Research Article
Quantitative Investigation of Parallel Interactions Between Charged Particles
Huang Shao shu*,
Feng Jun jie
Issue:
Volume 12, Issue 2, April 2024
Pages:
21-26
Received:
29 July 2024
Accepted:
9 September 2024
Published:
23 September 2024
Abstract: On the premise that the charged particle is a normal geometry model, an expression of the migration current, displacement current and magnetic induction intensity generated by the charged particle motion is deduced according to the microscopic definition of current intensity, the total current law and the Biot-Savart law. Further calculate the electric field force between two charged particles in vacuum, give the velocity constraint relationship and velocity value criterion of the electric and magnetic field forces, and compare the consistency with the correlation results obtained considering the relativistic effect. It is pointed out that the magnetic field force is comparable to the electric field force only when the charged particle moves near the speed of light.
Abstract: On the premise that the charged particle is a normal geometry model, an expression of the migration current, displacement current and magnetic induction intensity generated by the charged particle motion is deduced according to the microscopic definition of current intensity, the total current law and the Biot-Savart law. Further calculate the elec...
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