units

TRC2201

Faculty of Engineering

Undergraduate - Unit

This unit entry is for students who completed this unit in 2012 only. For students planning to study the unit, please refer to the unit indexes in the the current edition of the Handbook. If you have any queries contact the managing faculty for your course or area of study.

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6 points, SCA Band 2, 0.125 EFTSL

Refer to the specific census and withdrawal dates for the semester(s) in which this unit is offered, or view unit timetables.

LevelUndergraduate
FacultyFaculty of Engineering
OfferedClayton First semester 2012 (Day)
Sunway First semester 2012 (Day)
Coordinator(s)Z Liu (Clayton); D Gouwanda (Sunway)

Synopsis

Kinematics: position, velocity and acceleration; relative motion analysis and applications for particles and rigid bodies; Dynamics: translational and rotational motion of free and constrained forces, their origin and significance; equation of motion, principle of impulse and momentum, principles of work and energy; Analysis of planar motion. Fundamentals of mechanical vibrations. Strength of materials: stress and strain in 2D and 3D space; Hookes law; Shear force and bending moments, moments of area, deflection of beams; Equilibrium and compatibility equations; Stress and strain transformation; Mohr circle; Simple failure criteria; Elastic instability --- buckling.

Outcomes

On completion of this units students should be able to:

  1. understand how the observed phenomenon of motion can be analyzed mathematically

  1. understand the concepts of position, velocity and acceleration as applied to the kinematics of particle and whole body motion and to be able to solve problems of translational motion

  1. apply Newton's laws to the dynamics of motion

  1. extend kinematics and dynamics to rotational motion and to be able to calculate mass moments of inertia for simple elements

  1. understand the concepts of stress and strain and the Mohr circle as applied to structures

  1. calculate bending moments and shear forces

  1. understand Hookes law and failure criteria in elastic materials

  1. calculate deflections in beams and buckling in columns using moments of area information

  1. observe all of the above phenomena in the laboratory and to learn how to measure key variables.

Assessment

Test/Class work: 30%
Examination (3 hours): 70%

Chief examiner(s)

Professor Chris Davies

Contact hours

3 hours lectures, 3 hours of practice/laboratory classes and 6 hours of private study per week

Prerequisites

Must have passed 42 credit points

Prohibitions

MEC2401