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• Conservation of energy
  ...e law of conservation of energy, even if it sees that the concept of total energy is controversial. == Einstein and the law of conservation of energy ==
  4 KB (724 words) - 10:11, 19 September 2020

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• Conservation laws
  ...the Lomonossow-Lavoisier law. This can be imagined in terms of the law of conservation of momentum. A car has a speed of 100 km / h and a mass of one ton. If it ...s to the mass, there must be positive and negative masses, otherwise the [[Conservation of mass]] postulated by me would be wrong.
  2 KB (324 words) - 01:56, 20 September 2020
• Law of conservation of momentum
  ...ook at that, it means that the speed is also maintained beyond the [[speed conservation law]] described by me. So you can see that if m = const. applies and if p ...vation of energy]], that E is constant in the closed system and due to the conservation of momentum the term c²p² is also constant, then only E (0) can be retain
  2 KB (263 words) - 01:58, 20 September 2020
• Conservation of energy
  ...e law of conservation of energy, even if it sees that the concept of total energy is controversial. == Einstein and the law of conservation of energy ==
  4 KB (724 words) - 10:11, 19 September 2020
• Conservation of mass
  ...mple. Here an electron and a positron are converted into so-called pure [[energy]], ie into a pair of photons. Since one assumes, according to Einstein, th ..., but also have the mass 0. Accordingly, it is concluded that there is no conservation of the masses.
  7 KB (1,182 words) - 15:55, 18 September 2020
• Space conservation law
  ...ived from the [[equivalence of mass and energy]] and the [[Conservation of energy]]. We also have the [[Weltformel]], which connects the three basic quantit As a counterexample for the law of space conservation, it used to be pointed out in school that when two or more atoms combine to
  3 KB (518 words) - 02:06, 20 September 2020
• Frequency conservation law
  ...e closed system the energy is preserved, one can also deduce the frequency conservation law. Namely, E = h * f applies. Since Plank's constant h is a constant, o
  433 bytes (72 words) - 02:00, 20 September 2020
• Main Page
  ...the so-called mass defect, is also important for this. All articles on [[energy]] and [[mass]] are stored under the respective references. The article on ...thinking with which it was created. The absolute theory thus takes the [[Conservation of mass]] as given. From this it follows [[mass and momentum of a photon]]
  4 KB (696 words) - 19:48, 4 January 2024
• Virtual particles
  ...heory is also against a law of conservation of matter in contrast to the [[Conservation of mass]]. Matter can be dissolved into an infinite number of virtual part ...om the [[anti-proportionality of locomotion and mass]]. Both also have an energy in the epsilon range around zero, only when an infinite number of them come
  2 KB (323 words) - 11:23, 19 September 2020
• Conversion of mass into energy
  ...or me to post a post in this wiki with the heading Conversion of mass into energy, because it does not exist. Rather, this area is about the refutation of t ...t if I have a mass 1 and a reaction, then this mass 1 is converted into an energy 1. Mathematically completely wrong basic tool.
  7 KB (1,088 words) - 12:46, 6 October 2020
• Energy
  == Concept of energy == ...generates too much friction because the energy is then radiated as thermal energy and is no longer available for use by the system.
  999 bytes (158 words) - 10:12, 19 September 2020
• Theory of Relativity
  ...ry can be read in the chapter [[Conservation Laws]]. In particular, the [[Conservation of mass]], but also from [[Division by Zero]] [[mass and momentum of a phot ...g factor for [[E = mc²]]. In absolute terms, every mass has a correlating energy, just as Einstein basically said. But besides [[E = mc²]] there are other
  7 KB (1,152 words) - 10:03, 19 September 2020
• Mass
  ...y and mass condense space. The absolute theory goes on, it says, mass and energy is nothing more than condensed space. The frequency speed, i.e. the moveme - [[Conservation of mass]]
  3 KB (552 words) - 10:18, 19 September 2020
• Equivalence of space and time
  ...s that energy and mass grow or shrink in the same proportion. You have an energy of 3. Then you have a mass of 3. The units of measurement are deliberately ...So we get W = m * v / t * s and since s / t = v, W = m * v². If work and energy were the same now, one could equate the two equations and would already hav
  13 KB (2,187 words) - 01:55, 20 September 2020
• Neutrinos
  ...photons would be just as large as that of the electrons according to the [[Conservation of mass]]. You would be just as quick then. Of course the neutrino would ...owever, probably already has 0.2 eV energy, which is a tenth of the photon energy. We can then measure 250,000 times, but not yet the difference by ten time
  4 KB (709 words) - 08:52, 5 October 2020
• Mass and momentum of a photon
  The photon has a mass from the [[Conservation of mass]], even if it has no rest mass according to Einstein. Accordingly, ...of energy. If we now assume in a thought experiment that one has infinite energy and accelerates a person from 80kg to the speed of light, then he weighs an
  12 KB (2,159 words) - 11:04, 19 September 2020
• Structure of the Universe
  ...se results from the knowledge gained from this Wiki. [[Weltformel]] and [[Conservation laws]] have a direct effect on the picture of the structure of our universe ...mes that at the beginning there was a very hot point in which all mass and energy was already stored. According to the [[Weltformel]], this cannot be becaus
  13 KB (2,213 words) - 03:15, 26 October 2020
• Faster than light
  ...ng to previous considerations. I mean, they have virtual mass and virtual energy. This equates the epsilon range around zero, which is also used in derivat ...appear completely. So one can follow Feynmann and still save the [[energy conservation law]].
  6 KB (1,088 words) - 08:47, 19 September 2020