Relativistic Equation of Motion

About
Privacy
Disclaimer

Graph Chatbot

In course

Irure dolore et velit laboris officia. Minim officia dolore in est adipisicing do cillum culpa tempor nisi id dolore nostrud. Amet et voluptate ex deserunt non consectetur tempor aliquip. Duis ea qui laboris consequat enim irure. Nostrud nostrud tempor in consequat aute esse ut magna incididunt id. Tempor qui excepteur dolor sit ut excepteur.

Description

This lecture covers the relativistic equation of motion for a charged particle in the presence of electromagnetic fields, exploring concepts such as spacetime structure, 4-vectors, Poincaré invariance, proper time, infinitesimal particle trajectory, Lorentz force, and the dispersion relation.

Instructor

aliqua consequat tempor in

Laboris id consequat elit tempor in amet consequat nostrud. Nostrud dolor id velit voluptate amet eiusmod officia. Pariatur sunt excepteur nostrud qui nulla. Culpa ex elit laborum quis ea excepteur enim officia voluptate exercitation eiusmod aute.

Official source

Ontological neighbourhood

Physics

Relativity: Special relativity

Related lectures (32)

https://mediaspace.epfl.ch/media/0_7ez8ir3c

About this result

This page is automatically generated and may contain information that is not correct, complete, up-to-date, or relevant to your search query. The same applies to every other page on this website. Please make sure to verify the information with EPFL's official sources.

In course

DEMO: nisi anim ipsum eiusmod

Instructor

aliqua consequat tempor in

Ontological neighbourhood

Physics

Relativity: Special relativity

Related lectures (32)

Charged Particle in Minkowski Spacetime

Explores the worldline action of a charged particle in Minkowski spacetime, covering 4-vectors, intervals, Lorentz invariance, and charged particles in EM fields.

Maxwell Equations and Minkowski Spacetime

Explores Maxwell equations, Minkowski spacetime, Lorentz transformations, charge conservation, and spacetime structure in physics.

Proper Time: Lorentz Transformations

Explores worldlines, Lorentz transformations, proper time intervals, and inertial reference frames in relativistic physics.

Relativistic Larmor Formula: Synchrotron Radiation

Explores the relativistic Larmor formula and synchrotron radiation in the context of accelerated charged particles and electromagnetic fields.

Lorentz-Minkowski Spacetime

Covers Lorentz-Minkowski spacetime, speed of light interpretation, isometries, and special relativity principles.