energy with entropy of either at rest or in motion velocity of equilibrium....
e=mc^2x0.5/m/c=0
even energy as it slows into an equilibrium constant after change in energy growth occurs...it also at the same time slows back down
e = energy
m = mass
c = constant acceleration (which is 9 meters a second or something i dont exactly remember)
=
0.5 which is the opposite of square or square root
/m divided by the mass
/c divided by the same constant
= 0 or the mass in either at rest or no motion or in motion of new constant velocity
e=mc^2x0.5/m/c=0
even energy as it slows into an equilibrium constant after change in energy growth occurs...it also at the same time slows back down
e = energy
m = mass
c = constant acceleration (which is 9 meters a second or something i dont exactly remember)
=
0.5 which is the opposite of square or square root
/m divided by the mass
/c divided by the same constant
= 0 or the mass in either at rest or no motion or in motion of new constant velocity