Simulation of the Charge Motion near the Velocity of Light in Electric and Magnetic Fields

Authors

  • Masami Morooka Department of Electrical Engineering, Fukuoka Inst. Tech,higashi-ku, Fukuoka 811-0295

DOI:

https://doi.org/10.14738/tmlai.35.1580

Keywords:

Simulation of charge motion near the velocity of light in electric and magnetic fields, Java programming, simulation of charge motion with the relativistic mass.

Abstract

A numerical simulation method for the charge motion near the velocity of light in electric and magnetic fields has been investigated using the relativistic mass by Einstein’s special theory of relativity, and an electron acceleration for the Larmor motion in a static magnetic field perpendicularly applied a synchronized alternative electric field has been simulated by Java programing. The simulation results in a limitation of the electron velocity to a considerably lower value than the velocity of light in contradiction to the previous simulation in which the electron is easily accelerated over the velocity of light due to the use of the invariant mass.

References

(1) Morooka M., Qian S., and Morooka M., Image Learning of Charge Motion in Electric and Magnetic Fields by Java Programming, Transactions on Machine Learning and Artificial Intelligence, 2014. 2(2): p. 1-19.

(2) Morooka M. and Morooka M., Accuracy of the Java Simulation for the Charge Motion in Electric and magnetic Fields, Transactions on Machine Learning and Artificial Intelligence, 2015. 3(3): p. 15-23.

(3) Okun L. B., The Concept of Mass, Physics Today, 1989. 42: p. 31-36.

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Published

2015-11-05

How to Cite

Morooka, M. (2015). Simulation of the Charge Motion near the Velocity of Light in Electric and Magnetic Fields. Transactions on Machine Learning and Artificial Intelligence, 3(5), 26. https://doi.org/10.14738/tmlai.35.1580