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• Space conservation law
  ...tities are preserved. So you should also check this for the basic sizes. Space s is such a basic quantity in the mks system. ...eltformel]], which connects the three basic quantities of the mks system [[space]], time and [[mass]]. So now it's easy:
  3 KB (518 words) - 02:06, 20 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
• Conservation of energy
  ...lot from it. The absolute theory, of course, also believes in the law of conservation of energy, even if it sees that the concept of total energy is controversia == Einstein and the law of conservation of energy ==
  4 KB (724 words) - 10:11, 19 September 2020
• Conservation of mass
  ...ed in chemical processes. It's different in physics. There is no general conservation law for the [[mass]]. The extermination of couples is taken as a counterex ..., 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
  ...tities are preserved. So you should also check this for the basic sizes. Space s is such a basic quantity in the mks system. ...eltformel]], which connects the three basic quantities of the mks system [[space]], time and [[mass]]. So now it's easy:
  3 KB (518 words) - 02:06, 20 September 2020
• Main Page
  ...x numbers]]. Google also gave me the idea to say something about [[Planck space]], [[Planck time]], about [[mass and momentum of a photon]] and the [[eleme ...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
• Conversion of mass into energy
  ...erpinned by the [[equivalence of space and time]]. Correspondingly, the [[Conservation of mass]] applies and therefore mass cannot simply be lost. The theory of ...etained according to the [[Conservation of energy]] and according to the [[Conservation of mass]], consequently E + m = const applies in the closed system. + cons
  7 KB (1,088 words) - 12:46, 6 October 2020
• Introduction for Newbies
  ...t basic building block for various derivations. Then the [[Equivalence of space and time]] is also important. Einstein set this up himself, but only drew
  954 bytes (150 words) - 16:57, 9 February 2022
• Energy
  ...an absolute point of view, especially with regard to the [[equivalence of space and time]], [[E = mc²]] applies universally. To assume a possible damping - [[Conservation of energy]]
  999 bytes (158 words) - 10:12, 19 September 2020
• Theory of Relativity
  ...ass. Without space there is no mass, but just as without mass there is no space! The absolute theory assumes two preferred coordinate systems, which stric ...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
  7 KB (1,152 words) - 10:03, 19 September 2020
• Antimatter
  ...tracted to the earth during a thunderstorm, while the positrons storm into space. There should also be a link between electrical and gravitational phenomen ...ive mass could also explain the wave-particle dualism. According to the [[Conservation of mass]] the photon has a mass. Now if there were a particle like the pho
  3 KB (467 words) - 10:21, 19 September 2020
• Mass
  ...e movement back and forth, is equivalent to the mass, which means that the space compressed in this way, since paths are crossed several times, makes up the ...es means matter. An astronaut who repairs a space station from outside in space is very light, but still has the same matter, speaks consists of the same p
  3 KB (552 words) - 10:18, 19 September 2020
• Equivalence of space and time
  ...out. c is equal to 1. c² also. This results from the division of Planck space and Planck time. Both correspond to 1 [http://de.wikipedia.org/wiki/Planck ...equations and would already have v = c or, transformed, s = t * c. Hence, space and time would be equivalent terms. Albert Einstein also saw it that way a
  13 KB (2,187 words) - 01:55, 20 September 2020
• Mass and momentum of a photon
  ...ass according to Einstein. Accordingly, according to the [[equivalence of space and time]], mass and momentum are equivalent. So a photon also has an impu ...ct to gravity, even if Einstein defines gravity rather as the curvature of space-time and considers it detached from mass. Nevertheless, as is the case wit
  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 ...because space, time and mass are equivalent terms. So at point in time 1, space 1 and mass 1 must also have applied after nothing.
  13 KB (2,213 words) - 03:15, 26 October 2020
• Faster than light
  ...olute theory deal with superluminal speeds? There is the [[equivalence of space and time]] and the corresponding equation that v = c, so any speed is alway ...hich it really becomes imaginary, is 10 ^ -70 kg. There is still a lot of space for particles that have a real mass and yet move faster than light.
  6 KB (1,088 words) - 08:47, 19 September 2020