Computer science and communication systems
- Admission : /en/education/bachelor/computer-science-and-communication-systems/admission/
- Study program : /en/education/bachelor/computer-science-and-communication-systems/study-program/
- Structure of studies : /en/education/bachelor/computer-science-and-communication-systems/structure-of-studies/
- Career perspectives : /en/education/bachelor/computer-science-and-communication-systems/career-perspectives/
- Exchange programs : /en/education/bachelor/computer-science-and-communication-systems/exchange-programs/
- People : /en/education/bachelor/computer-science-and-communication-systems/people/
- Admission : /en/education/bachelor/computer-science-and-communication-systems/admission/
- Study program : /en/education/bachelor/computer-science-and-communication-systems/study-program/
- Structure of studies : /en/education/bachelor/computer-science-and-communication-systems/structure-of-studies/
- Career perspectives : /en/education/bachelor/computer-science-and-communication-systems/career-perspectives/
- Exchange programs : /en/education/bachelor/computer-science-and-communication-systems/exchange-programs/
- People : /en/education/bachelor/computer-science-and-communication-systems/people/
Study program
Department:
Computer science and communication systems
Specialization:
Data Engineering
Module: Mathematics IT
Course description
Back-
Objectives
A la fin du cours, l'étudiant sait:
- Expliquer les principes de base régissant un phénomène physique observé.
- Mesurer les grandeurs physiques décrivant un phénomène physique observé.
- Elaborer un modèle simple d'un système physique observé et en calculer les paramètres.
- Est familiarisé et sait appliquer les principes de conservation
- Est capable de calculer et de modéliser des systèmes cinématiques
- Connaît et sait résoudre des problèmes d'oscillation avec ou sans atténuation.
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Content
- Cinématique de translation et de rotation
- Lois de Newton, forces de gravitation, élastiques, de frottement, de trainée
- Travail, énergies cinétiques, potentielles et mécaniques, conservation de l'énergie
- Quantité de mouvement, conservation de la quantité de mouvement
- Oscillations libres, amorties et forcées, phénomènes de résonance
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
Computer science and communication systems
Language of instruction
German
ID
B2C-PHY1-S
Level
Intermediate
Course type
Related
Study program
Bachelor
Evaluation methods
- Continuous assessment Written work
Reference work
- Physique 3, Ondes, optique et physique moderne, Harris Benson
- Physique 3, solutions et corrigé des problèmes, Harris Benson
- Physique, Eugène Hecht
Intructor(s) and/or coordinator(s)
Jean-Marie Antonietti, Corinne Hager Jörin, Nicolas Muller