Biomechanical Engineering

Undergraduate | 2026

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Mode icon
Mode
Mode
Your studies will be on-campus, and may include some online delivery
On campus
area/catalogue icon
Area/Catalogue
ENGI X401
Course ID icon
Course ID
206686
Campus icon
Campus
Mawson Lakes, Adelaide City Campus East
Level of study
Level of study
Undergraduate
Unit value icon
Unit value
6
Course owner
Course owner
Elect & Mech Engineering
Course level icon
Course level
4
Work Integrated Learning course
Work Integrated Learning course
No
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Inbound study abroad and exchange
Inbound study abroad and exchange
The fee you pay will depend on the number and type of courses you study.
Yes
Discipline group B
University-wide elective icon
University-wide elective course
Yes
Single course enrollment
Single course enrolment
Yes
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Note:
Course data is interim and subject to change

Course overview

This course will explore the function, structure and mechanics of tissues in the musculoskeletal system (e.g. bone, tendon, cartilage, etc.), the function and design principles of orthopaedic implants and artificial joints, and the fundamentals of injury biomechanics. In each of these areas, the experimental, analytical and computational research methods used to study function, dysfunction and trauma will be discussed. Learning opportunities will include hands-on laboratory activities, facility visits and demonstrations. Contemporary examples and case studies will be used to explore new and emerging orthopaedic and injury biomechanics technologies.

  • Musculoskeletal system analysis 
  • Tissue structures & mechanics
  • Joints, Fractures and Implants
  • Injury Biomechanics 

Course learning outcomes

  • Identify and explain the biomechanical functions of the musculoskeletal system and the experimental and analytical processes undertaken to estimate internal body loads;
  • Explain the function of diarthroidal joints, and the function, design, limitations and failure mechanisms of artificial joints;
  • Explain the mechanical principles of fracture and spinal fixation, and compare/contrast associated implant design and action;
  • Undertake, and interpret the outcomes of, fundamental calculations in the areas of tissue, orthopaedic and injury biomechanics;
  • Demonstrate understanding of musculoskeletal tissue (e.g. bone, ligament, tendon, cartilage, disc) function, structure, microstructure and mechanics, and the relationships between these;
  • Demonstrate understanding of the principles of injury biomechanics, and the function of standardised safety testing and injury criteria;
  • Critically evaluate the relevant literature or other information, identify a clinical problem related to biomechanics, take the first steps towards formulating a research hypothesis and design appropriate biomechanics experimental methods or analytical models to test the hypothesis.

Prerequisite(s)

N/A

Corequisite(s)

N/A

Antirequisite(s)

N/A

Assumed knowledge

Assumed knowledge MECH ENG 2002 (Mechanics of Materials). Currently no pre-requisites to ensure it is accessible to both Mechanical and Electrical Eng students.

Textbook(s)

N/A

Inherent requirements

N/A

Other resources

Laptop or tablet to bring to class.

Assessment

N/A

Degree list
The following degrees include this course
Master of Professional Engineering (Mechatronic)
Bachelor of Engineering (Electrical) (Honours)
Bachelor of Engineering (Mechanical) (Honours)
Master of Professional Engineering (Mechanical)