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CYCLICAL TIME – COMPLETE & SIMULTANEOUS UNIVERSE
Theory on a complete time and the relativity of energy
(A unified theory about time, space and matter)

#### The close relation between mass and speed of electro­magnetic waves (5)

Attention! Exist translational errors

* Attention to the decimal point. This is a different mark for many countries

 SOME DATA OF PLANCK 'S MASS   Mpl = √(hc /G) Eplanck / h = 7,4008 ×1042 Hz fpl = 7,4008 ×1042 Hz Epl = 49,03828 ×108 J Mpl = 5,456246 ×10-8 kg Emin = h1Hz = 6,62606 ×10-34 Mmin = h1Hz/c2 = 0,73725 ×10-50 λpl = c / fp = 0,405080 ×10-34 m   G = 6,6725 ×10-11 m3/kg sec2 h = 6,62606 ×10-34 J sec c = 2,997924 ×108 m/sec V=√(G Mpl / λpl )= √(36,4068 ×10-19 / 0,40508 ×10-34)→ V=√ 89,8755 ×1015 = C   For the electron, we find: V = √GM/r → (6,6725 ×10-11 ) × (9,10938 ×10-31 ) / 0,24263 ×10-11 = 250,5145 ×10-31 → √25,05145 ×10-30 = 5,0051 ×10-15 m/sec   For the proton: V =√ 8,445959 ×10-23 = 0,919019 ×10-11 m/s   Evangelos Karamichas calls this speed  " gravitational speed of a particle "

 From the relation with the simple method of three the following relations result:   The above relations agree with the known type of physics V = √GM/r, after  Vm =m c / Mplanck = √(G m / λm) where λm the Compton's length for particle M from the relation λ=h/M c and not radius r that is in effect for big masses. The unit m (meter) remains same. Length λ that we attribute in mass of particles, we can see as the length of wave that corresponds in a equivalent quantity of energy E =h f = M c2, as if this were energy of electro­magnetic wave (after in these waves is in effect the relation h f). However mass is not simply a quantity h f but a quantity h f/c2 that divided from the speed of light to square. When we know a frequency f we can find also some length λ, given that λ=c/f That is to say Evangelos Karamichas says to us :   and in absolute agreement with the known physics, he determines the maximum mass   Mmax = Mplanck = √(h c /G)   ► He observe the equivalence for the formula of classic physics V = √GM/λ with the speed V that results with the simple method of the three, according to the relation Mplanck / Μ = c / V ► He accepted a maximum limit for the increase of mass, a small quantity, mass Mplanck = √(hc/G) = 5,45624 ×10-8 kg and he does not reject this limit, with the thought, that we observe much bigger masses in nature. ► He perceived that formulas of classic physics that are applied for big bodies in our daily experience find application and reveal coincidences in microscopic nature, where the effect of gravity in subatomic things was considered insignificant from famous physicists in order to they calculate it. ► He connect mathematically the limit in the increase of mass with the limit in the speed of light.  ► He advanced and set limits in many other relations of physics, that are depended or is connected with the limits in mass and speed. ► His most important contribution for physics is the following. In the known mathematical relation (Einstein) that it shows the change of mass depending on the speed, he puts the limit of the maximum mass (Mplanck) that coincides with the limit of speed of light. With the limit of the maximum mass, they still result: a limit of maximum energy, a highest frequency, a minimal time and the limit of a minimal length, certain sizes which mathematically also coincide with the utmost speed of light. Thus, with the same mathematic relation that shows the change of mass in connection with the speed, can shows even the change of the other sizes. With the extension of this mathematic proportion and the insert of limits in change of physical sizes, the change ceases is unlimited and smooth and change is scalar size, as he characterizes. ► An also important observation that made Evangelos Karamichas - and I made fast also from my own mathematical investigation and I appreciated as particularly important for my own physical interpretation about the world - it is the observation, that the micro­scopic particles are presented such as some snapshots or like intermediary phas­es by the change of a constant quantity. But this constant quantity was accepted by him, under the known term of Physics " mass of unification or Planck's mass " without any ex­planation and was considered that is a particle in nature.

 The most simple relations of physics, which the more capable researchers use in order to solve the most tangled mathematic problems and find solutions in the impasses of modern physics, these relations should they had been supplemented and delimited by the professionals physicists. A lot of decades were lost! With a short thought (for example, does not exist an infinity of things), which it could say even one insane man, consequences result in science where physicists and astronomers specialize. If they began in their off-hand exercise book with a simple supposition, as they make often, they would lead in important observations and they would open the impasse in physics and mathematic interpretation on the structure of matter and Universe.

 The length λ that we attribute in mass of particles, we can see as the length of wave that corresponds in an equivalent quantity of energy E =h f and according to known relation E=M c2, as if this were energy of electro­magnetic wave (after in these waves is in effect the relation h f). The mass however is not simply a quantity h f but a quantity h f/c2 that divided from the speed of light at square. When we know a frequency f we can find also some length λ, given that λ=c/f