ENME203-20S2 (C) Semester Two 2020

Dynamics and Vibrations

15 points

Details:
Start Date: Monday, 13 July 2020
End Date: Sunday, 8 November 2020
Withdrawal Dates
Last Day to withdraw from this course:
  • Without financial penalty (full fee refund): Friday, 24 July 2020
  • Without academic penalty (including no fee refund): Friday, 25 September 2020

Description

Dynamics and kinematics of machine elements; derivations and fundamental analysis of equation of motion of single-degree-of-freedom systems; vibrations: free and forced vibrations (harmonic, periodic, quasi- and aperiodic), introduction to computational methods to solve differential equations (Euler, Newmark-Beta), multi-degree-of-freedom systems.

The course will equip students with in-depth knowledge in dynamics, vibrations, and kinematics as a fundamental element of Mechanical Engineering and a prerequisite to proposed streams in subsequent professional years.

Learning Outcomes

 Understanding of how to codify real-life observations (related to things in motion) with the help of mathematic-mechanical expressions.
 Ability to derive equations of motion of mechanical systems (machine elements and machines) by taught kinematic and dynamic methods.
 Ability to analyse mechanical systems for linear behaviour.
 Ability to independently apply methods and analysis to a wider and yet-unknown spectrum of real-life engineering problems.

University Graduate Attributes

This course will provide students with an opportunity to develop the Graduate Attributes specified below:

Critically competent in a core academic discipline of their award

Students know and can critically evaluate and, where applicable, apply this knowledge to topics/issues within their majoring subject.

Pre-requisites

Subject to the approval of the Dean of Engineering and Forestry

Timetable 2020

Students must attend one activity from each section.

Lecture A
Activity Day Time Location Weeks
01 Monday 17:00 - 18:00 C1 Lecture Theatre 13 Jul - 23 Aug
7 Sep - 18 Oct
Lecture B
Activity Day Time Location Weeks
01 Tuesday 16:00 - 18:00 A1 Lecture Theatre 13 Jul - 23 Aug
7 Sep - 18 Oct
Lecture C
Activity Day Time Location Weeks
01 Thursday 16:00 - 17:00 A1 Lecture Theatre 13 Jul - 23 Aug
7 Sep - 18 Oct
Computer Lab A
Activity Day Time Location Weeks
01 Monday 10:00 - 11:00 Civil - Mech E201 Mech Computer Lab 27 Jul - 2 Aug
14 Sep - 20 Sep
02 Tuesday 09:00 - 10:00 Civil - Mech E201 Mech Computer Lab 27 Jul - 2 Aug
14 Sep - 20 Sep
03 Friday 11:00 - 12:00 Civil - Mech E201 Mech Computer Lab 27 Jul - 2 Aug
7 Sep - 13 Sep
Drop in Class A
Activity Day Time Location Weeks
01-P1 Monday 15:00 - 17:00 Eng Core 222 & 223 Drawing Office
26 Oct - 1 Nov
01-P2 Tuesday 15:00 - 17:00 Eng Core 222 & 223 Drawing Office
19 Oct - 25 Oct
Drop in Class B
Activity Day Time Location Weeks
01 Friday 09:00 - 11:00 Rehua 005 19 Oct - 25 Oct
Drop in Class C
Activity Day Time Location Weeks
01 Thursday 10:00 - 12:00 Rehua 005 19 Oct - 25 Oct
Tutorial A
Activity Day Time Location Weeks
01 Thursday 11:00 - 13:00 Rehua 102 13 Jul - 23 Aug
7 Sep - 18 Oct
02 Wednesday 11:00 - 13:00 Rehua 009 13 Jul - 23 Aug
7 Sep - 18 Oct

Examination and Formal Tests

Test A
Activity Day Time Location Weeks
01 Friday 11:00 - 12:30 K1 Lecture Theatre 17 Aug - 23 Aug
02 Friday 11:00 - 12:30 C2 Lecture Theatre 17 Aug - 23 Aug
03 Friday 11:00 - 12:30 Rehua 103 Project Workshop 17 Aug - 23 Aug
04 Friday 11:00 - 12:30 A4 Lecture Theatre 17 Aug - 23 Aug

Course Coordinator / Lecturer

Stefanie Gutschmidt

Assessment

Assessment Due Date Percentage  Description
Project - Part 1 07 Aug 2020 10% Three parts of Project total 30%
Test 21 Aug 2020 30% 90 minute test, closed book
Project - Part 2 17 Sep 2020 10% Three parts of Project total 30%
Project - Part 3 07 Oct 2020 10% Three parts of Project total 30%
Final exam 40%

Textbooks / Resources

Recommended Reading

Hibbeler, R C; Engineering Mechanics - Statics and Dynamics; 14th; Pearson, 2016.

Inman, D J; Engineering Vibration; 3rd; Prentice Hall, 2008.

Meriam, J L. Kraige, L G; Engineering Mechanics; 6th; Wiley, 2007.

Moon, F. C; The machines of Leonardo da Vinci and Franz Reuleaux : kinematics of machines from the Renaissance to the 20th century; Springer, 2007.

Palm, W J; Mechanical Vibration; John Wiley, 2007.

Rao, S S; Mechanical Vibrations; 5th; Prentice Hall, 2011.

Software; The MathWorks Inc; Release 14; MATLAB Student-Version, 2004.

Steidel, Robert F; An introduction to mechanical vibrations; 3rd ed.; Wiley, 1989.

Wilson, Charles E. , Sadler, J. Peter; Kinematics and dynamics of machinery; 3rd ed; Pearson Education, 2003.

Additional Course Outline Information

Academic integrity

Harassment
* Harassment of any sort will not be tolerated.  Each UC student is here to learn and to experience a friendly and supportive community.
* It is every student's right to expect: respect and courtesy from staff and other students, including freedom from harassment of any sort; fair treatment; the ability to speak out about any issues that concern them, without fear of consequences for their safety and well-being.
* Furthermore, each student has the responsibility to: respect the rights and property of others; attend to their own health and safety, and that of others; and behave in a manner towards each other that does not reflect badly on the student body or the University.
* If you, or someone you know, has experienced harassment, please talk to your lecturers, directors of study, or head of department.


Dishonest Practice
* Plagiarism, collusion, copying, and ghost writing are unacceptable and dishonest practices.
* Plagiarism is the presentation of any material (test, data, figures or drawings, on any medium including computer files) from any other source without clear and adequate acknowledgment of the source.
* Collusion is the presentation of work performed in conjunction with another person or persons, but submitted as if it has been completed only by the named author(s).
* Copying is the use of material (in any medium, including computer files) produced by another person(s) with or without their knowledge and approval.
* Ghost writing is the use of another person(s) (with or without payment) to prepare all or part of an item submitted for assessment.

Do not engage in dishonest practices. The Department reserves the right to refer dishonest practices to the University Proctor and where appropriate to not mark the work.
The University regulations on academic integrity and dishonest practice can be found here.

Indicative Fees

Domestic fee $975.00

International fee $5,500.00

* Fees include New Zealand GST and do not include any programme level discount or additional course related expenses.

For further information see Mechanical Engineering.

All ENME203 Occurrences

  • ENME203-20SU2 (C) Summer Nov 2020 start - Not Offered
  • ENME203-20S2 (C) Semester Two 2020