Quantum Theory
Classical Quantum Mechanics:
vIn Feb 2010 AlienScientist interviewed Frank Znidarsic and helped him to published an updated version of his paper titled "Control of the Natural Forces"(PDF). This seminal papers shows a classical derivation of Planck's constant (the basis of Modern Quantum Theory). If proven correct this discovery could revolutionize physics as we know it.
The great scientists described the energy of a photon in terms of its frequency. The energy of classical wave is a function of its amplitude, not its frequency. This discrepancy has been a long standing mystery. The principle of quantum correspondence was invented in an attempt to circumvent this problem. It proposes, with some slight of hand, that the frequency of a quantum system appears as amplitude in a classical system. Frank has rejected this proposition and shows that the energy of light is an effect of the photon’s displacement.
Frank Published The Duality of Matter and Waves"t in the July 2010 Issue of Infinite Energy Magazine, which expanded upon much of the theory presented in the first paper.
By studying the role that phonons play in the physical properties of solids we have derived an analogy between the way phonons carry sound within matter (through the action of the force between atoms), and the way phonons carry sound within the nucleus of atoms (by the force between nucleons). The number of protons Z, along with the Coulombic Force from electric charge, sets the velocity of these optical phonons in the nucleus. This velocity determines atomic structure. When a photon is absorbed or emitted by an electron it must go through a transitional quantum state. During this state the speed of light couples with the speed of sound within the nuclear structure of the atom. This provides a mechanism for energy transfer between the electron and the photon, and reveals the path of the quantum transition.
H. Ziegler pointed out in a 1909 discussion with Einstein, Planck, and Stark that relativity would be a natural result if all of the most basic components of mass moved at the constant speed of light.
It also turns out that the velocity also happens to be equal to the calculated escape velocity for the Milky Way Galaxy. This could mean that the laws of physics may be slightly different in other galaxies. The spectral emissions of atoms might be a slightly different frequency. Or maybe somehow it all balances out?
Either way, the theory successfully meshes Quantum Mechanics with Relativity