Course Title: Apply engineering mechanics principles
Part B: Course Detail
Teaching Period: Term2 2016
Course Code: MIET7548C
Course Title: Apply engineering mechanics principles
School: 130T Vocational Engineering
Campus: City Campus
Program: C6130 - Advanced Diploma of Engineering (Mechanical)
Course Contact: Program Manager
Course Contact Phone: +61 3 9925 4468
Course Contact Email: email@example.com
Name and Contact Details of All Other Relevant Staff
Phone: +61 3 9925 4661
Appointment by email
Nominal Hours: 60
Pre-requisites and Co-requisites
MEM23004A Apply technical mathematics
This unit of competency covers the application of mechanics and strength of materials principles to devices, machines and systems and their components in order to identify key mechanical properties. It includes a range of basic analyses of static and dynamic loads and moments, stresses and deflections, velocities and accelerations.
National Codes, Titles, Elements and Performance Criteria
National Element Code & Title:
MEM23109A Apply engineering mechanics principles
1. Identify scope of required analysis
1.1 Identify device, machine or system and component parts for analysis.
1.2 Assess engineering mechanics principles, skills and techniques required by tasks.
1.3 Review functions and features of devices, machines and systems.
1.4 Assess software techniques required for basic analysis and graphics required by the task.
1.5 Identify stakeholders to be consulted on analysis tasks.
1.6 Confirm work health and safety (WHS) and regulatory requirements, risk management and organisational procedures.
1.7 Review sustainability implications of tasks.
1.8 Determine available sources for any required technical and professional assistance.
2. Apply engineering mechanics principles and techniques to tasks
2.1 Identify appropriate engineering mechanics principles and analytical, graphical and software-assisted techniques applicable to task.
2.2 Validate software results using analytical and graphical methods.
2.3 Ensure clear and logical process of analysis and compatibility of units in calculations.
2.4 Apply resultant loads and reactions on machines, support frames and beams due to parallel and oblique, concentrated and distributed loads and moments.
2.5 Apply the torque and power required to drive translation screws and winding drums against inclined and vertically suspended loads subject to gravitation, acceleration and friction resistance loads.
2.6 Select a range of standard hardware to meet specifications.
2.7 Analyse bending and shear stresses in beams subject to static point and distributed loads.
3. Report results
3.1 Record results of investigation, evaluation and application.
3.2 Provide documentation, such as calculations, diagrams, programs and files.
Refer to Elements
Details of Learning Activities
You will involve in the following learning activities to meet requirements for the three clustered competencies (MIET7548C, MEM30005A, MEM30006A ) and stage 1 competencies for Engineering Associates
• Laboratory practicals
This course is delivered in a cluster in conjunction with MATH5335C & MATH5336C. You must enrol in all three courses delivered in this cluster. All the learning and assessment activities will include the components of all competencies MIET7548C, MATH5335C & MATH5336C.
Elements and Performance Criteria for (MATH5335C) MEM30005A Calculate force systems within simple beam structures:
1. Determine the resultant and equilibrant of systems of coplanar forces
1.1. Calculate the magnitude and direction of the resultant and equilibrant of coplanar force systems
1.2. Calculate the line of action of a resultant using the principle of Moment
2. Determine nominal sizes for a simple horizontal beam subject to a combination of uniform and point loading
2.1. Support reactions for a simply supported horizontal beam using the equations of equilibrium and including the moment effect of a couple are calculated
2.2. The possible types of failure that need to be considered are determined
2.3. Shear force and bending moment diagrams are drawn
2.4. Bending stress is determined
2.5. Calculations are completed to determine the nominal size for the beam
2.6. Factors of safety are applied to finalise nominal size of beam
Elements and Performance Criteria for (MATH5336C) MEM30006A Calculate stresses in simple structures:
1. Determine stresses in simple structures and mechanical components
1.1. The shear stresses in simple bolted connections are determined
1.2. The nominal weld size or length of weld required on simple welded connections is determined to meet load requirements
1.3. Torque distribution diagrams are drawn and used to calculate torsional shear stress and angle of twist on threaded bolts subjected to torques
2. Verify stress levels using appropriate reference material
2.1. Appropriate reference materials are used to verify that stress loading is acceptable and in accordance with standard operational procedures
2.2.Verification results are reported according to standard operational procedures
Engineers Australia Mapping Information:
This course and other two clustered competencies are mapped against stage 1 competencies for Engineering Associates developed by Engineers Australia as detailed below:
EA 1. Knowledge and Skill Base
EA1.1. Comprehensive, theory based understanding of the underpinning natural and physical sciences and the engineering fundamentals applicable to the engineering
EA1.2. Conceptual understanding of the, mathematics, numerical analysis, statistics, and computer and information sciences which underpin the engineering discipline.
