Application and Popularization of Energy Formula

In physics, there are two main energy formulas. One is kinetic energy formula and the another is Einstein equation. But kinetic energy formula can only calculate low speed motion. Einstein equation can only calculate light speed motion. The two formulas are not unified. We hope to get a unified formula. But it didn’t work. According to the principle of Lorentz contraction, we generalize the contraction of length to the contraction of mass, and obtain a unified energy formula. This is the generalized Einstein equation and the new Einstein kinetic energy formula.


Introduction
From mechanical energy, chemical energy, electric energy to nuclear energy has become the main subject of physics research.
The great energy we have now is the polymerization of hydrogen into helium. However, there is no unified formula for the calculation of energy.
In physics, there are two main energy formulas. One is kinetic energy formula. The another is Einstein equation. But kinetic energy formula can only calculate low speed motion. Einstein equation can only calculate light speed motion. The two formulas are not unified. We hope to get a unified formula. But it didn't work. It's difficult. Now let's look at a formula: There is motion mass. When the object moves at low speed, the motion mass is very small and can be ignored. Therefore, this formula is suitable for energy calculation at low speed. But it is not suitable for energy calculation of large speed, especially the energy calculation of light speed. Let the rest mass m 0 , the motion velocity v, the motion mass m v , , the kinetic energy formula is obtained Here (a) is Einstein's improved kinetic energy formula. Let's look at the scope of the kinetic energy formula. Let v c  , we get The kinetic energy formula (a) is suitable for (1.1). Let v = c, by (a) get It tends to infinity. The kinetic energy formula (a) is not suitable for (1.2). It seems that it is difficult to obtain the formula which is suitable for (1.1) and (1.2).
Let's look at the Journal of Shaanxi Normal University (volume 03.31, April, 3857.53)_ 03) Professor Chen Junfu's research on kinetic energy formula.
Variable acceleration motion and new kinetic energy formula Let the initial acceleration be a 0 and the final acceleration be a v , then the average acceleration can be obtained.
Let the initial acceleration be a 0 and the final acceleration be a v , then the average acceleration can be obtained Here (c) is the new kinetic energy formula, where E is kinetic energy. m 0 is the static mass. v is the speed of motion.
Let's look at the scope of application of formula (c). We get

Lorentz Contraction Principle
In 1892, the physicist Lorentz, based on the practical research of Michelson and Murray, proposed that when an object moves, it shrinks in the direction of motion. This is the famous Lorentz contraction.
Let the length before the object moves be L 0 , the length when the object moves be L v , and the velocity be v get [ Represents the length of an object as it moves. Let's look at the length of motion of an object moving at the speed of light.
Let v = c, and the length of change is obtained from (2.2) Represents the maximum length of change when an object moves at the speed of light.

Mass Shrinkage Formula
We generalize Lorentz length contraction to mass contraction. The length of motion L v is extended to motion Quality m v . Let m 0 be the mass before the object moves, m v be the mass when the object moves, v be the velocity, get Let v = c, and the variable mass is obtained from (3.2) Represents the maximum mass that changes when an object moves at the speed of light. According to (1.2), we generalize Einstein's equation [5], transform mass into energy, and get the generalized Einstein's equation [6].

Generalized Einstein Equation
We The above energy formula is based on the theory of mass and energy conversion. According to this theory, the wave particle image can be interpreted. Particle is mass. Waves are energy. The conversion of mass into energy is a wave. When energy is converted into mass, it is called a particle.
Light is a wave of mass and energy. When mass and energy are transformed, particles contract in the direction of motion and release energy. Then it absorbs the energy and the particles expand in the direction of motion. Particles move through contraction and expansion.
It can also explain the speed limit of light. The mass of the particle shrinks to the minimum, the energy is the maximum, and the speed is the maximum. The mass of the particle shrinks to the limit, the energy is the limit, and the speed is the limit. This speed limit is the speed of light.
The theory of mutual transformation between mass and energy can be regarded as the basis of relativity. This theory is correct.

Conflicts of Interest
The author declares no conflicts of interest regarding the publication of this paper.