pittsburghjoe
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Is it strictly quantum information when in that state? Is gravity and decoherence interlinked?
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Do black holes generate entropy or is its entropy simply from the objects going past the event horizon? Is the entropy layer on a black hole the boundary between real number math and complex? Is a black hole's size only from the entropy information growing on its event horizon? A black hole is a bubble in real number math. Real numbers can’t describe what is happening past the event horizon. The bubble has mass ..but it is not physical mass, it is mass in the form of quantum information ..aka entropy. There is a reason disorder is more probable than order. Coherent quantum waves are orderly waves, they don’t have entropy. Entropy is the key to decoherence. Entropy is what turns mathematical projections (physics) into something real.
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Is reality complex 4D math being projected by time to 3D real number math that contains entropy (quantum variables)? Is laser cooling slowing age and entropy? Are bonded atoms entangled to the object they represent? Have we carbon dated atoms there were in a Bose–Einstein condensate? Does Time project physics as mathematical objects? Can we genetically mod the code of new cells to repair themselves when they become damaged? Would these new lifeforms live forever?
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A black hole will completely remove entropy from an object rendering it unphysical. Whatever allows coherence will suspend entropy. No heat or incoherent light allowed. This means unobserved quantum waves don’t have entropy ..only uncertainty. A Bose–Einstein condensate shouldn’t have entropy. If we can control the entropy of an object, we can control its mathematical projection ..aka its physics. Is Decoherence: Uncertainty to Entropy?
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Is quantum information entropy and why it is on the surface area of the event horizon? Is entropy quantum information in a mathematical projection? If entropy makes mathematical projections physical, are physical objects passing the event horizon of a black hole still physical?
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Is entropy and EM radiation the keys to making a mathematical projection become physical?
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The information in the information paradox is the variables that mathematical projections are using to describe the object; mass, color, density, structure, position, velocity and number of "atoms". The holographic principle appears to have sub layers per object solution ..not just large volumes of space. Every object has its own mathematical object associated with it. Entanglement is when multiple quantum waves use the same complex mathematical object. All quantum behavior is using complex numbers with uncertainty. The holographic principle is based on the projection of mathematical objects from a higher mathematical dimension to 3D representation with "physical" properties. I question if living objects have associated math objects.
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I Know Why Primes Are Primes
pittsburghjoe replied to pittsburghjoe's topic in Physics and Mathematics
Is entanglement, complex number projection with uncertainty? Yes, we already know quantum waves are not using real numbers. They are not physical and can only be in the form of complex math. Entanglement is the same complex math object in multiple locations/vectors. -
I Know Why Primes Are Primes
pittsburghjoe replied to pittsburghjoe's topic in Physics and Mathematics
Decoherence is e to the i pi, uncertainty of position and momentum in complex matrices with uncertain variables to a real number matrix with irrational numbers for e and pi. Are irrational numbers, real numbers that have uncertainty? This is what you get when a real number projection is forced to describe a number that is part complex. -
I Know Why Primes Are Primes
pittsburghjoe replied to pittsburghjoe's topic in Physics and Mathematics
http://www.marksmath.com/math/papers/complex-primes.pdf Interesting, I was talking about complex plane to real number line. Does irrational sit between the complex plane and the real number line? I think you stumbled onto why e and pi are special. Irrational numbers are part real and part uncertain. QM objects are not it a duality, Math is. It depends on the mathematical projection that can describe it. -
The real number projection cannot describe black holes, quantum waves, dark matter and the missing twin primes. This is the reason for things that are not directly observable. https://link.springer.com/article/10.1186/s40467-016-0053-0 Uncertainty to Real is Decoherence. This is why QM can give rise to GR. What we know as physical is a mathematical projection.
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The real number line gets used with decoherence by the transformation associated when the matrix squishes space into a lower dimension. 0 Root (A - λI)vector v = vector 0 det(A - λI) = 0The projection doesn’t change the complex mathematical object. It is just how we view it. QM objects are not is duality, Math is. Uncertainty gets removed because the anticorrelation between position and momentum is gone. The variables became independent. It can't be a Cauchy Schwartz inequality anymore. All quantum behavior is associated with the complex vector. The object being sent to a lower real number dimension kills the behavior.
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Decoherence is random variables becoming independent via pi/2 radians
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The random variables are quantum waves in the complex vector without being defined for Cauchy-Schwartz inequality. Decoherence is giving the variables real numbers for position and momentum which voids Cauchy-Schwartz (Uncertainty). QM mathematical objects have random variables when not specifically defined. The second instance of decoherence in the quantum which-way eraser is the particle getting negative correlation again. 0.000000001325220000000000000000000000000000000000000000000000000000000001 / Meters per Second = Kilograms of an atomic bonded object that will have defined variables for position and momentum. It will not have uncertainty, it will naturally be viewed as a physical/classical object.
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The reason we can see quantum objects after decoherence is because the object becomes describable by real numbers with real number measurement. The object doesn’t change at all, only the view of it. Uncertainty goes from infinite to something real numbers can handle. Uncertainty is getting a real number for position and momentum. Decoherence is when Uncertainty is neutralized. An unobserved particle will go back and forth between defined complex position and momentum infinitely until decoherence. Anything with infinite uncertainty is complex ..including black holes.