Course Title: Identify affects of energy on machinery and materials in an electrotechnology environment

Part B: Course Detail

Teaching Period: Term2 2009

Course Code: EEET6782C

Course Title: Identify affects of energy on machinery and materials in an electrotechnology environment

School: 130T Vocational Engineering

Campus: City Campus

Program: C6085 - Advanced Diploma of Electrical - Technology

Course Contact: Program Manager

Course Contact Phone: +61 3 9925 4468

Course Contact Email: engineering-tafe@rmit.edu.au


Name and Contact Details of All Other Relevant Staff

Abhijit Date

+61 3 9925 4423

abhijit.date@rmit.edu.au


Elmas Aliu

+(61 3) 9925 4360

elmas.aliu@rmit.edu.au

Ganesh Naik

+(61 3) 9925 4252

ganesh.naik@rmit.edu.au

Nominal Hours: 120

Regardless of the mode of delivery, represent a guide to the relative teaching time and student effort required to successfully achieve a particular competency/module. This may include not only scheduled classes or workplace visits but also the amount of effort required to undertake, evaluate and complete all assessment requirements, including any non-classroom activities.

Pre-requisites and Co-requisites

None

Course Description

This unit covers effects of energy on machinery and/or materials used in an Electrotechnology environment are identified and completed in an agreed time, to a quality standard and using appropriate technology mediums, where required. It encompasses working safely, applying knowledge of identifying the effects of energy on machinery and materials in an electrotechnology environment


National Codes, Titles, Elements and Performance Criteria

National Element Code & Title:

UEENEEE046B Identify affects of energy on machinery and materials in an electrotechnology environment

Element:

1. Prepare to identify effects of energy on machinery and materials.
2. Identify effects of energy on machinery and materials.
3. Check results of the effects of energy on machinery and materials.

Performance Criteria:


1. Prepare to identify effects of energy on machinery and materials.

1.1 Instructions for identifying effects of energy on machinery or materials are communicated and confirmed to ensure clear understanding.
1.2 OHS policies and procedures are communicated and confirmed to ensure they are understood as they apply to the carrying out of the work.
1.3 Tools, equipment and personnel protective equipment necessary for the work are identified, scheduled and checked to ensure they work correctly as intended and are safe to use in accordance with established procedures.
1.4 Appropriate personnel are consulted to ensure effects of energy on machinery or materials are identified and coordinated effectively with others involved.
1.5 Resources and materials needed to do the work are confirmed, scheduled and obtained in accordance with established procedures.
1.6 Schedule for identifying effects of energy on machinery or materials including practices for working safely are confirmed in accordance with instructions and requirements.

2. Identify effects of energy on machinery and materials.

2.1 OHS policies and procedures and safe workpractices are followed to eliminate or minimize incidents.
2.2 Schedule for identifying effects of energy on machinery or materials work is followed to ensure work is completed in an agreed time, to a qualitystandard and with a minimum of waste.
2.3 Further instructions are sought from appropriate personnel in the event of unplanned happenings or conditions.
2.4 Ongoing checks of work quality are undertaken in accordance with instructions and requirements.

3. Check results of the effects of energy on machinery and materials

3.1 Final checks are made to ensure the effects of energy on machinery or materials as identified conforms with instructions and to requirements.
3.2 Appropriate personnel are notified of completion of the computations. Check results of the effects of energy on machinery and materials.
3.3 Tools, equipment and any surplus resources and materials are, where appropriate, cleaned, checked and returned to storage in accordance with established procedures.
3.4 Work area is cleaned up and made safe and sustainable energy practices are followed.
3.5 Appropriate records are updated in accordance with instructions and established procedures.


Learning Outcomes



Details of Learning Activities

Classroom learning activities involve the following topics from the Applied Physiscs:

  • Electromagnetism
  • Motion
  • Light and matter
  • Atoms and nuclei
  • Heating

Simulated work activities to consolidate the theory and concepts in relation to identifying effects of energy on machinery and materials in electrotechnology environment.

It is expected that students would require approximately 20% of course hours to be allocated for independent study to do project research on effects of energy on machinery and materials in an electrotechnology environment.


Teaching Schedule

WeekTopic DeliveredAssessment Task
1Introduction to Effects of energy on machinery  
2Electromagnetism Task 1-a
3Motion, Force, Units, Linear motion  
4Force units and measurements  
5Motion and Displacement measurements Task 1-b
6Power and efficiency Task 1- c
7Light and matter  
8Lighting units  
9Lighting sources  
10Required Lux levels for activities Task 2
11Atoms  
12Atoms and nuclei  
13Energy effects on el. Insulation  
14Heat transfer Task 1-d
15Heat effects on Machinery  
16Revision  
17Assessment Task 3
18Assessment Feedback 


Learning Resources

Prescribed Texts


References


Other Resources

Serway “Principles of Physiscs”

Jacob Fraden Handbook of Modern Sensors: Physics, Designs, and Applications (Handbook of Modern Sensors) By, Publisher: Springer, Publication Date: 2003-12-04, ISBN / ASIN: 0387007504

Electronic book version is available on local student drive.

Power and efficiency , RMIT: AV 621. 3. P887 Topics: Efficiency in: Power Production, Transport, Transmission, Consumption, Inefficiency, Light Bulb, ,Fluorescent Bulb.

http://www.phys.unsw.edu.au/hsc/hsc/electrical.html

http://www.phys.unsw.edu.au/hsc/hsc/weblinks.html

RMIT online learning resources are located on RMIT Online Learning Hub.

Follow the link to log in http://www.rmit.edu.au

The Learning Hub ( Blackboard) is the central point of access to the online courses in which students are registered.


Overview of Assessment

This course will be assessed through a range of practical exercises, assignments and progressive tests.


Assessment Tasks

Assessment task 1 (Practical exercises and demonstration in simulated workplace): 20%

e.g. Practical exercises on load effects on machine power and efficiency

Assessment task 2 (Assignment ): 40%

Written assignment to demonstrate an understanding of effects of energy on machinery and materials in an electrotechnology environment

Assessment task 3 (written assessment): 40%

Written test to demonstrate knowledge and understanding of Applied Physics concepts involving: motion, light and matter, atoms and heating.


Assessment Matrix

 
                                                   Assessment Types
Competency National CodeCompetency Title Assessment Types Lab            Assignment    Project/Presentation       Test      Industrial Practice
 UEENEEE046B  Identify effects of energy on machinery and materials in an electrotechnology environment X  

Course Overview: Access Course Overview