University of Technology Sydney

C09072v5 Bachelor of Engineering (Honours) Bachelor of Science

Award(s): Bachelor of Engineering (Honours) in (name of Engineering major) (BE(Hons))
Bachelor of Science in (name of Science major) (BSc)

UAC code: 609360 (Autumn session, Spring session, Spring session)
CRICOS code: 084093F
Commonwealth supported place?: Yes
Load credit points: 246
Course EFTSL: 5.125
Location: City campus

Overview
Course aims
Career options
Innovation and Transdisciplinary program
Course intended learning outcomes
Admission requirements
Inherent (essential) requirements
Assumed knowledge
Recognition of prior learning
Course duration and attendance
Course structure
Course completion requirements
Course program
Rules and regulations
Levels of award
Honours
Transfer between UTS courses
Professional recognition
Other information

Overview

This combined degree is designed to provide opportunities for students interested in science, the scientific basis of engineering and technology, and the technology itself. Graduates of this course work as cutting-edge professionals where science and engineering interact dynamically.

There is a strong interrelation between the progress of engineering and developments in science, and a demonstrated need for professionals with a strong understanding and experience in both areas.

Students have the option of undertaking honours in science, or an additional two internships to gain the Diploma in Professional Engineering Practice, or both.

This combined degree can be completed in less time than would be required to complete the two degrees separately.

Course aims

This course aims to produce graduates with professional qualifications in science and engineering who are well prepared to pursue a career in either field, or one that combines the skills of both. Students develop valuable skills highly prized by employers, including the technological expertise to understand scientific problems and the design skills to implement solutions.

Career options

Career options depend on the majors and subjects chosen. Options include research, design and development, and scientific management. Graduates work in industry or government, in areas such as biotechnology, communications, energy and resource exploration, environmental protection, medical technology, molecular biology and materials technology, nanotechnology and transportation.

Innovation and Transdisciplinary program

Transdisciplinarity and Innovation at UTS

All UTS students have the opportunity to develop distinctive capabilities around transdisciplinary thinking and innovation through the TD School. Transdisciplinary education at UTS brings together great minds from different disciplines to explore ideas that improve the way we live and work in the world. These offerings are unique to UTS and directly translate to many existing and emerging roles and careers.

Diploma in Innovation

The Diploma in Innovation (C20060) teaches innovation, supports personal transformation and provides the hard skills needed to support the inventors and inventions of the future. Students come out of the Diploma in Innovation, with the hard skills to create and support sectoral and societal transformation. Graduates are able to fluently integrate ideas, across professional disciplines and are inventors of the future.

All UTS undergraduate students (with the exception of students concurrently enrolled in the Bachelor of Creative Intelligence and Innovation) can apply for the Diploma in Innovation upon admission in their chosen undergraduate degree. It is a complete degree program that runs in parallel to any undergraduate degree. The course is offered on a three-year, part-time basis, with subjects running in 3-week long intensive blocks in July, December and February sessions. More information including a link to apply is available at https://dipinn.uts.edu.au.

Transdisciplinary electives program

Transdisciplinary electives broaden students' horizons and supercharge their problem-solving skills, helping them to learn outside, beyond and across their degrees. Students enrolled in an undergraduate course that includes electives can choose to take a transdisciplinary subject (with the exception of students concurrently enrolled in the Bachelor of Creative Intelligence and Innovation). More information about the TD Electives program is available here.

