books-library-folders

Area/Catalogue
MENG 2014

graduate-cap

Course Level
Undergraduate

globe-earth-geography

Offered Externally
No

diploma-certificate-graduate-degree

Course ID
151560

pie-chart-graph

Unit Value
4.5

compass

University-wide elective course
No

Course owner

Course owner
School of Engineering

Course aim

This course will introduce the fundamentals of engineering dynamics. It will develop the skills in how to model and analyse the motion of particles and rigid bodies as a foundation for dynamic analysis of mechanical systems. This fundamental course will also help develop engineers eyes to understand how machines work, and develop an engineering mindset to present and communicate work in a clear and concise written format.

Course content

Introduction to dynamics and vectorial approach to dynamics (with emphasis on planar motion).

Kinematics of particles, general curvilinear motio: frames of reference, trajectory of a particle and its position vector, definition and derivation of velocity vector and its rectangular components, definition and derivation of acceleration vector and its rectangular components and kinematics of circular motion of a particle as a special case.

Kinetics of particles: Newton’s second law of motion, linear and angular momentum of a particle and their rate of change, equations of motion, dynamic equilibrium, equations of motion in terms of radial and transverse components,  Newton’s law of gravitation, trajectory of a particle under a central force, application to orbital and gyroscopic motions, Kepler’s laws of planetary motion, energy method and principle of impulse and momentum.

Kinematics and kinetics of rigid bodies: relative and absolute motion, absolute, relative and translational velocity and acceleration and coriolis acceleration .

Textbook(s)

F.P. Beer; E.R Johnston Jr.; D.F. Mazurek, P.J. Cornwell and E.R. Eisenberg 2013, Vector Mechanics for Engineers, Dynamics, 10, McGraw Hill

Prerequisite(s)

Common to all relevant programs
Subject Area & Catalogue Number Course Name
MATH 1064 Mathematical Methods for Engineers 2
MENG 1012 Engineering Mechanics

Corequisite(s)

Nil

Teaching method

Component Duration
INTERNAL, MAWSON LAKES
Lecture 2 hours x 13 weeks
Tutorial 2 hours x 13 weeks
Practical 2 hours x 2 weeks
INTERNAL, WHYALLA
Lecture 2 hours x 13 weeks
Tutorial 2 hours x 13 weeks
Practical 2 hours x 2 weeks
INTERNAL, MAWSON LAKES (INTENSIVE)
Tutorial 2 hours x 11 weeks
Practical 2 hours x 2 weeks

Note: These components may or may not be scheduled in every study period. Please refer to the timetable for further details.


Assessment

Assignment, Examination, Practical, Quiz

Fees

EFTSL*: 0.125
Commonwealth Supported program (Band 2)
To determine the fee for this course as part of a Commonwealth Supported program, go to:
How to determine your Commonwealth Supported course fee. (Opens new window)

Fee-paying program for domestic and international students
International students and students undertaking this course as part of a postgraduate fee paying program must refer to the relevant program home page to determine the cost for undertaking this course.

Non-award enrolment
Non-award tuition fees are set by the university. To determine the cost of this course, go to:
How to determine the relevant non award tuition fee. (Opens new window)

Not all courses are available on all of the above bases, and students must check to ensure that they are permitted to enrol in a particular course.

* Equivalent Full Time Study Load. Please note: all EFTSL values are published and calculated at ten decimal places. Values are displayed to three decimal places for ease of interpretation.

Course Coordinators

Checking your eligibility