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Originally Posted by boxcar
Your stupid non-sequiturs! Now you're going to tell us that the universe is constantly popping in and out of existence, are you?
For crying out loud, you wanna-be science genius, you can't tell us what the termination of the arrow of time is. Nor can you tell us how it's possible that we can't know what the Future holds even though, according to you, it flows from the Past in which we have all knowledge.
You're a pathetic windbag, 'cap. Always spitting into strong headwinds!
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What don't you understand about the quantum level uncertainty principle is that the same workings of the the Casimir Effect, the forces at play in the vacuum in space, as it is viewed in quantum theory. Quantum physics uses E=MC^2 on the sub atomic level
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In March 1905 , Einstein created the quantum theory of light, the idea that light exists as tiny packets, or particles, which he called photons. Alongside Max Planck's work on quanta of heat Einstein proposed one of the most shocking idea in twentieth century physics: we live in a quantum universe, one built out of tiny, discrete chunks of energy and matter.
Next, in April and May, Einstein published two papers. In one he invented a new method of counting and determining the size of the atoms or molecules in a given space and in the other he explains the phenomenon of Brownian motion. The net result was a proof that atoms actually exist - still an issue at that time - and the end to a millennia-old debate on the fundamental nature of the chemical elements.
Einstein wasn't finished yet. Later in 1905 came an extension of special relativity in which Einstein proved that energy and matter are linked in the most famous relationship in physics:
E=mc2. (The energy content of a body is equal to the mass of the body times the speed of light squared).
This equation predicted an evolution of energy roughly a million times more efficient than that obtained by ordinary physiochemical means. At first, even Einstein did not grasp the full implications of his formula, but even then he suggested that the heat produced by radium could mark the conversion of tiny amounts of the mass of the radium salts into energy.
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Nuclear fission of atomic bombs and power plants requires understanding the conversion of parts of particles on the sub atomic level to energy. Ignorance of the laws of Quantum physics, does not bode well for adherents of 17th century science