Abstract

Defining the energy and work for particles interacting with electromagnetic field (EMF) is an open problem, because—due to the gauge-freedom—there exist various non-equivalent possibilities. It is argued that a consistent definition can be provided via the Lorenz gauge. To this end, I work out a system of two electromagnetically coupled classical particles. One of them is much heavier and models the source of work. The definition of energy in the Lorenz gauge is causal and consistent, because it leads to an approximate conservation law due to which the work done by the heavy particle (source of work) can be defined either via the kinetic energy of the heavy particle, or via the full time-dependent energy (kinetic + potential in the Lorenz gauge) of the light particle.

Full Text
Paper version not known

Talk to us

Join us for a 30 min session where you can share your feedback and ask us any queries you have

Schedule a call

Similar Papers

Paper Title
Journal
Date
Author
The potential energy of non-resonant optimal bianisotropic particles in an electromagnetic field does not depend on time
Igor Semchenko ... Alexey Balmakou
EPJ Applied Metamaterials | VOL. 1
Igor Semchenko, et. al.Igor Semchenko ... Alexey Balmakou
01 Jan 2014
Relating classical spinning particles to Dirac 4-spinors
J Dylan Morgan
Journal of Physics A: Mathematical and General | VOL. 35
J Dylan MorganJ Dylan Morgan
28 Mar 2002
Noether's theorem and the work-energy theorem for a charged particle in an electromagnetic field
Donald H Kobe
American Journal of Physics | VOL. 81
Donald H KobeDonald H Kobe
19 Feb 2013
Lie algebraic approach to the time-dependent quantum general harmonic oscillator and the bi-dimensional charged particle in time-dependent electromagnetic fields
V.G Ibarra-Sierra ... A Kunold
Annals of Physics | VOL. 362
V.G Ibarra-Sierra, et. al.V.G Ibarra-Sierra ... A Kunold
30 Jul 2015
View more papers

More From: Physics of Atomic Nuclei

Paper Title
Journal
Date
Author
Photoneutron Reaction Cross Sections for $${}^{{90}}$$Zr in Different Experiments
V V Varlamov ... V N Orlin
Physics of Atomic Nuclei | VOL. 87
V V Varlamov, et. al.V V Varlamov ... V N Orlin
01 Oct 2024
Use of a Xenon Gamma Spectrometer for Dosimetry in Boron–Neutron Capture Therapy
I F Khimmatov ... S E Ulin
Physics of Atomic Nuclei | VOL. 87
I F Khimmatov, et. al.I F Khimmatov ... S E Ulin
01 Oct 2024
Cross Section of the Process $${e^{+}e^{-}\to n\bar{n}}$$ near the Threshold
M N Achasov ... D A Shtol
Physics of Atomic Nuclei | VOL. 87
M N Achasov, et. al.M N Achasov ... D A Shtol
01 Oct 2024
Rare Decays of $${D_{s}}$$ Mesons to Three Charged Leptons and a Neutrino within the Standard Model
A V Danilina ... N V Nikitin
Physics of Atomic Nuclei | VOL. 87
A V Danilina, et. al.A V Danilina ... N V Nikitin
01 Oct 2024
View more papers

Disclaimer: All third-party content on this website/platform is and will remain the property of their respective owners and is provided on "as is" basis without any warranties, express or implied. Use of third-party content does not indicate any affiliation, sponsorship with or endorsement by them. Any references to third-party content is to identify the corresponding services and shall be considered fair use under The CopyrightLaw.