Course intended learning outcomes

FEIT A.1 Bachelor of Engineering (Honours) graduates are culturally and historically well informed, able to co-design projects as respectful professionals when working in and with Aboriginal and Torres Strait Islander communities.
FEIT B.1 Bachelor of Engineering (Honours) graduates identify, engage, interpret and analyse stakeholder needs and cultural perspectives, establish priorities and goals, and identify constraints, uncertainties and risks (social, ethical, cultural, legislative, environmental, economics etc.) to define the system requirements.
FEIT C.1 Bachelor of Engineering (Honours) graduates apply research, problem solving, design and decision-making methodologies to develop components, systems and processes to meet specified requirements.
FEIT D.1 Bachelor of Engineering (Honours) graduates apply abstraction, mathematics and discipline fundamentals, software, tools and techniques to evaluate, implement and operate systems.
FEIT E.1 Bachelor of Engineering (Honours) graduates work as an effective member or leader of diverse teams, communicating effectively and operating within cross-disciplinary and cross-cultural contexts.
FEIT F.1 Bachelor of Engineering (Honours) graduates critically self-review their performance to improve themselves and their teams. They take responsibility and accountability for their own life long learning.
SCI. 1.1 Demonstrate theoretical and technical knowledge of broad science concepts and explain specialised disciplinary knowledge.
SCI. 2.1 Evaluate scientific evidence and apply effective experimental design and/or mathematical reasoning, analysis, and critical thinking to apply science and/or mathematic methodologies to real world problems.
SCI. 3.1 Work autonomously or in teams to address workplace or community problems utilising best scientific practice, with consideration to safety requirements and ethical guidelines.
SCI. 4.1 Design creative solutions to contemporary or complex scientific issues by incorporating innovative methods, reflective practices, and self-directed learning.
SCI. 5.1 Present and communicate complex ideas and justifications using appropriate communication approaches from a variety of methods (oral, written, visual) to communicate with discipline experts, scientists, industry, and the general public.
SCI. 6.1 Develop knowledge of Indigenous Australian contexts to inform professional cultural capabilities to work effectively with and for, Indigenous Australians within scientific contexts.

Key

SCI = Science course intended learning outcomes (CILOs)

Admission requirements

Applicants must have completed an Australian Year 12 qualification, Australian Qualifications Framework Diploma, or equivalent Australian or overseas qualification at the required level.

Current school leavers are advised to complete the Year 12 Engineering and IT Questionnaire. The questionnaire allows applicants to demonstrate their strong motivation to study engineering or IT at UTS and may assist applicants whose ATAR falls short of the required cut-off by up to three points.

Non-current school leavers are advised to complete the employment question on their UAC application as adjustment factors may be applied on the basis of relevant work experience.

The English proficiency requirement for international students or local applicants with international qualifications is: Academic IELTS: 6.5 overall with a writing score of 6.0; or TOEFL: paper based: 550-583 overall with TWE of 4.5, internet based: 79-93 overall with a writing score of 21; or AE5: Pass; or PTE: 58-64 with a writing score of 50; or C1A/C2P: 176-184 with a writing score of 169.

Eligibility for admission does not guarantee offer of a place.

International students

Applicants who successfully complete a recognised pathway program are also eligible to apply.

Visa requirement: To obtain a student visa to study in Australia, international students must enrol full time and on campus. Australian student visa regulations also require international students studying on student visas to complete the course within the standard full-time duration. Students can extend their courses only in exceptional circumstances.

Inherent (essential) requirements

Inherent (essential) requirements are academic and non-academic requirements that are essential to the successful completion of a course.

Prospective and current students should carefully read the Inherent (Essential) Requirements Statement below and consider whether they might experience challenges in successfully completing this course. This Statement should be read in conjunction with the UTS Student Rules.

Prospective or current student concerned about their ability to meet these requirements should discuss their concerns with the Academic Liaison Officer in their faculty or school and/or UTS Accessibility Service on 9514 1177 or at accessibility@uts.edu.au.

UTS will make reasonable adjustments to teaching and learning, assessment, professional experiences, course related work experience and other course activities to facilitate maximum participation by students with disabilities, carer responsibilities, and religious or cultural obligations in their courses.

For course specific information see the Faculty of Engineering & Information Technology Inherent (Essential) Requirements Statement.

Assumed knowledge

HSC Mathematics Extension 1; Physics; and English Standard. English Advanced is recommended.