EA1.3. In-depth understanding of specialist bodies of knowledge within the engineering discipline.
EA1.4. Discernment of knowledge development and research directions within the engineering discipline.
EA1.5. Knowledge of contextual factors impacting the engineering discipline.
EA1.6. Understanding of the scope, principles, norms, accountabilities and bounds of contemporary engineering practice in the specific discipline.
EA 2. Engineering Application Ability
EA2.1. Application of established engineering methods to complex engineering problem solving.
EA2.2. Fluent application of engineering techniques, tools and resources.
EA2.3. Application of systematic engineering synthesis and design processes.
EA2.4. Application of systematic approaches to the conduct and management of engineering projects.
EA 3. Professional and Personal Attributes
EA3.1. Ethical conduct and professional accountability.
EA3.2. Effective oral and written communication in professional and lay domains.
EA3.3. Creative, innovative and pro-active demeanour.
EA3.4. Professional use and management of information.
EA3.5. Orderly management of self and professional conduct.
EA3.6. Effective team membership and team leadership.
Engineers Australia Stage 1 Competencies are mapped with cluster of competencies MEM23109A, MEM30005A, MEM30006A in the Assessment Matrix.
The proposed teaching schedule for the 3 clustered competencies MIET7548C, MATH5335C and MATH5336C is detailed below:
|Week||Topic Delivered||Elements / Performance Criteria|
Introduction to course, course guide, assessments, topics breakdown, resources, equipment (in the lab) & OHS issues. Review functions and features of devices, machines and systems.
|MEM23109A: 1.1, 1.3, 1.5 - 1.8, 3.1, 3.2|
|2||Kinematics of linear motion.||MEM23109A: 1.4, 2.1 – 2.3|
|3||Kinematics of circular motion. Portfolio Ex. 1 due.||MEM23109A: 1.4, 2.1 – 2.3|
|4||Kinetics of linear motion. Newton Laws.||MEM23109A: 1.4, 2.1 – 2.3|
|5||Kinetics of circular motion.||MEM23109A: 1.4, 2.1 – 2.3|
|6||Work and energy. Power. Portfolio Ex. 2 due.||MEM23109A: 1.4, 2.1 – 2.3|
|7||Torque. Rotational power.||MEM23109A: 1.4, 2.1 – 2.3|
|8||Rotational power. Moment of Inertia.||MEM23109A: 1.4, 2.1 – 2.3|
|9||Freely falling objects. Projectile motion. Portfolio Ex. 3 due.||MEM23109A: 1.4, 2.1 – 2.3|
|10||Simple machines.||MEM23109A: 1.4, 2.1 – 2.3|
|11||Momentum.||MEM23109A: 1.4, 2.1 – 2.3|
MEM23109A: 1.4, 2.1 – 2.3 MEM30005A
|13||Friction. Angle of friction.Portfolio ex. 4 due.||MEM23109A: 1.4, 2.1 – 2.3 MEM30005A|
Friction on inclined planes.
Lab practical 1 performed
|MEM23109A: 1.4, 2.1 – 2.3 MEM30005A|
|15||Revision. Finalising the assessment||
MEM23109A: 1.1, 1.5 – 1.8, 2.1 – 2.3, 3.1, 3.2; MEM30005A:1.1
Lab report 1 due.
|MEM23109A: 1.4, 2.1 – 2.3 MEM30005A|
|17||Assessment feedback.||MEM23109A: 1.1, 1.5 – 1.8, 2.1 – 2.3, 3.1, 3.2; MEM30005A:1.1|
|18||Online Test / Student Feedback||MEM23109A: 1.1, 1.5 – 1.8, 2.1 – 2.3, 3.1, 3.2; MEM30005A:1.1|
Student directed hours involve completing activities such as reading online resources, assignments, individual student-teacher course-related consultation. Students are required to self-study the learning materials and complete the assigned out of class activities for the scheduled non-teaching hours. The estimated time is 30 hours outside the class time.
Roger Kinsky. Engineering Mechanics and Strength of Materials. McGraw-Hill
Students will be able to access information and learning materials through myRMIT and may be provided with additional materials in class. List of relevant reference books, resources in the library and accessible Internet sites will be provided where possible. During the course, you will be directed to websites to enhance your knowledge and understanding of difficult concepts.
