Planck's Constant from Gravity

Foundations of physics and/or philosophy of physics, and in particular, posts on unresolved or controversial issues

Planck's Constant from Gravity

Postby muon200 » Mon Dec 14, 2015 9:55 pm

Abstract
Planck's Constant is derived from gravity using the momentum in each proton and neutron. That linear momentum is V / tau, where V is a proton volume and tau is a new constant of 5.1ns. Tau is confirmed for the gravity of five planets, the Sun, and the gravity of the asteroid Vesta, all giving tau within 1.1% of the average tau. Mass is redefined.

Executive Summary
Planck's Constant (h) is an angular momentum. A new gravity theory gives the proton's internal linear momentum. Using the Bohr Radius, the angular momentum is produced from the linear momentum. That angular momentum is part of the derivation of h. The rest of the derivation is about justifying two dimensionless constants, (k/G) and (m/q) to multiply the angular momentum from gravity to get to the Electricity Continuum, and h.
Gravity is caused by baryons shrinking space and growing time in the following ratio: V/tau, where V is a proton volume and tau is 5.1ns. That ratio has units of momentum.
Mass is area, so units are advanced beyond The Standard Model.



h = 4 pi a0 (V/tau) (k/G) (m/q)

(V/tau) = linear momentum in proton due to graviticspansion

Where

a0 = 5.3 * 10^-11 meters for the Bohr Radius 

V = 3.59 * 10^-45 , proton volume 

tau = 5.043655 * 10^-9 seconds Universal Constant of Conservation of Continuum 

k = 8.99 * 10^9 meter per square second, Coulomb's little k 

G = 6.67 * 10^-11 meter per square second, Newton's big G 

m = 1.67 * 10^-27 kilogram per proton or neutron (sq meters)

See Appendix C for notes on the electron's elimination from this derivation. 

q = 6.02 * 10^-19 square meters, proton charge

M is the mass is a planet or star

tau = 5.1 nanoseconds calculated for 5 planets' gravity

Mars, Mercury, Jupiter, the Sun, the asteroid Vesta, Venus, the Moon, and Earth all get 5.1 nanoseconds for the ratio of V2 / V1. All of those eight values for tau were within 1.1% of the average tau.

For details of how the gravity of the Sun and the Asteroid Vesta both get 5.1 nanoseconds for the constant, tau, see this link

http://fcgravity.blogspot.com/p/the-chr ... -2014.html
muon200
 
Posts: 67
Joined: Fri Sep 12, 2014 1:53 pm
Location: Maui Island, Pacific Ocean

Return to Sci.Physics.Foundations

Who is online

Users browsing this forum: No registered users and 76 guests

cron
CodeCogs - An Open Source Scientific Library