For the Chemical Process and Civil Engineering majors, Chemistry is recommended. For the Software Engineering major, a sound knowledge of the fundamentals of programming is recommended. For other majors, at least two units of science relevant to the major chosen is recommended.

Recognition of prior learning

Students who have previously undertaken relevant study at a recognised tertiary education institution may be eligible for recognition of prior learning (RPL) if the subjects completed are deemed by the faculty to be equivalent to subjects in the student's course. Subjects completed as part of a qualification in which study ceased no more than 10 years prior to the student's first semester in the relevant UTS Engineering degree may be considered. Limits apply to the number of credit points of RPL granted.

Course duration and attendance

The course duration is five years full time, 10 years part time, or six years full time with honours.

Full-time attendance involves up to 24 hours each week at the university. Part-time attendance involves up to 12 hours each week at the university. It is expected that employers will release part-time students for at least one half-day a week for attendance at classes.

Course structure

Students are required to complete 246 credit points, comprising 168 credit points in engineering and 78 credit points in science. The engineering component consists of core (48 credit points), major (field of practice) (114 credit points) and professional engineering practice (6 credit points). The science component consists of a science major (78 credit points).

Students select both the engineering and science major at the time of admission; however, it is possible to apply to change majors at a later date. Students selecting the flexible engineering major should decide by the end of the first year of full-time study whether to transfer to a designated major or continue with the flexible program.

Graduation from the science component of the combined degree is not possible prior to completion of all components of the combined degree. Students wishing to graduate with a Bachelor of Science prior to completion of the engineering component of the combined degree must apply for transfer to the Bachelor of Science (C10242) single degree program where they must complete all requirements for the stand-alone single degree version.

Similarly, if a student wishes to graduate from the engineering component of the combined degree prior to completion of the science component they must apply for transfer to the Bachelor of Engineering (Honours) (C09066) single degree program where they must complete all requirements for the stand-alone single degree version, including the Engineering Work Experience subject.

Industrial training/professional practice

Students are required to undertake a minimum of 12 weeks of engineering work experience.

A Diploma in Professional Engineering Practice is also available; it requires the additional completion of two six-month internships and the professional engineering practice program.

Course completion requirements

STM90106 Core subjects 48cp
CBK90176 Major choice (Engineering) 114cp
CBK90586 Major choice (Science) 78cp
STM90994 Professional Engineering Practice stream 6cp
Total 246cp

Course program

The example program below is for a full-time, Autumn-commencing student with electrical engineering as their chosen engineering major.

