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Although there is an abundance of information on this topic, some of the information may not be accurate. As a result, some information may be a waste of time.
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Overview
This dual degree program is specifically designed for undergraduate students wishing to pursue a career in either Engineering or Biomedical Engineering. Biomedical Engineering is the application of engineering principles to developing technologies and solving problems in a diverse range of health care related fields e.g. implantable bionics, drug delivery systems, … For more content click the Read More button below.
This dual degree program is specifically designed for undergraduate students wishing to pursue a career in either Engineering or Biomedical Engineering. Biomedical Engineering is the application of engineering principles to developing technologies and solving problems in a diverse range of health care related fields e.g. implantable bionics, drug delivery systems, medical imaging, radiotherapies, orthopedic devices, telemedicine, robotic surgery, cell and tissue engineering, records management, physical rehabilitation and others. This program is integrated to provide fundamental engineering skills with an undergraduate focus on an engineering discipline and specialist postgraduate level training in Biomedical Engineering.
At the end of the program successful candidates will graduate with a Bachelor in Engineering (Honours) and a Masters in Biomedical Engineering. Students are expected to perform at a credit average (65%) or better in their first three years to be permitted to continue with the Masters part of the program. Students who do not satisfy this requirement can revert to the Bachelor of Engineering (Honours) program.
This dual program is currently offered for the following BE (Hons) specialisations only:
- Bioinformatics Engineering
- Chemical Engineering
- Computer Engineering
- Electrical Engineering
- Mechanical Engineering
- Mechatronic Engineering
- Software Engineering
- Telecommunications
Program Structure240 Units of Credit:
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Students must complete 240 UOC as a standalone program.
Biomedical Engineering Specialisation Requirements
Note that students must take 12 UOC Biomedical Engineering Thesis courses BIOM4951, BIOM4952 & BIOM4953 in place of thesis courses offered in their BE (Hons) specialisation.keyboard_arrow_downSpecialisationarrow_forwardBIOMDS72 UOCBiomedical Engineering (Dual Mode)
Engineering (Honours) Specialisation Requirements
Students must complete at least one of the specialisations below.keyboard_arrow_downHonoursarrow_forwardBINFAH168 UOCBioinformatics Engineeringarrow_forwardCEICAH168 UOCChemical Engineeringarrow_forwardCOMPBH168 UOCComputer Engineeringarrow_forwardELECAH168 UOCElectrical Engineeringarrow_forwardMECHAH168 UOCMechanical Engineeringarrow_forwardMTRNAH168 UOCMechatronic Engineeringarrow_forwardSENGAH168 UOCSoftware Engineeringarrow_forwardTELEAH168 UOCTelecommunications
General Education
Students must take 6 UOC of the following courses.
Note: Students must substitute a depth elective from the BE (Hons) stream or an elective from the Biomedical Engineering program to satisfy the General Education requirement for this program.
Industrial Experience Requirement
Students must complete a minimum of 60 days of Industrial Training to graduate. Industrial Training must be undertaken concurrently with enrolment in the program. For more information on Industrial Training, please visit https://www.engineering.unsw.edu.au/study-with-us/engineering-students-industrial-training
Students must complete a minimum of 60 days of Industrial Training to graduate. Industrial Training must be undertaken concurrently with enrolment in the program.
For more information on Industrial Training, please visit https://www.engineering.unsw.edu.au/study-with-us/engineering-students-industrial-training