Quantum Field Theory and Quantum Statistics: Quantum

Format: Hardcover

Language: English

Format: PDF / Kindle / ePub

Size: 6.27 MB

Downloadable formats: PDF

If space and time behave like a superfluid, or a fluid that experiences no dissipation at all, then path memory could conceivably give rise to the strange quantum phenomenon of entanglement — what Einstein referred to as “spooky action at a distance.” When two particles become entangled, a measurement of the state of one instantly affects that of the other. The Schrodinger equation is the mathematical equation that describes the way that the quantum wavefunction, which is the distribution of probabilities that a quantum system will be in any given quantum state, evolves over time. [...] Schrodinger's equation involves the rates of change of the wave function in both space and time; consequently it can't be solved without calculus. in addition, it involves imaginary numbers (the term mathematicians use when referring to the square root of negative numbers), and thus calls upon considerable imagination to interpret.

Pages: 720

Publisher: Adam Hilger (May 1987)

ISBN: 0852745737

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Or they abandon MW, which pitches them back into the problem that chance (Copenhagen) & determinism (Hidden Variables) both require a necessary being. (In the second case, Flew’s statement must ultimately be false.) 4) It is not clear that that even an infinite number of universes would produce our life-giving universe http://portraitofacreative.com/books/tsunami-progress-in-prediction-disaster-prevention-and-warning-advances-in-natural-and. We can predict probabilities (there is a 1/36 chance of getting "2", a 2/36 chance of getting "3", and so on) and the probable distribution of results after 1000 throws, but unless the dice are "fixed" there is no way to predict with certainty the result of any individual dice-roll. } <...snip...> 3) Here is one illustration: If you ask quantum physics to trace the path of an electron as it moves around inside a hydrogen atom, the theory says "I'm sorry, I can't do that."
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