Hobart
Introduction
In this unit you will develop knowledge and skills for solving problems in mechanical engineering specifically in the field of dynamics and vibration, this building on the theory of Newtonian Mechanics applied to the analysis of rigid body kinematics and kinetics. This is undertaken by applying theory to solve advanced dynamics problems involving rigid body motion and vibration through technical analysis as well as practical implementation based on undertaking laboratory experiments specific to the field of mechanical engineering.
Summary 2021
Unit name | Dynamics and Vibrations |
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Unit code | ENG211 |
Credit points | 12.5 |
Faculty/School | College of Sciences and Engineering School of Engineering |
Discipline | Engineering |
Coordinator | Jason Lavroff |
Level | Intermediate |
Available as student elective? | No |
Breadth Unit? | No |
Availability
Note
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TNE Program units special approval requirements.
* The Final WW Date is the final date from which you can withdraw from the unit without academic penalty, however you will still incur a financial liability (see withdrawal dates explained for more information).
Learning Outcomes
1. Solve mechanical engineering problems involving rigid body motion and vibration using advanced theory based on Newtonian Mechanics.
2. Apply practical techniques for the measurement and/or analysis of mechanical engineering based problems involving dynamics and vibration.
3. Collect and/or analyse experimental or theoretical data as an individual or within a team context.
4. Formulate a series of clear conclusions and justifications in a professional laboratory report based on advanced theory for comparison to interpreted experimental results.
Fees
Requisites
Prerequisites
ENG105 and KMA154
Mutual Exclusions
You cannot enrol in this unit as well as the following:
KNE251
Teaching
Teaching Pattern | 3 x 1hr lectures weekly, 1 x 1hr tutorial weekly and 3 x 3hr practical |
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Assessment | Three major assessments: 3 x laboratory reports (30%), 2 x problem-solving exercises (10% each) and 3-hour end of semester exam (50%) |
Timetable | View the lecture timetable | View the full unit timetable |
Textbooks
Required | None |
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