Quantum Energy Theory on Brownian Motion


The Brownian Motion


Brownian Motion was first recorded by Robert Brown who observed the constant motion of tiny pollen particles in otherwise still water; these tiny particles being driven about by some unseen force. It was Ludwig Boltzmann who showed how the microscopic behaviour of atoms and molecules produced effects that were visible on a macroscopic scale. Einstein, drawing on the work of Maxwell and Boltzmann, produced his famous paper where he claimed that the particle displacement in a certain direction increased with the square root of time elapsed. This cannot be true as the movement depends upon the energy (heat) in the water and not on time.
The Quantum Energy Theory simply states that the molecules are moving to find other molecules with whom to exchange surplus energy (heat) from their photon seas. Thus, if the water were in a place of total isolation and each molecule could reach its own 'health state', then there would be no Brownian Motion at all.

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