List of Science majors
MAJ01087 Chemistry   78cp
MAJ01088 Physics   78cp
MAJ01120 Medical Science   78cp
MAJ01119 Biotechnology   78cp
MAJ01089 Environmental Science   78cp
MAJ01095 Mathematics   78cp
List of Engineering majors
MAJ03025 Civil Engineering   114cp
MAJ03517 Data Science Engineering   114cp
MAJ03028 Electrical Engineering   114cp
MAJ03030 Mechanical Engineering   114cp
MAJ03505 Mechatronic Engineering   114cp
MAJ03522 Software Engineering   114cp
MAJ03541 Flexible Engineering   114cp
MAJ03525 Electronic Engineering   114cp
MAJ03548 Renewable Energy Engineering   114cp
MAJ03473 Biomedical Engineering   114cp
MAJ03545 Chemical Process Engineering   114cp
Chemistry major, Electrical Engineering major
Year 1
Autumn session
33130 Mathematics 1   6cp
48510 Introduction to Electrical and Electronic Engineering   6cp
68037 Physical Modelling   6cp
65111 Chemistry 1   6cp
Spring session
33230 Mathematics 2   6cp
48230 Introduction to Engineering Projects   6cp
48520 Electronics and Circuits   6cp
68201 Physics 2   6cp
Year 2
January Session
65212 Chemistry 2   6cp
Autumn session
41035 Professional Practice Preparation 1   3cp
48430 Fundamentals of C Programming   6cp
48540 Signals and Systems   6cp
48441 Introductory Digital Systems   6cp
65306 Analytical Chemistry 1   6cp
Spring session
41200 Engineering Project Appraisal   6cp
48521 Foundations of Electrical and Electronic Technology   6cp
48530 Circuit Analysis and Design   6cp
48531 Electromechanical Automation   6cp
Year 3
Autumn session
68416 Computational Physics   6cp
48434 Introductory Embedded Systems   6cp
65307 Physical Chemistry 1   6cp
65202 Organic Chemistry 1   6cp
Spring session
41028 Engineering Work Experience   0cp
65508 Organic Chemistry 2   6cp
41201 Designing Sustainable Engineering Projects   6cp
Select 6 credit points from the following:   6cp
CBK91781 Electrical Engineering options 24cp  
Year 4
Autumn session
41202 Professional Engineering Communication   6cp
41277 Control Design   6cp
48572 Electrical Power Systems   6cp
65001 Medicinal Chemistry   6cp
Spring session
65411 Inorganic Chemistry 1   6cp
68206 Optics   6cp
Select 6 credit points from the following:   6cp
CBK91781 Electrical Engineering options 24cp  
41203 Collaboration in Complex Projects   6cp
Year 5
Autumn session
41055 Professional Experience Review   3cp
65509 Inorganic Chemistry 2   6cp
41029 Engineering Research Preparation   6cp
41278 Power Electronics   6cp
Select 6 credit points from the following:   6cp
CBK91781 Electrical Engineering options 24cp  
Spring session
41030 Engineering Capstone   6cp
65409 Analytical Chemistry 2   6cp
41088 Professional Studio A   6cp
Select 6 credit points from the following:   6cp
CBK91781 Electrical Engineering options 24cp  
Physics major, Electrical Engineering major
Year 1
Autumn session
33130 Mathematics 1   6cp
48510 Introduction to Electrical and Electronic Engineering   6cp
68037 Physical Modelling   6cp
65111 Chemistry 1   6cp
Spring session
33230 Mathematics 2   6cp
48230 Introduction to Engineering Projects   6cp
48520 Electronics and Circuits   6cp
65212 Chemistry 2   6cp
Year 2
Autumn session
41035 Professional Practice Preparation 1   3cp
48441 Introductory Digital Systems   6cp
68075 Advanced Materials   6cp
48430 Fundamentals of C Programming   6cp
48540 Signals and Systems   6cp
Spring session
68201 Physics 2   6cp
48531 Electromechanical Automation   6cp
48521 Foundations of Electrical and Electronic Technology   6cp
Year 3
Autumn session
41200 Engineering Project Appraisal   6cp
68414 Advanced Mechanics   6cp
48530 Circuit Analysis and Design   6cp
48434 Introductory Embedded Systems   6cp
37252 Regression and Linear Models   6cp
Spring session
41028 Engineering Work Experience   0cp
37336 Vector Calculus and Partial Differential Equations   6cp
41201 Designing Sustainable Engineering Projects   6cp
Select 12 credit points from the following:   12cp
CBK91781 Electrical Engineering options 24cp  
68413 Quantum Physics   6cp
Year 4
Autumn session
41202 Professional Engineering Communication   6cp
41277 Control Design   6cp
41278 Power Electronics   6cp
48572 Electrical Power Systems   6cp
Spring session
68606 Solid-state Science and Quantum Devices   6cp
68412 Physics of Energy   6cp
Select 6 credit points from the following:   6cp
CBK91781 Electrical Engineering options 24cp  
41203 Collaboration in Complex Projects   6cp
Year 5
Autumn session
41055 Professional Experience Review   3cp
68416 Computational Physics   6cp
41029 Engineering Research Preparation   6cp
Select 6 credit points from the following:   6cp
