All that it takes is a leap of faith, get over yourself.
VERN BENDER
Reality is a complicated thing, especially when you only see part of it. Relying on math to see the rest of reality can only get you so far. Total reality will always be beyond your grasp. All that it takes is a leap of faith; get over yourself.
Something well known is that light packets exhibit both wavelike and particle-like properties.
Cosmic history is an open book, then complexity emerges. There is plenty more to discover; mysteries remain.
Bell’s theorem Proved Spooky Action at a Distance Is Real. Quantum mechanics permits instantaneous connections between far-apart locations. When Bell proved, quantum mechanics predicted stronger statistical correlations in the outcomes of specific far-apart measurements than any local theory could.
The measuring of the properties of entangled particles yields strongly correlated results, even when the particles are far apart and measured nearly simultaneously. This massively violates locality. Light packets have both wavelike and particle-like properties. Dualities abound in the physical world.
Particles with spin behave somewhat like magnets. When an electron moves through the magnetic field created by a pair of north and south magnetic poles, it gets deflected by a fixed amount.
Local Hidden Variables: How is non-locality accomplished? By the universe-wide quantum web that lives underneath the spacetime continuum.
Quantum fields fill all the space in the universe. It is a framework that combines classical field theory, special relativity, and quantum mechanics. Particles and quasi-particles are exchanged between the two fields. Quasi-particles occur when a particular particle is disturbed when the atom vibrates. Phonons are the quasi-particles of sound waves. Up quarks, down quarks, electrons, and photons are composites of something more fundamental.
There are three quantum fields: the electromagnetic field, the electron field, and the Higgs field.
In the Quantum Complementarity principle of physics, objects have specific complementary properties that cannot be observed or measured simultaneously. Complete atomic dimensionality requires a description of both wave and particle properties; it is impossible to see the wave and particle aspects simultaneously. Knowing position and momentum ain’t going to happen in the quantum world.
Quantum mechanics is not telling the whole story. There is an underlying level below. A measurement reveals the preexisting value of a hidden variable. Quantum mechanics are inherently incomplete; the randomness of a system depends not on collapsing wave functions but unseen or unmeasurable hidden variables. The correct, completed framework of quantum field theory is in the works.
There is a hidden quantum reality underlying what we observe. The answers lie on a click lower.
Symmetry abides in both art and science.
Reality is a complicated thing, especially when you only see part of it. Relying on math to see the rest of reality can only get you so far. Total reality will always be beyond your grasp. All that it takes is a leap of faith; get over yourself. Light packets are well known to exhibit both wavelike and particle-like properties.
Cosmic history is an open book, then complexity emerges. There is plenty more to discover; mysteries remain.
Bell’s theorem Proved Spooky Action at a Distance Is Real. Quantum mechanics permits instantaneous connections between far-apart locations. . Bell proved quantum mechanics predicted stronger statistical correlations in the outcomes of specific far-apart measurements than any local theory could.
The measuring of the properties of entangled particles yields strongly correlated results, even when the particles are far apart and measured nearly simultaneously. This massively violates locality. Light packets have both wavelike and particle-like properties. Dualities abound in the physical world.
Particles with spin behave somewhat like magnets. When an electron moves through the magnetic field created by a pair of north and south magnetic poles, it gets deflected by a fixed amount.
Local Hidden Variables: How is non-locality accomplished? By the universe-wide quantum web that lives underneath the spacetime continuum.
Quantum fields fill all the space in the universe. It is a framework that combines classical field theory, special relativity, and quantum mechanics. Particles and quasi-particles are exchanged between the two fields. Quasi-particles occur when a particular particle is disturbed when the atom vibrates. Phonons are the quasi-particles of sound waves. Up quarks, down quarks, electrons, and photons are composites of something more fundamental.
There are three quantum fields: the electromagnetic field, the electron field, and the Higgs field.
In the Quantum Complementarity principle of physics, objects have specific complementary properties that cannot be observed or measured simultaneously. Complete atomic dimensionality requires a description of both wave and particle properties; it is impossible to see the wave and particle aspects simultaneously. Knowing position and momentum ain’t going to happen in the quantum world.
Quantum mechanics is not telling the whole story. There is an underlying level below. A measurement reveals the preexisting value of a hidden variable. Quantum mechanics are inherently incomplete; the randomness of a system depends not on collapsing wave functions but unseen or unmeasurable hidden variables. The correct, completed framework of quantum field theory is in the works.
There is a hidden quantum reality underlying what we observe. The answers lie one click lower.
