Mechanical Engineering
- Admission : /en/education/bachelor/mechanical-engineering/admission/
- Structure of studies : /en/education/bachelor/mechanical-engineering/structure-of-studies/
- Study program : /en/education/bachelor/mechanical-engineering/study-program/
- Career perspectives : /en/education/bachelor/mechanical-engineering/career-perspectives/
- Exchange programs : /en/education/bachelor/mechanical-engineering/exchange-programs/
- People : /en/education/bachelor/mechanical-engineering/people/
- Admission : /en/education/bachelor/mechanical-engineering/admission/
- Structure of studies : /en/education/bachelor/mechanical-engineering/structure-of-studies/
- Study program : /en/education/bachelor/mechanical-engineering/study-program/
- Career perspectives : /en/education/bachelor/mechanical-engineering/career-perspectives/
- Exchange programs : /en/education/bachelor/mechanical-engineering/exchange-programs/
- People : /en/education/bachelor/mechanical-engineering/people/
Study program
Department:
Mechanical Engineering
Specialization:
Plastics and lightweight structures
Module: Advanced mathematics and physics 1
Course description
Back-
Objectives
- Connaissances et maîtrise des outils de base nécessaires à la compréhension des cours techniques.
- Capacité d'analyse d'un problème et choix de la méthode de résolution appropriée.
- Capacité de distinction des cas et connaissance des limites de l'applicabilité d'une procédure.
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Content
Equations différentielles:
- Equations différentielles d'ordre 1.
- Equations différentielles linéaires d'ordre 2 à coefficients constants.
- Résolution par la transformée de Laplace
Fonctions réelles de plusieurs variables:
- Représentations graphiques des fonctions à 2 variables (surfaces et courbes de niveaux).
- Points stationnaires, vecteur normal, plans tangents, notion d'accroissement et différentielle, optimisation.
Type of teaching and workload
Lecture course (including exercises)
64 periods
Course specification
Year of validity
2025-2026
Weight
2nd year
Semester
Autumn
Program
French,Bilingual
Department
Mechanical Engineering
Language of instruction
German
ID
B2C-ANA3-M
Level
Advanced
Course type
Core
Study program
Bachelor
Evaluation methods
- Continuous assessment Written work
Course grade calculation method
The continuous assessment mark is the weighted average of the courses evaluations.
Reference work
- L. Amyotte, Introduction au calcul avancé et à ses applications en sciences, ERPI, ISBN: 2-7613-1557-X
- D. W. Jordan, P. Smith, Mathematical techniques. An introduction for engineering, physical, and mathematical sciences, Oxford, ISBN: 0-19-924972-5
- James Stewart, Analyse concepts et contextes, Vol. 1, de Boeck, ISBN 978-2-8041-6306-8
- James Stewart, Analyse concepts et contextes, Vol. 2, de Boeck, ISBN 978-2-8041-6327-3
Intructor(s) and/or coordinator(s)
Corinne Hager Jörin, Roseline Nussbaumer, Micha Wasem