CBK91781 Electrical Engineering options 24cp  
Spring session
41030 Engineering Capstone   6cp
68206 Optics   6cp
68320 Nanofabrication and Nanocharacterization Techniques   6cp
41088 Professional Studio A   6cp
Biotechnology major, Electrical Engineering major
Year 1
Autumn session
33130 Mathematics 1   6cp
48510 Introduction to Electrical and Electronic Engineering   6cp
68037 Physical Modelling   6cp
65111 Chemistry 1   6cp
Spring session
33230 Mathematics 2   6cp
48230 Introduction to Engineering Projects   6cp
48520 Electronics and Circuits   6cp
65212 Chemistry 2   6cp
Year 2
Autumn session
41035 Professional Practice Preparation 1   3cp
48430 Fundamentals of C Programming   6cp
48540 Signals and Systems   6cp
48441 Introductory Digital Systems   6cp
91161 Cell Biology and Genetics   6cp
Spring session
41200 Engineering Project Appraisal   6cp
48521 Foundations of Electrical and Electronic Technology   6cp
48531 Electromechanical Automation   6cp
91400 Human Anatomy and Physiology   6cp
Year 3
Autumn session
48530 Circuit Analysis and Design   6cp
48434 Introductory Embedded Systems   6cp
91142 Biotechnology   6cp
91314 General Microbiology   6cp
Spring session
41028 Engineering Work Experience   0cp
41201 Designing Sustainable Engineering Projects   6cp
79006 Intellectual Property Commercialisation   6cp
Select 12 credit points from the following:   12cp
CBK91781 Electrical Engineering options 24cp  
91401 Immunology   6cp
Year 4
Autumn session
41202 Professional Engineering Communication   6cp
41277 Control Design   6cp
48572 Electrical Power Systems   6cp
Spring session
41088 Professional Studio A   6cp
Select 6 credit points from the following:   6cp
CBK91781 Electrical Engineering options 24cp  
Select 6 credit points from the following:   6cp
91818 Environmental Biotechnology 6cp  
91180 Immunology and Human Health 6cp  
91817 Medical Biotechnology 6cp  
91705 Medical Devices and Diagnostics 6cp  
91132 Molecular Biology 6cp  
41203 Collaboration in Complex Projects   6cp
Year 5
Autumn session
41055 Professional Experience Review   3cp
41029 Engineering Research Preparation   6cp
91707 Fundamentals of Pharmacology   6cp
21214 Business and Social Impact   6cp
41278 Power Electronics   6cp
Spring session
41030 Engineering Capstone   6cp
91368 Bioreactors and Bioprocessing   6cp
91369 Biobusiness   6cp
Select 6 credit points from the following:   6cp
CBK91781 Electrical Engineering options 24cp  
Environmental Sciences major, Electrical Engineering major
Year 1
Autumn session
33130 Mathematics 1   6cp
48510 Introduction to Electrical and Electronic Engineering   6cp
68037 Physical Modelling   6cp
91107 The Biosphere   6cp
Spring session
33230 Mathematics 2   6cp
48230 Introduction to Engineering Projects   6cp
48520 Electronics and Circuits   6cp
91123 Nature and Evolution   6cp
Year 2
Autumn session
41035 Professional Practice Preparation 1   3cp
48430 Fundamentals of C Programming   6cp
48540 Signals and Systems   6cp
91154 Ecology   6cp
Spring session
41200 Engineering Project Appraisal   6cp
48521 Foundations of Electrical and Electronic Technology   6cp
48531 Electromechanical Automation   6cp
65111 Chemistry 1   6cp
Year 3
Autumn session
48434 Introductory Embedded Systems   6cp
48441 Introductory Digital Systems   6cp
91168 Ecological Genetics   6cp
91100 Urban Sustainability and Resilience   6cp
Spring session
41028 Engineering Work Experience   0cp
41201 Designing Sustainable Engineering Projects   6cp
48530 Circuit Analysis and Design   6cp
Select 6 credit points from the following:   6cp
CBK91781 Electrical Engineering options 24cp  
Select 6 credit points from the following:   6cp
91159 Environmental Remediation 6cp  
91157 Marine Algae and Productivity 6cp  
Year 4
Autumn session
41277 Control Design   6cp
48572 Electrical Power Systems   6cp
91120 GIS and Remote Sensing   6cp
91309 Biodiversity Conservation   6cp
Spring session
41202 Professional Engineering Communication   6cp
41088 Professional Studio A   6cp
Select 6 credit points from the following:   6cp
CBK91781 Electrical Engineering options 24cp  
41203 Collaboration in Complex Projects   6cp
Year 5
Autumn session
41055 Professional Experience Review   3cp
41029 Engineering Research Preparation   6cp
41278 Power Electronics   6cp
91121 Aquatic Ecosystems   6cp
91126 Coral Reef Ecosystems   6cp
91145 Environmental Protection and Management   6cp
Spring session
41030 Engineering Capstone   6cp
91155 Stream and Lake Assessment   6cp
Select 12 credit points from the following:   12cp
CBK91781 Electrical Engineering options 24cp  
