Objectives of general skills

• Implement an engineering approach dealing with a set problem taking into account technical, economic and environmental constraints
• Implement a chosen solution in the form of a drawing, a schema, a plan, a model, a prototype, software and/or digital model
• Understand the theoretical and methodological fundamentals in science and engineering to solve problems involving these disciplines
• Select and rigorously apply knowledge, tools and methods in sciences and engineering to solve problems involving these disciplines
• Communicate in a structured way - both orally and in writing, in French and English - giving clear, accurate, reasoned information
• Use several methods of written and graphic communication: text, tables, equations, sketches, maps, graphs, etc.

UE's Learning outcomes

understand main methods used to describe curves, surfaces and volumes for engineering application (conical projection, axonometry, cylindrical projection and analytical modelling) understand technical drawing and use of standards (introduction to standardisation) easily use a computer aided design software to model complex shapes, produce technical drawing and perform surface rendering model complex surfaces (cylindrical, revolution, conic, ruled) using analytical geometry solve planar and spatial geometric problems using analytical geometry develop space vision competence and solve spatial problems

UE Content

descriptive geometry (cylindrical projections, axonometry, conical projection applied to 2D and 3D space including non-polyhedral volumes and technical drawing); analytic, vectorial and differential geometry; basis of computer graphics and surface rendering

Prior experience

basic of algebra, calculus, trigonometry and geometry tested during entrance examination

Term 1 for Integrated Assessment - type

• N/A

Term 2 for Integrated Assessment - type

• N/A

Term 3 for Integrated Assessment - type

• N/A

Resit Assessment for IT - Term 1 (B1BA1) - type

• N/A