Course Title: Dynamics

Part A: Course Overview

Course Title: Dynamics

Credit Points: 12.00

Important Information:

Please note that this course may have compulsory in-person attendance requirements for some teaching activities.

To participate in any RMIT course in-person activities or assessment, you will need to comply with RMIT vaccination requirements which are applicable during the duration of the course. This RMIT requirement includes being vaccinated against COVID-19 or holding a valid medical exemption.

Please read this RMIT Enrolment Procedure as it has important information regarding COVID vaccination and your study at RMIT: https://policies.rmit.edu.au/document/view.php?id=209.

Please read the Student website for additional requirements of in-person attendance: https://www.rmit.edu.au/covid/coming-to-campus

Please check your Canvas course shell closer to when the course starts to see if this course requires mandatory in-person attendance. The delivery method of the course might have to change quickly in response to changes in the local state/national directive regarding in-person course attendance.


Terms

Course Code

Campus

Career

School

Learning Mode

Teaching Period(s)

MIET2124

City Campus

Undergraduate

115H Aerospace, Mechanical & Manufacturing Engineering

Face-to-Face

Sem 1 2006,
Sem 1 2007,
Sem 1 2008,
Sem 1 2009,
Sem 1 2010,
Sem 1 2011,
Sem 1 2012,
Sem 1 2013,
Sem 1 2014,
Sem 1 2015,
Sem 1 2016

MIET2124

City Campus

Undergraduate

172H School of Engineering

Face-to-Face

Sem 1 2017,
Summer2018,
Sem 1 2019,
Sem 1 2020,
Sem 1 2021,
Sem 1 2022

Course Coordinator: Dr Anna Bourmistrova

Course Coordinator Phone: +61 3 9925 8081

Course Coordinator Email: anna.bourmistrov@rmit.edu.au


Pre-requisite Courses and Assumed Knowledge and Capabilities

None.


Course Description

This course deals with the motion of bodies under the action of single or multiple forces. It covers kinematics and kinetics of particles (rectilinear and curvilinear motions using various coordinate systems, force and acceleration, work and energy, impulse and momentum principles), planar kinematics (using analytical and graphical methods), kinetics of rigid bodies (using force and acceleration, work and energy, and impulse and momentum principles), and vibration of single degree of freedom systems.


Objectives/Learning Outcomes/Capability Development

This course contributes to the following program learning outcomes for students who commenced their program prior to 2023:

  • Comprehensive, theory-based understanding of the underpinning natural and physical sciences and the engineering fundamentals applicable to the engineering discipline
  • Fluent application of engineering techniques, tools and resources

This course contributes to the following program learning outcomes for students who commenced their program in 2023:

  • PLO1: Demonstrate an in-depth understanding and knowledge of fundamental engineering and scientific theories, principles and concepts and apply advanced technical knowledge in specialist domain of engineering.
  • PLO2: Utilise mathematics and engineering fundamentals, software, tools and techniques to design engineering systems for complex engineering challenges.


Upon successful completion of the course, you should be able to:

  1. Describe and define the key concepts of kinematics and kinetics of particles
  2. Develop equations of motion and analyse simple systems of particles and rigid bodies under translational and rotational motion
  3. Describe and define the key theoretical concepts and experimental methods for study of vibration
  4. Develop equations of motion and analyse the vibration of simple dynamic systems


Overview of Learning Activities

Learning activities can include pre-recorded lectures, tutorials and group project with laboratory experiments. The basic theoretical background will be explained in the lectures and various real-world engineering problems will be discussed and analysed in the lectures and tutorials. The basic principles will also be analysed through the laboratory experiments.


Overview of Learning Resources

Learning resources for this course are the prescribed textbook, lecture notes and other recommended resources.


Overview of Assessment

This course has no hurdle requirements.

Assessment Tasks 

Assessment Task 1:10 Assessed tutorials 
Weighting: Total 10% 
This assessment supports CLOs 1-4

Assessment Task 2: Group Project
Weighting: 10%
This assessment supports CLOs 1-4

Assessment Task 3:Quizzes (5 quizzes)
Weighting: total 30%
This assessment supports CLOs 1-4

Assessment Task 4:Assignments (Mid-semester assignment and Final assignment)
Weighting 50% (25% per assignment)
This assessment supports CLOs 1-4

Description: Mid-semester assignment will cover topics taught till end of week 7 of the semester. Final assignment will cover topics taught during weeks 8-12 of the semester.