The below is a preliminary mass = energy = space-time equation formulated from special relativity (must adjust for hyperbolic space)
-[(x^2-y^2) + (y((x+y)(-x+y))^1/2) / (x+y) (x-y)]
It shows how space-time folds into many densities; radiating energy, momentum, angular momentum in objects, having characteristics of both particles and waves while being neither one of those.
From: Liquid Space Theory
F = force
M = mass initial
V = velocity
C = speed of light
A = acceleration
H = Planck's constant
E = energy
F = {[(m/ (1-(v^2/c^2)) ^(1/2)]-m}a
Second law of time
A ={{[(m/ (1-(v^2/c^2)) ^(1/2)]-m}^-1}f
Infinite change of time
M = [f /{[(1/ (1-(v^2/c^2)) ^(1/2)]-1}a
Mass as a vector in a 3- orthogonal space
V = c [- (ma/ma-f )^2 +1]^1/2
Velocity of time
C = [v / [- (ma/ma-f )^2 +1]^1/2
Speed of light as a function of mass
E = {[f /{[(1/ (1-(v^2/c^2)) ^(1/2)]-1}a}{[v / [- (ma/ma-f )^2 +1]^1/2 }^2
Time conservation law
Wave = {{[f /{[(1/ (1-(v^2/c^2)) ^(1/2)]-1}a}{[v / [- (ma/ma-f )^2 +1]^1/2 }^2 } / h
(e / h)
Wave length and energy of the force
Energy of the force = {{[(m/(1-(v^2/c^2)) ^(1/2)]-m}c^2}
Wave = {{[(m/ (1-(v^2/c^2)) ^(1/2)]-m}c^2} / h
code: As you travel the currents of time beware of whirlpools you encounter and the damaging counter current. Your life will be right if you follow God and the never-ending fulfillment of his understanding.
-[(x^2-y^2) + (y((x+y)(-x+y))^1/2) / (x+y) (x-y)]
It shows how space-time folds into many densities; radiating energy, momentum, angular momentum in objects, having characteristics of both particles and waves while being neither one of those.
From: Liquid Space Theory
F = force
M = mass initial
V = velocity
C = speed of light
A = acceleration
H = Planck's constant
E = energy
F = {[(m/ (1-(v^2/c^2)) ^(1/2)]-m}a
Second law of time
A ={{[(m/ (1-(v^2/c^2)) ^(1/2)]-m}^-1}f
Infinite change of time
M = [f /{[(1/ (1-(v^2/c^2)) ^(1/2)]-1}a
Mass as a vector in a 3- orthogonal space
V = c [- (ma/ma-f )^2 +1]^1/2
Velocity of time
C = [v / [- (ma/ma-f )^2 +1]^1/2
Speed of light as a function of mass
E = {[f /{[(1/ (1-(v^2/c^2)) ^(1/2)]-1}a}{[v / [- (ma/ma-f )^2 +1]^1/2 }^2
Time conservation law
Wave = {{[f /{[(1/ (1-(v^2/c^2)) ^(1/2)]-1}a}{[v / [- (ma/ma-f )^2 +1]^1/2 }^2 } / h
(e / h)
Wave length and energy of the force
Energy of the force = {{[(m/(1-(v^2/c^2)) ^(1/2)]-m}c^2}
Wave = {{[(m/ (1-(v^2/c^2)) ^(1/2)]-m}c^2} / h
code: As you travel the currents of time beware of whirlpools you encounter and the damaging counter current. Your life will be right if you follow God and the never-ending fulfillment of his understanding.