The force of time (space-time continuum, time energy) will act upon all energies in a transfer of energy between two or more reference frames in a frame per frame reference. Since time is the weakest energy in which all other energies establish from and relinquish to, time builds and decays all matter into energy. As each frame becomes existent the original present frame of reference changes as soon as it subsist to exist until it reaches its original state it was created. This change can be identified as frame by frame uniform worldline acceleration. There is no way to say which reference frame is "special", so all constant reference frames must be equivalent. Time acceleration never changes only the velocity affects the observer as time changes energy in comparison to the original frame of reference.
force of time = {[m/(1-(v^2/c^2))^1/2]-m}a
energy of time = {[m/(1-(v^2/c^2))^1/2]-m}c^2
wavelength of time = {{[m/(1-(v^2/c^2))^1/2]-m}c^2}/h
acceleration of time = {{[(m/(1-(v^2/c^2))^1/2]-m}^-1}f = 1
f= force m= initial mass v= velocity c= speed of light a= acceleration h= planck's constant e= energy
Frequencies exist rounded around 10^18-23 hz
force of time = {[m/(1-(v^2/c^2))^1/2]-m}a
energy of time = {[m/(1-(v^2/c^2))^1/2]-m}c^2
wavelength of time = {{[m/(1-(v^2/c^2))^1/2]-m}c^2}/h
acceleration of time = {{[(m/(1-(v^2/c^2))^1/2]-m}^-1}f = 1
f= force m= initial mass v= velocity c= speed of light a= acceleration h= planck's constant e= energy
Frequencies exist rounded around 10^18-23 hz
