Volumes horaires
- CM 6.0
- Projet 0
- TD 6.0
- Stage 0
- TP 0
Crédits ECTS
Crédits ECTS 1.0
Objectif(s)
- Galilean Transformation : Principle of Galilean Relativity, Electrodynamics and Galilean Relativity.
- Lorentz Transformations : Postulates of relativity, Lorentz Contraction, Time dilation, proper time, Transformation of Particle velocities
- Relativistic Mechanics : Momentum and Energy, Doppler shift, Scattering Kinematics.
- Motion of a Particle in a field.
- Lorentz transformation in 4-dim space-time, Light Cone formalisme.
- Lorentz Boost Transformation, vectors, tensors.
- Four-velocity, Minkowski force.
- Covariant form of electrodynamics : Electromagnetic Field Tensor, Lorentz transformation of E and B, em field of a moving charge, Covariant form of Maxwell’s equations.
- Relativistic equation of motion for Spin.
- Introduction to space-time groups and their representation.
- Introduction to Riemannien Geometry and curved Space time.
Contenu(s)
Prérequis
Contrôle des connaissances
Semestre 5 - L'examen existe en français et en anglais 
Informations complémentaires
Semestre 5 - Le cours est donné uniquement en anglais
Cursus ingénieur->Cursus Internationaux->Semestre 5