Year
2017
Units
4.5
Contact
1 x 2-hour lecture weekly
1 x 2-hour workshop weekly
5 x 2-hour practicals per semester
1 x 2-hour workshop weekly
5 x 2-hour practicals per semester
Prerequisites
^ = may be enrolled concurrently
^ = may be enrolled concurrently
1 ^ 1 of MATH1122, MATH1204
2 1 of ENGR1732, PHYS1101, PHYS1102, PHYS1332, PHYS1205
Must Satisfy: (1 and 2)
2 1 of ENGR1732, PHYS1101, PHYS1102, PHYS1332, PHYS1205
Must Satisfy: (1 and 2)
Enrolment not permitted
ENGR8791 has been successfully completed
Topic description
Principles of Statics (Review); Centre of Gravity, Centroid and Moment of Inertia; Distributed Forces; Stress and Strain; Mechanical Properties of Materials: Ductile/Brittle Materials, Hooke's Law, Poisson's Ratio; Axial load; Torsion; Bending: Shear Force and Bending Moment Diagrams; Stress Concentrations; Transverse Shear; Combined Loadings; Transformation of Stress and Strain: Mohr's Circle; Design of Beams and Shafts.
Educational aims
This topic gives students an understanding of the basic statics concepts associated with engineering mechanics and structures.
Expected learning outcomes
At the completion of this topic, students are expected to be able to:
- Develop and employ principles of Statics in solving problems
- Learn how to determine centroids and moment of inertias and how to find resultant of distributed loadings
- Understand concepts of stress, strain and mechanical properties of materials
- Analyse axial, torsional, bending, transverse stresses and their combinations in structures and machine components
- Calculate in-plane stresses and strains, their orientations and transformations through Mohr's circle, and calculate principal stresses and strains
- Develop methods for designing beams to resist both bending and shear loads; prismatic and fully stressed beam designs
Key dates and timetable
Timetable details for 2017 are no longer published.
Sturt Rd, Bedford Park
South Australia 5042
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