Medical Science major, Electrical Engineering major
Year 1
Autumn session
33130 Mathematics 1   6cp
48510 Introduction to Electrical and Electronic Engineering   6cp
68037 Physical Modelling   6cp
65111 Chemistry 1   6cp
Spring session
33230 Mathematics 2   6cp
48230 Introduction to Engineering Projects   6cp
48520 Electronics and Circuits   6cp
65212 Chemistry 2   6cp
Year 2
Autumn session
41035 Professional Practice Preparation 1   3cp
48430 Fundamentals of C Programming   6cp
48540 Signals and Systems   6cp
48441 Introductory Digital Systems   6cp
91161 Cell Biology and Genetics   6cp
Spring session
41200 Engineering Project Appraisal   6cp
48521 Foundations of Electrical and Electronic Technology   6cp
48531 Electromechanical Automation   6cp
91400 Human Anatomy and Physiology   6cp
Year 3
Autumn session
48530 Circuit Analysis and Design   6cp
48434 Introductory Embedded Systems   6cp
91320 Metabolic Biochemistry   6cp
91314 General Microbiology   6cp
Spring session
41028 Engineering Work Experience   0cp
41201 Designing Sustainable Engineering Projects   6cp
91401 Immunology   6cp
Select 12 credit points from the following:   12cp
CBK91781 Electrical Engineering options 24cp  
Year 4
Autumn session
41202 Professional Engineering Communication   6cp
41277 Control Design   6cp
48572 Electrical Power Systems   6cp
91707 Fundamentals of Pharmacology   6cp
Spring session
Select 6 credit points from the following:   6cp
CBK91781 Electrical Engineering options 24cp  
Select 12 credit points from the following:   12cp
91709 Advanced Pharmacology 6cp  
91705 Medical Devices and Diagnostics 6cp  
91180 Immunology and Human Health 6cp  
91195 Epidemiology and Pathogenesis of Infections 6cp  
91827 Advanced Medical Biochemistry 6cp  
91822 Human Genetics and Precision Medicine 6cp  
41203 Collaboration in Complex Projects   6cp
Year 5
Autumn session
41055 Professional Experience Review   3cp
41029 Engineering Research Preparation   6cp
41278 Power Electronics   6cp
91563 Haematology   6cp
Select 6 credit points from the following:   6cp
CBK91781 Electrical Engineering options 24cp  
Spring session
41030 Engineering Capstone   6cp
41088 Professional Studio A   6cp
Select 12 credit points from the following:   12cp
91709 Advanced Pharmacology 6cp  
91705 Medical Devices and Diagnostics 6cp  
91180 Immunology and Human Health 6cp  
91195 Epidemiology and Pathogenesis of Infections 6cp  
91827 Advanced Medical Biochemistry 6cp  
91822 Human Genetics and Precision Medicine 6cp  
Mathematics major, Electrical Engineering major
Year 1
Autumn session
33130 Mathematics 1   6cp
48510 Introduction to Electrical and Electronic Engineering   6cp
68037 Physical Modelling   6cp
41039 Programming 1   6cp
Spring session
33230 Mathematics 2   6cp
48230 Introduction to Engineering Projects   6cp
48520 Electronics and Circuits   6cp
37161 Probability and Random Variables   6cp
Year 2
Autumn session
41035 Professional Practice Preparation 1   3cp
48430 Fundamentals of C Programming   6cp
48540 Signals and Systems   6cp
48441 Introductory Digital Systems   6cp
37181 Discrete Mathematics   6cp
Spring session
37242 Introduction to Optimisation   6cp
48521 Foundations of Electrical and Electronic Technology   6cp
48531 Electromechanical Automation   6cp
35007 Real Analysis   6cp
Year 3
Autumn session
48530 Circuit Analysis and Design   6cp
48434 Introductory Embedded Systems   6cp
41200 Engineering Project Appraisal   6cp
60006 Scientific Perspectives for Global Issues   6cp
Spring session
41028 Engineering Work Experience   0cp
41201 Designing Sustainable Engineering Projects   6cp
37262 Mathematical Statistics   6cp
Select 12 credit points from the following:   12cp
CBK91781 Electrical Engineering options 24cp  
Year 4
Autumn session
41202 Professional Engineering Communication   6cp
37252 Regression and Linear Models   6cp
41277 Control Design   6cp
48572 Electrical Power Systems   6cp
Spring session
35005 Lebesgue Integration and Fourier Analysis   6cp
41088 Professional Studio A   6cp
Select 6 credit points from the following:   6cp
CBK91781 Electrical Engineering options 24cp  
41203 Collaboration in Complex Projects   6cp
Year 5
Autumn session
41055 Professional Experience Review   3cp
41029 Engineering Research Preparation   6cp
37233 Linear Algebra   6cp
37234 Complex Analysis   6cp
41278 Power Electronics   6cp
Spring session
41030 Engineering Capstone   6cp
37336 Vector Calculus and Partial Differential Equations   6cp
35006 Numerical Methods   6cp
Select 6 credit points from the following:   6cp
CBK91781 Electrical Engineering options 24cp  

