Talk:Point charge
Latest comment: 18 years ago by Bvcrist in topic Particle or Point Particle
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Things to delineate in or referred by the article
edit- Power Radiated by a Point Charge (explained here)
- Radiation Reaction
- Lorentz-Abraham-Dirac formula for the radiation reaction of a point charge predicts unphysical motions that run away or violate causality.
- Abraham-Lorentz theory of radiation reaction
- classical damped oscillator
- Scattering of radiation and dispersion (theory of the refractive index)
- Covariant formulation of the conservation laws of electrodynamics
- electromagnetic mass
- Dirac's relativistic theory
- The Physical Basis of the Radiation Reaction
- Continous Charge Distributions
- The Energy of a Point Charge Distribution
- Moving Point Charges: Apparent Length Effects
- Electric and Magnetic Fields Due to Moving or Stationary Point Charges
- Point Charge Moving With Constant Velocity
- Accelarated Point Charge Appearing Instantaneously At Rest
External articles that could be readded
edit- "Multiple Point Charges". HyperPhysics.
- Richard Fitzpatrick, "Electric potential energy and electric potential; The electric potential of a point charge". Electromagnetism and Optics, non-calculus survey course.
- John Belcher, et. al., "Point Charge Repelled By A Charged Sphere". Experiments and Animations: Electrostatics.
- Robert G. Brown, "Electrostatic Potential: Potential of a Point Charge and Superposition". Philosophical Physics, Lecture Notes for Elementary Physics 42.
- Rodney Cole, et. al., Magnetic Field From a Moving Point Charge". ElectroCard, An Interactive Tutorial for Electromagnetism.
- Rodney Cole, et. al., Point Charge Field Lines". ElectroCard, An Interactive Tutorial for Electromagnetism.
- Omer Dushek, et. al., "The fields of a moving point charge: a new derivation from Jefimenko's equations". Eur. J. Phys. 25 343-350, 2004. doi:10.1088/0143-0807/25/3/001
- Adam Bednorz, "Massless charges without self-interaction". J. Phys. A: Math. Gen. 38 L667-L671, 2005. doi:10.1088/0305-4470/38/42/L01
- V. Hnizdo, "Potentials of a uniformly moving point charge in the Coulomb gauge". Eur. J. Phys. 25 351-360, 2004. doi:10.1088/0143-0807/25/3/002
- Michael Ibison, "A Massless Classical Electron". Institute for Advanced Studies at Austin. (PDF)
Particle or Point Particle
editStrait, Shall we add the word "point" before the word particle in the opening sentence.
In this sentence: "The fundamental equation of electrostatics is Coulomb's law, which describes the electric force between two point charges." It seems electric force should be electrostatic force. Do you agree? Bvcrist 22:16, 28 August 2006 (UTC)