(this post requires some rethinking) 7/29/17 -mr
It seems this still does not explain why the mass of the proton is what it is... back to drawing board!
$$mr={2h\over \pi c}$$
It seems this still does not explain why the mass of the proton is what it is... back to drawing board!
$$mr={2h\over \pi c}$$
This is because the solution is a cymatics-like resonance in the vacuum, and the mass ratio, $\phi$, is actually an information-theory area ratio divided by a geometric volumetric ratio: (Haramein's team's work):
$$\phi={\eta\over R}$$
$$\eta={Area_{objectSurface}\over A_{equitorialXsectionPSU}}$$
$$R={Volume_{object}\over Volume_{PSU}}$$
(the PSU is the Planck Sphereical Unit, a sphere of diameter Planck length, ${\ell}_{\ell}$)
for the proton, a factor of 2 is needed:
$$m_p={2{\eta\over R}m_{\ell}}$$
$m_p=$ Proton mass
$m_{\ell}=$ Planck mass
When the terms for eta over R, the mass ratio, are expanded, the results is:
$$m_pr_p={2h\over \pi c}$$
$r_p$ is Proton radius.
$h=$ Planck's constant
$c=$ Speed of Light
$\pi$ is good.
So what you have is a 2D area ratio term & a 3D volumetric ratio which resonates similar to cymatics-type oscillations in a substrate material, the substrate being the new superfluid like aether of the vacuum.
It's pretty simple math and this approach gives the same answer as the quantized angular momentum approach. Thus, the higher-level 3D approach seems to be more inclusive, as it can be used to calculated the mass of black holes, protons, and electrons. What's next?
The details of the math and derivation have been outlined previously:
http://fractalu.com/AdvancedGeometricPhysicsSolutions1.pdf
and more info here:
https://www.thenewenergyindustry.com/mass-ratio/
$$\eta={Area_{objectSurface}\over A_{equitorialXsectionPSU}}$$
$$R={Volume_{object}\over Volume_{PSU}}$$
(the PSU is the Planck Sphereical Unit, a sphere of diameter Planck length, ${\ell}_{\ell}$)
for the proton, a factor of 2 is needed:
$$m_p={2{\eta\over R}m_{\ell}}$$
$m_p=$ Proton mass
$m_{\ell}=$ Planck mass
When the terms for eta over R, the mass ratio, are expanded, the results is:
$$m_pr_p={2h\over \pi c}$$
$r_p$ is Proton radius.
$h=$ Planck's constant
$c=$ Speed of Light
$\pi$ is good.
So what you have is a 2D area ratio term & a 3D volumetric ratio which resonates similar to cymatics-type oscillations in a substrate material, the substrate being the new superfluid like aether of the vacuum.
It's pretty simple math and this approach gives the same answer as the quantized angular momentum approach. Thus, the higher-level 3D approach seems to be more inclusive, as it can be used to calculated the mass of black holes, protons, and electrons. What's next?
The details of the math and derivation have been outlined previously:
http://fractalu.com/AdvancedGeometricPhysicsSolutions1.pdf
and more info here:
https://www.thenewenergyindustry.com/mass-ratio/
The Surfer, OM-IV
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