Quantum Atom Theory

When I create a work of art it takes energy and is a process over a period of time ∆E ∆t ≥ h/2π. There is always uncertainty of how the art work will turn out ∆×∆p ≥h/4π the position of the lines and curves π on the canvas. Every movement I make will have to start at the quantum level and will have an uncertainty of momentum and position. Is this not Heisenberg’s Uncertainty Principle?



Modern physics is divided into two parts the quantum physics of probability and Einstein’s general theory of relativity. The only thing the two theories have in common is that they both approximate to Newtonian physics on an everyday scale. Only a hidden variable could explain the probability of quantum mechanics uniting physics. The problem is such a variable would have to affect all the matter of the Universe from its creation to the present day. In Quantum Atom Theory that variable is Time itself. We know that time is a variable because we have time dilation when an object accelerates towards the speed of light and also around objects of great mass.



Time moves at the speed of light and energy and mass slow it down to form their own spacetime geometry. The greater the mass or energy of an object the slower time will run for that object therefore the greater the energy the shorter the time period.



Quantum entanglement can be explained if light has spherical symmetry and the polarization of a photon remains the same for the whole surface of the sphere. When the spherical waves come in contact with electrons on the surface of an atom it will form photons. Each photon will have a unique position in space and time that will be part of the time continuum.



Time is continuously formed by the emission and absorption of light (EMR) from one atom to another forming the broken symmetry and geometry of spacetime.



In this theory we have wave-particle duality because light is a wave moving through space and a particle when it comes in contact with an electron on the surface of an atom. It then forms a photon of quantized energy representing a moment in time. This will form a future wave-function of probability as part of the continuum of time forming the geometry or curvature of spacetime.



