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ENG252 - Dynamics

2024

Sector

Higher Education

Discipline

Engineering

Credit Points

Equivalent Units

(ENG152)

Prerequisites

Must have passed 1 unit in (ENG151, SMA101)

Incompatible

Assumed Knowledge

Unit Description

The study of dynamics covers the motion of particles/objects, the forces that produce or impact upon this motion and the various coordinate systems that allow analysis of key variables such as linear velocity, angular velocity and momentum. Particle motion, rigid body analysis and vibration analysis are introduced in this unit, and form an important part of engineering.

The theoretical concepts are illustrated by laboratories that provide a visual and `real' representation of key dynamic fundamentals.

This unit is reliant on on-line materials including electronic submission of assessment items. Students must have access to a reliable high-speed broadband connection and a scanner.

Unit Learning Outcomes

1.	Analyse particles and bodies in equilibrium and motion, using force/acceleration, work/energy and impulse/momentum methods
2.	Analyse simple engineering problems in dynamics
3.	Observe and explain basic behaviour of dynamics systems
4.	Use effective oral, written, numeric and technical communication methods, including assignment and practical reports, to convey ideas and principles

Assessment Overview

	Assessment Task	Value (of total mark)	Related Learning Outcome/s
1.	Three laboratory exercises (approx 2 pages)	15%	1 - Analyse particles and bodies in equilibrium and motion, using force/acceleration, work/energy and impulse/momentum methods 2 - Analyse simple engineering problems in dynamics 3 - Observe and explain basic behaviour of dynamics systems 4 - Use effective oral, written, numeric and technical communication methods, including assignment and practical reports, to convey ideas and principles
2.	Mid-semester invigilated test (100 minutes)	20%	1 - Analyse particles and bodies in equilibrium and motion, using force/acceleration, work/energy and impulse/momentum methods 2 - Analyse simple engineering problems in dynamics 3 - Observe and explain basic behaviour of dynamics systems
3.	Individual dynamics project report (approx 4 pages)	15%	1 - Analyse particles and bodies in equilibrium and motion, using force/acceleration, work/energy and impulse/momentum methods 2 - Analyse simple engineering problems in dynamics 3 - Observe and explain basic behaviour of dynamics systems 4 - Use effective oral, written, numeric and technical communication methods, including assignment and practical reports, to convey ideas and principles
4.	Final exam (2 hours)	45%	1 - Analyse particles and bodies in equilibrium and motion, using force/acceleration, work/energy and impulse/momentum methods 2 - Analyse simple engineering problems in dynamics 3 - Observe and explain basic behaviour of dynamics systems
5.	Problem solving exercise (25 min)	5%	1 - Analyse particles and bodies in equilibrium and motion, using force/acceleration, work/energy and impulse/momentum methods 2 - Analyse simple engineering problems in dynamics 3 - Observe and explain basic behaviour of dynamics systems

Unit Availability

Year	Semester	Att Mode	Location	Learning Method	Timetable*
2024	Semester 2	Internal	Casuarina Campus	OLR	View
2024	Semester 2	External	External Studies	OLR	View

* Timetable will be displayed in new tab or window depending on your browser's configuration; ensure Pop-ups are allowed for this site to view the timetable.

OLR: Internet access is required for this unit as students are required to access study materials provided on-line through Learnline. Please log into Learnline on the first day of each teaching period. For more information about Learnline, please click here.

Critical Dates

Important Dates for Students

Fee Information:
Fees and Payments
Student Services and Amenities Fees
2024 Domestic Unit Fees (PDF)