English

Relative-Velocity-Dependent Weber-type Models in Electromagnetism

General Physics 2009-11-24 v1 Classical Physics
Authors: Santosh Devasia
View on arXiv PDF

Abstract

This article reconsiders the relative-velocity-dependent approach to modeling electromagnetism that was proposed initially by Weber before data from cathode-ray-tube (CRT) experiments was available. It is shown that identifying the nonlinear, relative-velocity terms using CRT data results in a model, which not only captures standard relativistic effects in optics, high-energy particles, and gravitation, but also explains apparent discrepancies between predicted and measured energy (i) in high-energy-particle absorption experiments and (ii) in the classical beta-ray spectrum of radium-E.

Keywords

special relativity relativistic atomic physics classical electromagnetism

Cite

@article{arxiv.0808.3798,
  title  = {Relative-Velocity-Dependent Weber-type Models in Electromagnetism},
  author = {Santosh Devasia},
  journal= {arXiv preprint arXiv:0808.3798},
  year   = {2009}
}

Comments

23 pages 9 figures

Related papers

View all related →
Classical Physics · Physics
Relativistic approach to electromagnetic imaging
Neil Budko
2009-11-10
Physics Education · Physics
Relativistic Electron Experiment for the Undergraduate Laboratory
Robert E. Marvel, Michael F. Vineyard
2011-08-31
General Physics · Physics
The Relativity of Simultaneity: An Analysis Based on the Properties of Electromagnetic Waves
Randy Wayne
2011-03-22
Classical Physics · Physics
Geometrical and physical parameters for electromagnetic relativistic sources
Giuseppina Modestino
2014-06-19
Atomic Physics · Physics
Establishing a relativistic model for atomic gravimeters
Ya-jie Wang, Yu-Jie Tan, Cheng-Gang Shao
2019-06-12
Quantum Physics · Physics
Superradiance from a Relativistic Source
Christopher Wyenberg, Fereshteh Rajabi, Martin Houde
2023-01-18
General Physics · Physics
Wheeler's Gravitomagnetism Revisited I: A Purely Lorentz-Compton Approach to Vector Gravitational Waves and Trio-Holes
R. A. Latapiat, G. F. Miranda, N. A. Pereyra
2008-05-13
Mesoscale and Nanoscale Physics · Physics
Optimization-based approach to the calibration of mesoscale mechanical models for carbon nanotube systems
Vitaliy Petrov, Igor Ostanin, Petr Zhilyaev
2019-05-14
General Relativity and Quantum Cosmology · Physics
Constraints on the deformation scale of a geometry in the cotangent bundle
J. J. Relancio, S. Liberati
2020-11-18
Dynamical Systems · Mathematics
Angular velocity nonlinear observer from vector measurements
Lionel Magnis, Nicolas Petit
2015-03-11
General Relativity and Quantum Cosmology · Physics
Space-time thermodynamics in momentum dependent geometries
G. Chirco, S. Liberati, J. J. Relancio
2022-10-12
Mesoscale and Nanoscale Physics · Physics
One-dimensional semirelativity for electrons in carbon nanotubes
Wlodek Zawadzki
2009-11-11
Astrophysics · Physics
Astrophysical Probes of the Constancy of the Velocity of Light
J. Ellis, K. Farakos, N. E. Mavromatos, V. Mitsou +1
2008-11-26
General Physics · Physics
Super-relativity in the quantum theory
Peter Leifer
2007-05-23
General Relativity and Quantum Cosmology · Physics
Modified Rindler acceleration as a nonlinear electromagnetic effect
M. Halilsoy, O. Gurtug, S. Habib Mazharimousavi
2015-03-11
High Energy Physics - Phenomenology · Physics
A covariant investigation of Neutral Vector Mesons: dynamical properties and electromagnetic decay widths
T. Frederico, E. Pace, S. Pisano, G. Salme'
2015-05-18
Astrophysics · Physics
General Relativistic Relation Between Density Contrast and Peculiar Velocity
Reza Mansouri, Sohrab Rahvar
2009-10-31
Nuclear Theory · Physics
Relativistic vs. Non-relativistic Nuclear Models
H. Kurasawa, T. Suzuki
2007-05-23
Classical Physics · Physics
On The Low Speed Limits of Lorentz's Transformation
Hao Chen, Wei E. I. Sha, Xi Dai, Yue Yu
2022-05-03
Space Physics · Physics
Relativistic electron flux model in the outer radiation belt using a neural network approach
Xiangning Chu, Donglai Ma, Jacob Bortnik, W. Kent Tobiska +9
2022-01-05
General Physics · Physics
Relativistic derivations of the electric and magnetic fields generated by an electric point charge moving with constant velocity
Bernhard Rothenstein, Stefan Popescu, George J. Spix
2008-12-02
Classical Physics · Physics
Does the velocity of light depend on the source movement?
Luis Bilbao
2016-07-26
General Physics · Physics
Conservative relativity principle: Logical ground and analysis of relevant experiments
Alexander Kholmetskii, Tolga Yarman, Oleg Missevitch
2014-07-25
Cosmology and Nongalactic Astrophysics · Physics
Low-redshift constraints on homogeneous and isotropic universes with torsion
C. M. J. Marques, C. J. A. P. Martins
2019-11-20
Quantum Physics · Physics
Quantum-limited estimation of range and velocity
Zixin Huang, Cosmo Lupo, Pieter Kok
2021-07-14
R2 v1 2026-06-21T11:14:29.410Z