Downloads provided by UsageCountsThe Einstein’s Mass-Energy Equivalence and the Relativistic Mass and Momentum derived from the Newton’s Second Law of Motion
Annamalai, Chinnaraji;
10.31219/osf.io/u7hmp , 10.33774/coe-2023-ck6jr-v2 , 10.22541/au.165167013.33544978/v1 , 10.31224/3019 , 10.33774/coe-2023-ck6jr-v3 , 10.33774/coe-2023-ck6jr , 10.5281/zenodo.8015959 , 10.5281/zenodo.8045323 , 10.60692/wzsw2-1da50 , 10.5281/zenodo.8050030 , 10.5281/zenodo.7976473 , 10.60692/s785j-at148 , 10.5281/zenodo.8016345
10.31219/osf.io/u7hmp , 10.33774/coe-2023-ck6jr-v2 , 10.22541/au.165167013.33544978/v1 , 10.31224/3019 , 10.33774/coe-2023-ck6jr-v3 , 10.33774/coe-2023-ck6jr , 10.5281/zenodo.8015959 , 10.5281/zenodo.8045323 , 10.60692/wzsw2-1da50 , 10.5281/zenodo.8050030 , 10.5281/zenodo.7976473 , 10.60692/s785j-at148 , 10.5281/zenodo.8016345
The Einstein’s Mass-Energy Equivalence and the Relativistic Mass and Momentum derived from the Newton’s Second Law of Motion
In the Einstein’s theory of special relativity, the relativistic mechanics is concerned with the motion of bodies whose velocities approach the speed of light. It is understood the velocity of a moving particle with mass is less than the speed of velocity and velocity of a massless particle like photon is equal to the speed of light. This paper presents the Einstein’s mass-energy equivalence and the equations of relativistic mass, momentum and energy from the Newton’s second law of motion.
Equivalence (formal languages), Applications of Generalized Functions in Mathematics and Physics, Pendulum Motion, Quantum mechanics, rest mass, [PHYS] Physics [physics], momentum equation, Innovative Methods in Physics Education, FOS: Mathematics, Series (stratigraphy), Newton's law of universal gravitation, Classical mechanics, relativistic motion, momentum equation, kinetic energy, rest mass, Floating-Point Arithmetic in Scientific Computation, Biology, Mathematical Physics, Newton's laws of motion, Physics, kinetic energy, relativistic motion, Pure mathematics, Paleontology, Statistical and Nonlinear Physics, Applied mathematics, Algorithm, Simplicity, Computational Theory and Mathematics, Physics and Astronomy, Computer Science, Physical Sciences, Energy–momentum relation, Computation, Einstein, Theoretical physics, Mathematics, Gravitation
Equivalence (formal languages), Applications of Generalized Functions in Mathematics and Physics, Pendulum Motion, Quantum mechanics, rest mass, [PHYS] Physics [physics], momentum equation, Innovative Methods in Physics Education, FOS: Mathematics, Series (stratigraphy), Newton's law of universal gravitation, Classical mechanics, relativistic motion, momentum equation, kinetic energy, rest mass, Floating-Point Arithmetic in Scientific Computation, Biology, Mathematical Physics, Newton's laws of motion, Physics, kinetic energy, relativistic motion, Pure mathematics, Paleontology, Statistical and Nonlinear Physics, Applied mathematics, Algorithm, Simplicity, Computational Theory and Mathematics, Physics and Astronomy, Computer Science, Physical Sciences, Energy–momentum relation, Computation, Einstein, Theoretical physics, Mathematics, Gravitation
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