| same time same place
Or another time another place, this is for two events to meet. If elastic then most likely the events will never meet again. If inelastic then the events will probably stuck together for a long time. If cyclic then the events will have the chance of meeting periodically, again and again.
Thermodynamics could describe the first. Classical mechanics could describe the second and wave mechanics, the third. The first would dissipate energy. The second would conserve it and the third would transform it, say, from mechanical to electrical, vice versa. The dominant force for the first tends to be repulsive, the second attractive, but the third, equally repulsive and attractive. The physical structures of the first appear somewhat gaseous and compressible. Its shape and size change easily. The second’s appear solid and rigid. Its shape and size hardly change, the third, liquid and incompressible. Its shape change easily but its size does not. Altogether in various states of action configurations would then form all the possible interactions of space-time events of physical reality.
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Time independence: [∂E(g)]²=[∂F(a)×∂r(a)]·[∂F(b)×∂r(b)] and Mass independence: ¶a(t)·¶r(t)=c²
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Re: same time same place 
Linear Mode
