The principle of the conservation of energy is not fundamental. The common belief in it is
a farce. The positive energy of the universe is balanced by its negative gravitational potential. An interplay of transient interactions would holds the energy of the new system constant until the gravitational field has the opportunity to propagate to the ends of the universe. The energy contained by new mass-energy is balanced by its negative gravitational potential. So what then is preventing the production of something from nothing? Such new mass would have to conserve angular momentum. This could be done by ejecting photons (or phonons ) of opposite spins from a system. Everything that is not excluded by our conservation laws should happen. Why don’t we see this? The answer comes from the study of the path of the quantum transition. Quantum transitions occur at a dimensional frequency of one megahertz-meter. The electron spins a dimensional frequency of one megahertz meter. The spin is coupled and canceled in a Cooper pair. No residual megahertz meter vibration remains. The paired elections do not interact with the lattice. They cannot, such an interaction is a quantum transition. Transitions do not occur at a dimensional frequency of zero. Superconductivity results. The spontaneous ejection of two phonons does not take place because there is no megahertz meter stimulation in the paired system. A quantum transtion cannot progress. The secret of producing something from nothing is to add vibration at the dimensional frequency of 1.094 megahertz-meters. The best place to do this is in a condensation of protons. Frank z