Overview of Assessment
The assessment is conducted in both theoretical and practical aspects of the course according to the performance criteria set in the National Training Package. Assessment may incorporate a variety of methods including written/oral activities and demonstration of practical skills to the relevant industry standards. Participants are advised that they are likely to be asked to personally demonstrate their assessment activities to their teacher/assessor. Feedback will be provided throughout the course. To successfully complete this course you will be required to demonstrate competency in each assessment task detailed under Assessment Tasks:
Assessment 1: Portfolio exercises
Weighting towards final grade (%): 30
Assessment 2: Laboratory practical report
Weighting towards final grade (%): 20
Assessment 3: Online Test
Weighting towards final grade (%): 50
These tasks assesses the following Course Learning Outcomes (CLOs):
Assessment Mapping Matrix
|Elements/Performance Criteria||Portfolio exercises||Lab practical||Online Test|
Assessment 1: Portfolio exercises, Week 3-13
Weighting towards final grade (%): 30%
Assessment 2: Laboratory practical report, Due week 16
Weighting towards final grade (%): 20%
Assessment 3: Online test, Week 18
Weighting towards final grade (%): 50%
All Assignments will go through Academic Integrity Check software TurnItIn. One student of a group will have account created for this software and must submit the group report by 5 pm on Due Week through TurnItIn. Please also refer to the marking guide for more detail information about all assessments.
This course is graded as Competent or Not Yet Competent and subsequently the following course grades are allocated:
80 - 100: CHD - Competent with High Distinction
70 - 79: CDI - Competent with Distinction
60 - 69: CC - Competent with Credit
50 - 59: CAG - Competency Achieved - Graded
0 - 49: NYC - Not Yet Competent
DNS - Did Not Submit for Assessment
Assessment vs MEM23109A Elements & Performance Criteria
|MEM23109A Elements & Performance Criteria|
Assessment vs MEM30005A Elements & Performance Criteria
|MEM30005A Elements & Performance Criteria|
Assessment vs MEM30006A Elements & Performance Criteria
|MEM30006A Elements & Performance Criteria|
Assessment vs Engineers Australia Stage 1 Competencies
|Engineers Australia Stage 1 Competencies|
|0 (Blank)||Graduate attribute is not assessed|
|1||Graduate attribute is assessed in at least one, but less than one-third of the Element|
|2||Graduate attribute is assessed in at least one third, but less than two-thirds of the Element|
|3||Graduate attribute is assessed in more than two-thirds of the Element|
Credit Transfer and/or Recognition of Prior Learning (RPL):
You may be eligible for credit towards courses in your program if you have already met the learning/competency outcomes through previous learning and/or industry experience. To be eligible for credit towards a course, you must demonstrate that you have already completed learning and/or gained industry experience that is:
• Satisfies the learning/competency outcomes of the course
Please refer to http://www.rmit.edu.au/students/enrolment/credit to find more information about credit transfer and RPL.
Study and Learning Support:
Study and Learning Centre (SLC) provides free learning and academic development advice to you. Services offered by SLC to support your numeracy and literacy skills are:
- Assignment writing, thesis writing and study skills advice
- Maths and science developmental support and advice
- English language development
Please refer http://www.rmit.edu.au/studyandlearningcentre to find more information about Study and learning Support.
Disability Liaison Unit:
If you are suffering from long-term medical condition or disability, you should contact Disability Liaison Unit to seek advice and support to complete your studies.
Please refer http://www.rmit.edu.au/disability to find more information about services offered by Disability Liaison Unit.
If you require an Extension of Submittable Work (assignments, reports or project work etc.) for 7 calendar days or less (from the original due date) and have valid reasons, you must complete and lodge an Application for Extension of Submittable Work (7 Calendar Days or less) form and lodge it with the Senior Educator/ Program Manager.
The application must be lodged no later than one working day before the official due date. You will be notified within no more than 2 working days of the date of lodgement as to whether the extension has been granted.
If you seek an Extension of Submittable Work for more than 7 calendar days (from the original due date) must lodge an Application for Special Consideration form under the provisions of the Special Consideration Policy, preferably prior to, but no later than 2 working days after the official due date.
Submittable Work (assignments, reports or project work etc.) submitted late without approval of an extension will not be accepted or marked.
Please refer http://www.rmit.edu.au/students/specialconsideration to find more information about special consideration.
Plagiarism is a form of cheating and it is very serious academic offence that may lead to expulsion from the University.
Please refer: http://www.rmit.edu.au/academicintegrity to find more information about plagiarism.
All email communications will be sent to your RMIT email address and you must regularly check your RMIT emails.
Course Overview: Access Course Overview