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Momentum is derived by the equation p = mv, where p is the momentum, m is the mass and v its velocity. Since the maximum velocity of anything in the universe is c then the potential maximum momentum is p = mc. If we then integrate this we find thatm + Cequates to kinetic energy. In this case equaling (1/2)mc^2 + C. This is understandable since the potential maximum kinetic energy for the mass has been derived from the potential maximum momentum. If we disregard C then the kinetic energy is half the systems total energy.Kinetic energy is in its proper form as ke = (1/2)mv^2. If we then say e = mv^2 what would this mean?
Quote from: jeffreyH on 18/06/2015 01:46:38Momentum is derived by the equation p = mv, where p is the momentum, m is the mass and v its velocity. Since the maximum velocity of anything in the universe is c then the potential maximum momentum is p = mc. If we then integrate this we find thatm + Cequates to kinetic energy. In this case equaling (1/2)mc^2 + C. This is understandable since the potential maximum kinetic energy for the mass has been derived from the potential maximum momentum. If we disregard C then the kinetic energy is half the systems total energy.Kinetic energy is in its proper form as ke = (1/2)mv^2. If we then say e = mv^2 what would this mean?It doesn't mean anything. Just because you can do something mathematically it doesn't mean that there's any physical connection to it.
We can take the equation
You haven't seen where I am going yet. This is totally a unbalanced and invalid equation. There is a reason for it.