Ether Is Dipole
Essay title: Ether Is Dipole
Ether is dipole
Cheng
There are four different types of force in nature: electric force, gravitational force, big gravitational force, and magnetic force. These four different types of forces and the entire physical phenomenon in these forces are related to the characteristics of the dipole moment of the smallest unit energy particle Ў°Tei0/etherЎ±. This smallest unit energy particle Tei0/ether is continuously radiated from all substances.
From study in radiation of black body, it indicated that at any temperature it would have a highest energy radiation band. Its wavelength Ґлmax is related with its absolute temperature. Thus, the wavelength Ґлmax is a function of temperature T.
In order not to confuse with Ґлmax, which is generally used with the calculated wavelength, we will use Ґлn as the maximum wavelength calculated from equation 1. A comparison of the calculated data Ґлn and the actual data Ґлmax taken from the experimental data Ref 1 is shown in table 1. At the temperature absolute zero, molecular motion vanishes and the body will have no heat energy. However, when the body is close to absolute zero Ўж0, it will have a last energy particle to eliminate from mother body prior to it seize any movement and reach the temperature of absolute zero. The wavelength of this last particle is 1.010152545×10-2m, which is calculated from equation 1.
Hypothesis 1. From the wavelength of last radiation particle, the weight of the energy particle can be calculated. This particle should be the smallest energy particle. This smallest energy particle, its mass is 1.227390703 x 10-4 ev which is 2.18843762 x 10-40 kg. From here forward, lets name this particle to be Ў°Tei ZeroЎ± or name it to be Ў°etherЎ± and let the symbol to be Ў°Tei0Ў±. Tei0 is neutral in charge.
Hypothesis 2. Tei0/ether is neutral in charge, it is made from Tei + and Tei-. The particle Tei+ and Tei- are statistic, thus they are statistic mass (Ms).
Tei0/ether is a unit (particle) of momentum mass or energy mass, its always moving with a speed of photon.
Tei 0/ether is neutral in charge, it is made from Tei + and Tei-. The particle Tei+ and T- are statistic, thus they are statistic mass (Ms). They are stationary unless they are carried by momentum mass (Mo).
Tei0 will have a characteristic of dipole moment; they are binding as fig 1.
Tei+ or Tei-, its mass is one half of Tei0 and they have charge of positive charge and negative charge. The mass of Tei + is 1.09421881 x 10-40 kg with the charge of +1.9245343×10-29C, the mass of Tei- is also 1.09421881 x 10-40 kg with the charge of -1.9245343×10-29C
Tei+ and Tei- can combine to be Tei0. Tei0 can also reverse and break to be Tei + and Tei-. I.e., its reversible under special condition.
Tei0 Ўк Tei+ + Tei-
Rule of momentum energy:
Statistic mass (Ms) will move if it is carried by momentum mass (Mo) its momentum energy of a statistic mass (Ms) is
MoC2 = 1/2MsV2 + MoV2
MoC2 = 1/2MsV2 + 0.99906667MoV2
————–equation 3
For particle traveling at a very high speed, equation 3 is with more accuracy. For example, a proton under 500 giga-ev, Under the calculation done by equation 3, its speed is 0.999998C. Compare this number with an actual experimental test data, where the speed of proton is 99.9998% of the speed of light. REF 2
Hypothesis 3: Tei0 can accumulate to be any size of a big sand ball like particle, or any size of energy particle at special condition. Any energy ball can be accumulated by the surface of statistic mass. Energy particle accumulate on the statistic mass and it will continue to move with the speed of photons without taking rest. The density of energy particle on the surface of Ms can be indicate by the temperature of that substance.
There are four kind of force between two statistic mass.
Electric force
Statistic mass always radiate Tei0, Tei0 is a dipole unit, e+ radiates the positive side of Tei0 in front while e- radiates the negative side in front as shown in fig 2, the nature of different front side will show the positive or negative electric field
Gravitational force
Fg = G x