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Binary Mechanics Upgrades Standard Model in Physics
<B><BIG>Binary Mechanics Upgrades Standard Model in Physics</BIG></B><BR>
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Over a century ago, Planck defined his famous quanta of action and its associated constant h. The value of Planck’s constant h has been measured experimentally over the last century. Now, for the first time, h has been calculated from first principles or postulates of a coherent fundamental, comprehensive physical theory, namely <a href=”http://www.binary-mechanics.com/”>binary mechanics</a> (BM). In fact, Planck’s constant h was calculated from only two input parameters: (1) electron rest mass and (2) the BM fundamental length d. This milestone <a href=”http://binarymechanics.blogspot.com/2015/01/intrinsic-electron-spin-and-fundamental.html”>report</a> — “Intrinsic electron spin and fundamental constants” — is only one of many benefits when the outdated Standard Model (SM) in physics is upgraded to BM.<BR>
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The conventional SM in physics depends on some 19 parameters which are based on experimental observations and have not been calculated from the so-called SM theory itself. Notice that with a simple rearrangement of the simple eq. 9 presented in “Intrinsic electron spin and fundamental constants”, electron rest mass can be calculated from only two “input” parameters: (1) Planck’s constant h and (2) BM length d. Don’t be afraid — the math here is very simple algebra that a high school graduate should be able to do easily.<BR>
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What does all this mean? Well, ten of the 19 parameters which the SM cannot explain or calculate are the mass of various particles, such as the electron. If one of these can be directly calculated from the binary mechanics upgrade of the standard model, the take-home message is that the SM has diminished credibility and BM has increased credibility. Scorecard: BM: 1, SM: 0.<BR>
