufacturing Systems Modelling 12 MANU1420 Bundoora Campus
MANU2550 City Campus
Computer Integrated Manufacturing 12 MANU1418 Bundoora Campus
MANU2551 City Campus
 
AND

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Minor: Engineering Enterprise & Project Management

Complete the following Four (4) Courses:

Course Title

Credit Points

Course Code

Campus

Building Quality Organisations and Leadership 12 MANU2545 City Campus
MANU2547 Bundoora Campus
Risk and Project Management 12 OENG1244 City Campus
OENG1259 Bundoora Campus
Innovation and Technology Management 12 OENG1245 City Campus
OENG1260 Bundoora Campus
Engineering and Entrepreneurship 12 OENG1246 City Campus
 
AND

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Minor: Humanitarian Innovation

Complete the following Four (4) Courses:

Course Title

Credit Points

Course Code

Campus

Humanitarian Experiential Learning Project 12 OENG1164 City Campus
Fundamentals of Humanitarian Innovation 12 OENG1252 City Campus
International Development, Themes, Debates and Practice 12 HUSO2036 City Campus
Engineering for Disaster Management, Community Resilience and Climate Action 12 OENG1251 City Campus
 

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Program transition plan

Transition Plan 2025

The following table shows courses that will be replaced from Semester 1 2025 for program transition purposes only and not necessarily course equivalencies. If you have successfully completed any of the courses before the commencement of Semester 1 2025 they will continue to count as a course in your program and contribute towards the successful completion of your program.

Year Removed course Replecement course
1 Future Technologies Skills Course #1 CIVE1186 Intro to Environmental and Sustainable Systems
2 Future Technologies Skills Course #2 MIET2385 Systems Engineering Principles
3 Future Technologies Skills Course #3 University elective or technical option
4 Future Technologies Skills Course #4 University elective or technical option
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