Objectives of Programme's Learning Outcomes

• Implement an engineering approach dealing with a set problem taking into account technical, economic and environmental constraints
• Understand the stages of an engineering approach
• Identify and describe the problem to be solved and the functional need (of prospective clients) to be met considering the state of technology
• Design, evaluate and optimise solutions addressing the problem
• Implement a chosen solution in the form of a drawing, a schema, a plan, a model, a prototype, software and/or digital model
• Communicate the approach, results and prospects to a client or a board
• Identify and acquire the information and skills needed to solve the problem
• Understand the theoretical and methodological fundamentals in science and engineering to solve problems involving these disciplines
• Identify, describe and explain basic scientific and mathematical principles
• Identify, describe and explain the basic principles of engineering particularly in their specialising field
• Understand laboratory techniques: testing, measuring, monitoring protocol, and security
• Select and rigorously apply knowledge, tools and methods in sciences and engineering to solve problems involving these disciplines
• Collaborate, work in a team
• Interact effectively with other students to carry out collaborative projects.
• Analyse personal performance within a group
• Identify and appropriately implement the different ways of working in a group
• Communicate in a structured way - both orally and in writing, in French and English - giving clear, accurate, reasoned information
• Argue to and persuade customers, teachers and a board both orally and in writing
• Use several methods of written and graphic communication: text, tables, equations, sketches, maps, graphs, etc.
• Present analysis or experiment results in laboratory reports
• Demonstrate thoroughness and independence throughout their studies
• Identify the different fields and participants in engineering
• Demonstrate self-awareness, asses themself, and develop appropriate learning strategies.
• Direct their choice of modules within their degree programme in order to develop a career plan in line with the realities in the field and their profile (aspirations, strengths, weaknesses, etc.)

Learning Outcomes of UE

Produce mechanical engineering drawings according to standards. 
Apply dimensioning and tolerancing.
Understand the methods of representation of comples curves, complex surfaces and complex volumes in CAD.
Use Solid Works to model parts in 3D, to build assemblies and to generate 2D drawings. 
Define and apply measurement procedures to control that a mechanical part has been manufactured according to geometrical specifications 
Practice dimensional measurements. 
Evaluate measurement uncertainty.

Content of UE

Technical drawing: general principles of presentation, views, sections, threaded elements, dimensioning, tolerancing, functional dimensioning, bill of materials.  
Additional basics of Computer Aided Design.
Dimensional metrology: language of dimensional measurement, principle for geometrical tolerancing, envelope requirement, maximum material requirement, dimensional metrology instruments, inspection of geometrical deviations, measurement uncertainty.

Prior Experience

Geometry; graphical methods; computer graphics.

Type of Assessment for UE in Q1

• Presentation and works
• Written examination
• Practical test
• Quoted exercices

Q1 UE Assessment Comments

The evaluation is based on the results of the :
- technical drawing exercises (5%) ;
- quoted exercices (5%);
- Solid Works laboratories (10%) ;
- dimensional metrology laboratories (15%) ;
- written examination organized during the regular examination period (65%).
The maximum length of the written examination is 4 hours.

Type of Assessment for UE in Q2

• N/A

Q2 UE Assessment Comments

Not applicable

Type of Assessment for UE in Q3

• Presentation and works
• Written examination
• Practical Test
• Quoted exercices

Q3 UE Assessment Comments

Idem Term 1 examination period if the results of the technical drawing exercises, Solid Works laboratories, dimensional metrology laboratories are globally higher than or equal to 10/20. 
If not, only the results of the written examination are taken into account.
The maximum length of the written examination is 4 hours.

Type of Resit Assessment for UE in Q1 (BAB1)

• N/A

Q1 UE Resit Assessment Comments (BAB1)

Not applicable