- MEM30005A - Calculate force systems within simple beam structures
Unit of Competency Mapping – Information for Teachers/Assessors – Information for Learners
MEM30005A Mapping and Delivery Guide
Calculate force systems within simple beam structures
Version 1.0
Issue Date: June 2024
Qualification | - |
Unit of Competency | MEM30005A - Calculate force systems within simple beam structures |
---|---|---|---|
Description | This unit covers understanding and calculating force systems within simple beam structures. | ||
Employability Skills | This unit contains employability skills. | ||
Learning Outcomes and Application | This unit applies to solving simple engineering problems involving forces, moments and basic stress and strain calculations, and determining nominal sizes of simple beams subject to loading.Band: 0Unit Weight: 0 | ||
Duration and Setting | X weeks, nominally xx hours, delivered in a classroom/online/blended learning setting. |
||
Prerequisites/co-requisites | Path 1MEM30012A Apply mathematical techniques in a manufacturing engineering or related environment | ||
Competency Field | Engineering technician |
Development and validation strategy and guide for assessors and learners | Student Learning Resources | Handouts Activities |
Slides PPT |
Assessment 1 | Assessment 2 | Assessment 3 | Assessment 4 | |
---|---|---|---|---|---|---|---|---|
Elements of Competency | Performance Criteria | |||||||
Element: Determine the resultant and equilibrant of systems of coplanar forces |
| |||||||
Element: Determine nominal sizes for a simple horizontal beam subject to a combination of uniform and point loading |
|
Evidence Required
List the assessment methods to be used and the context and resources required for assessment. Copy and paste the relevant sections from the evidence guide below and then re-write these in plain English.
The evidence guide provides advice on assessment and must be read in conjunction with the performance criteria, required skills and knowledge, range statement and the Assessment Guidelines for the Training Package. | |
Overview of assessment | A person who demonstrates competency in this unit must be able to calculate force systems within simple beam structures. Competency in this unit cannot be claimed until all prerequisites have been satisfied. |
Critical aspects for assessment and evidence required to demonstrate competency in this unit | Assessors must be satisfied that the candidate can competently and consistently perform all elements of the unit as specified by the criteria, including required knowledge, and be capable of applying the competency in new and different situations and contexts. |
Context of and specific resources for assessment | This unit may be assessed on the job, off the job or a combination of both on and off the job. Where assessment occurs off the job, that is the candidate is not in productive work, then an appropriate simulation must be used where the range of conditions reflects realistic workplace situations. The competencies covered by this unit would be demonstrated by an individual working alone or as part of a team. The assessment environment should not disadvantage the candidate. This unit could be assessed in conjunction with any other units addressing the safety, quality, communication, materials handling, recording and reporting associated with calculating force systems within simple structures, or other units requiring the exercise of the skills and knowledge covered by this unit. |
Method of assessment | Assessors should gather a range of evidence that is valid, sufficient, current and authentic. Evidence can be gathered through a variety of ways including direct observation, supervisor's reports, project work, samples and questioning. Questioning techniques should not require language, literacy and numeracy skills beyond those required in this unit of competency. The candidate must have access to all tools, equipment, materials and documentation required. The candidate must be permitted to refer to any relevant workplace procedures, product and manufacturing specifications, codes, standards, manuals and reference materials. |
Guidance information for assessment |
Submission Requirements
List each assessment task's title, type (eg project, observation/demonstration, essay, assignment, checklist) and due date here
Assessment task 1: [title] Due date:
(add new lines for each of the assessment tasks)
Assessment Tasks
Copy and paste from the following data to produce each assessment task. Write these in plain English and spell out how, when and where the task is to be carried out, under what conditions, and what resources are needed. Include guidelines about how well the candidate has to perform a task for it to be judged satisfactory.
Required skills |
Look for evidence that confirms skills in: calculating and using trigonometry, transposition, algebraic formula drawing shear force and bending moment diagrams |
Required knowledge |
Look for evidence that confirms knowledge of: force and gravity the concept of force characteristics of force rectangular components of force graphical addition of forces mathematical addition of forces weight as force moment and torque moment of force addition of moments equilibrium of moments torque equivalent force moment systems statics equilibrium of coplanar forces conditions of equilibrium calculation of beam reactions (simply supported, point load, uniformly distributed load (UDL), self-weight) simple beams shear force and bending moment diagrams bending stress deflection by formulae stress and strain shear stress and strain allowable stress factors of safety |
The range statement relates to the unit of competency as a whole. It allows for different work environments and situations that may affect performance. Bold italicised wording, if used in the performance criteria, is detailed below. Essential operating conditions that may be present with training and assessment (depending on the work situation, needs of the candidate, accessibility of the item, and local industry and regional contexts) may also be included. | |
Copy and paste from the following performance criteria to create an observation checklist for each task. When you have finished writing your assessment tool every one of these must have been addressed, preferably several times in a variety of contexts. To ensure this occurs download the assessment matrix for the unit; enter each assessment task as a column header and place check marks against each performance criteria that task addresses.
Observation Checklist
Tasks to be observed according to workplace/college/TAFE policy and procedures, relevant legislation and Codes of Practice | Yes | No | Comments/feedback |
---|---|---|---|
Calculate the magnitude and direction of the resultant and equilibrant of coplanar force systems. | |||
Calculate the line of action of a resultant using the principle of Moment. | |||
Support reactions for a simply supported horizontal beam using the equations of equilibrium and including the moment effect of a couple are calculated. | |||
The possible types of failure that need to be considered are determined. | |||
Shear force and bending moment diagrams are drawn. | |||
Bending stress is determined. | |||
Calculations are completed to determine the nominal size for the beam. | |||
Factors of safety are applied to finalise nominal size of beam. |
Forms
Assessment Cover Sheet
MEM30005A - Calculate force systems within simple beam structures
Assessment task 1: [title]
Student name:
Student ID:
I declare that the assessment tasks submitted for this unit are my own work.
Student signature:
Result: Competent Not yet competent
Feedback to student
Assessor name:
Signature:
Date:
Assessment Record Sheet
MEM30005A - Calculate force systems within simple beam structures
Student name:
Student ID:
Assessment task 1: [title] Result: Competent Not yet competent
(add lines for each task)
Feedback to student:
Overall assessment result: Competent Not yet competent
Assessor name:
Signature:
Date:
Student signature:
Date: