ENGR 1019 Fundamentals of Mechanics (WSTC AssocD)
Credit Points 10
Legacy Code 700113
Coordinator Abbas Ranjbar Opens in new window
Description This subject deals with the action and interaction of forces, moments and couples in two and three dimensions. It examines the equilibrium of single bodies, and of trusses and mechanisms. It then looks at the friction between bodies. It covers the dynamics of a non-rotating body, and a body rotating about a fixed axis. Finally, internal loadings are investigated - particularly within a transversely loaded beam. The subject makes extensive use of vector algebra.
School Eng, Design & Built Env
Discipline Other Engineering And Related Technologies
Student Contribution Band HECS Band 2 10cp
Check your HECS Band contribution amount via the Fees page.
Level Undergraduate Level 1 subject
Equivalent Subjects ENGR 1020 - Fundamentals of Mechanics (WSTC) ENGR 1018 - Fundamentals of Mechanics
Restrictions
Students must be enrolled in 7022 Associate Degree in Engineering
Learning Outcomes
On successful completion of this subject, students should be able to:
- Manipulate vectors in 2 dimensions and 3 dimensions.
- Use the equilibrium equations to evaluate unknown reactions and internal loads.
- Evaluate the member forces in planar trusses.
- Evaluate the inter-body forces in planar mechanisms.
- Calculate the acceleration of a body under the action of an unbalanced force or couple.
- Analyse static and kinetic friction.
- Construct bending moment and shear force diagrams.
- Replace a distributed force by a single equivalent force.
- Identify under-constrained and statically indeterminate problems.
- Take measurements in the real world and use them to verify the theory presented in the lectures.
Subject Content
1.Statics in two dimensions
- Vectors
- Forces Moments and Couples
- Free body diagrams
- Equilibrium
- Friction
- Trusses
- Frames and Machines
2. Statics in three dimensions
- Vectors
- Forces Moments and Couples
- Free body diagrams
- Equilibrium
3. Translational Dynamics
- Acceleration
- The work-energy equation
- Potential energy
4. Rotational Dynamics
- Acceleration
- The work-energy equation
5. Beam Diagrams
- Internal loads
- Bending moments and shear force diagrams
- Distributed forces
Assessment
The following table summarises the standard assessment tasks for this subject. Please note this is a guide only. Assessment tasks are regularly updated, where there is a difference your Learning Guide takes precedence.
Type | Length | Percent | Threshold | Individual/Group Task |
---|---|---|---|---|
Practical | 6 hours | 15 | N | Both (Individual & Group) |
Quiz | 10x0.5 hour= 5 hours | 30 | N | Individual |
Intra-session Exam | 1 hours + 30 minutes for online submission | 15 | N | Individual |
End-of-session Exam | Part 1: 2 hours + 30 minutes for online submission Part 2: 20 minutes per student | 40 | Y | Individual |
Prescribed Texts
- Meriam, JL & Kraige, LG 2003, Engineering mechanics Volume 1 Statics SI version, 6th edn, Wiley
- Meriam, JL & Kraige, LG 2003, Engineering mechanics Volume 2 Dynamics SI version, 6th edn, Wiley
- Hibbeler, RC 2010, Engineering Mechanics Statics 12th edn in SI units, Pearson
- Hibbeler, RC 2010, Engineering Mechanics Dynamics 12th edn in SI units, Pearson
Teaching Periods
Quarter 4 (2022)
Nirimba Education Precinct
Composite
Subject Contact Abbas Ranjbar Opens in new window
View timetable Opens in new window
Quarter 4 (2023)
Nirimba Education Precinct
Hybrid
Subject Contact Abbas Ranjbar Opens in new window