Apply physics to solving electrotechnology engineering problems

Formats and tools

Unit Description
Reconstruct the unit from the xml and display it as an HTML page.
Assessment Tool
an assessor resource that builds a framework for writing an assessment tool
Assessment Template
generate a spreadsheet for marking this unit in a classroom environment. Put student names in the top row and check them off as they demonstrate competenece for each of the unit's elements and performance criteria.
Assessment Matrix
a slightly different format than the assessment template. A spreadsheet with unit names, elements and performance criteria in separate columns. Put assessment names in column headings to track which performance criteria each one covers. Good for ensuring that you've covered every one of the performance criteria with your assessment instrument (all assessement tools together).
Wiki Markup
mark up the unit in a wiki markup codes, ready to copy and paste into a wiki page. The output will work in most wikis but is designed to work particularly well as a Wikiversity learning project.
Evidence Guide
create an evidence guide for workplace assessment and RPL applicants
Competency Mapping Template
Unit of Competency Mapping – Information for Teachers/Assessors – Information for Learners. A template for developing assessments for a unit, which will help you to create valid, fair and reliable assessments for the unit, ready to give to trainers and students
Observation Checklist
create an observation checklist for workplace assessment and RPL applicants. This is similar to the evidence guide above, but a little shorter and friendlier on your printer. You will also need to create a seperate Assessor Marking Guide for guidelines on gathering evidence and a list of key points for each activity observed using the unit's range statement, required skills and evidence required (see the unit's html page for details)

Self Assessment Survey
A form for students to assess thier current skill levels against each of the unit's performance criteria. Cut and paste into a web document or print and distribute in hard copy.
Moodle Outcomes
Create a csv file of the unit's performance criteria to import into a moodle course as outcomes, ready to associate with each of your assignments. Here's a quick 'how to' for importing these into moodle 2.x
Registered Training Organisations
Trying to find someone to train or assess you? This link lists all the RTOs that are currently registered to deliver UEENEEE082A, 'Apply physics to solving electrotechnology engineering problems'.
Google Links
links to google searches, with filtering in place to maximise the usefulness of the returned results
Books
Reference books for 'Apply physics to solving electrotechnology engineering problems' on fishpond.com.au. This online store has a huge range of books, pretty reasonable prices, free delivery in Australia *and* they give a small commission to ntisthis.com for every purchase, so go nuts :)


Elements and Performance Criteria

ELEMENT

PERFORMANCE CRITERIA

1

Prepare to apply physics to developing solutions to electrotechnology related problems.

1.1

OHS procedures for a given work area are identified, obtained and understood.

1.2

OHS risk control work preparation measures and procedures are followed.

1.3

The nature of the problem is obtained and understood from documentation or from work supervisor.

1.4

Problems are clearly stated in writing and/or diagrammatic form to ensure they are understood and appropriate methods used to resolve them.

1.5

Equipment and testing devices needed to develop solutions to problems are obtained and checked for correct operation and safety

2

Apply the laws of physics to developing solutions to electrotechnology problems.

2.1

OHS risk control work measures and procedures are followed.

2.2

Tests and measurements are undertaken in strict accordance with OHS requirements and within established safety procedures.

2.3

Knowledge of laws of physics are drawn to develop resolutions problems in static and dynamics including tests and measurements and interpreting their results.

2.4

Theoretical and measured values are applied to developing solutions to problems in static and dynamics

2.5

Consideration is given to adverse effects in the developed solutions of problems

2.6

Unexpected situations are dealt with safely and with the approval of an authorised person.

3

Report solutions of problems in static and dynamics

3.1

Proposed solutions to electrotechnology problems are documented with science based justification for the solutions..

3.2

Known adverse effects and outcome of developed solution are included in the report

3.3

Solution report is forwarded to the and appropriate person notified in accordance with established procedures


Qualifications and Skillsets

UEENEEE082A appears in the following qualifications:

  • UEE62311 - Advanced Diploma of Electrical Engineering - Coal Mining
  • UEE62211 - Advanced Diploma of Electrical - Engineering
  • UEE60411 - Advanced Diploma of Computer Systems Engineering
  • UEE60611 - Advanced Diploma of Industrial Electronics and Control Engineering
  • UEE60911 - Advanced Diploma of Renewable Energy Engineering
  • UEE61111 - Advanced Diploma of Automated Systems Maintenance Engineering
  • UEE61211 - Advanced Diploma of Engineering - Explosion protection
  • UEE61511 - Advanced Diploma of Instrumentation and Control Engineering
  • UEE61711 - Advanced Diploma of Engineering Technology - Electronics
  • UEE61811 - Advanced Diploma of Engineering Technology - Computer Systems
  • UEE62011 - Advanced Diploma of Engineering Technology - Renewable Energy
  • UEE62111 - Advanced Diploma of Engineering Technology - Electrical
  • UEE63011 - Advanced Diploma of Electrical Systems Engineering