Rules and regulations

Commencing students are required to complete the Maths Readiness Survey (MRS) to determine the most appropriate first-year mathematics subject to undertake.

Levels of award

The Bachelor of Engineering (Honours) may be awarded with first or second class honours, which does not require an additional honours year.

Honours

An honours program in science is available, which involves an extra year of full-time study. The honours program is designed to introduce students to more advanced coursework and to research work in science. It allows selected students to continue with postgraduate studies if desired and enhances their employment prospects.

Transfer between UTS courses

Students in this combined degree may transfer to the Bachelor of Engineering (Honours) Diploma in Professional Engineering Practice (C09067) or the Bachelor of Science (C10242). International students may transfer to the Bachelor of Engineering (Honours) (C09066).

Professional recognition

The Bachelor of Engineering (Honours), majoring in Civil Engineering, Civil and Environmental Engineering, Electrical Engineering, Flexible Engineering, Mechanical Engineering, Mechanical and Mechatronic Engineering, or Mechatronic Engineering, is fully accredited by Engineers Australia at the level of Professional Engineer and is recognised internationally by signatories to the Washington Accord. Biomedical Engineering, Data Science Engineering, Electrical and Electronic Engineering, Electronic Engineering, and Software Engineering majors are provisionally accredited with Engineers Australia, pending full accreditation. UTS is currently seeking provisional accreditation of the Chemical Process Engineering and Renewable Energy Engineering majors.

Other information

Further information is available from:

UTS Student Centre
telephone 1300 ask UTS (1300 275 887) or +61 2 9514 1222
Ask UTS