The electromotive force is stronger than the gravitational force The gravitational force is formed by intwined mini-strings that act upon surrounding forces and surrounding forms of material phenomenology by the means of the Ricci Scalar. All gravity effects all other forces and all other forms of phenomenology because all mini-string has an indirect or direct wave-tug upon all other mini-string since all topology of superstrings and Planck phenomenon related phenomena in terms of their homotopy is interconnected in one way or another at all times except for at the space-hole. So, gravity has metric-gauge pull due to intertwined mini-strings that bear a supplemental norm condition relative to the Yau-Exact singularities of mass. Electromotive force, however, bears its metric-gauge based on the superstringular force of superstrings, Planck phenomenon related phenomena, and sheathes of mini-strings that interconnect the charges, light and the plain energy, and the electrical voltage and current of the atoms and their surroundings in terms of holomorphic and antiholomorphic attraction (metric-gauge), the illumination of phenomena by the scattering of quantized photons, the redistribution of fermionic strings, as well as the electrical discharging of electrons that flow (the transversal formed fields and the spin-orbitally formed fields of electrons). Since the electromotive force involves a metric-gauge that is primarily superstringular and not closed on the wave-tug of mini-strings that are tied to gravitons and gravitinos , the electromotive force is stronger than the gravitational force. Electrons and light are primarily Chern-Simmons since these are not completely hermitian and non-perturbative , while gluons are consistantly Yau-Exact unless these are spontaneously radioactive. Gluons are thus consistantly superconformal and Yau-Exact at the core of BRST. The Chern-Simmons Anti-De-Sitter mode that precedes the core of BRST reinforces the force of gluons. The mass of electrons is conformally invariant yet redistributed thru a Chern-Simmons plain energy. So, the mass of electrons is Yau-Exact, yet this Yau-exact condition has no Anti-De-Sitter reinforcement becase it (electrons) are trajectorially kinematic. Thus, the binding force of neucleons is a stronger force than the electromotive force.
A Gaussian transformation happens whenever the conformal invariance is altered Gauge transformations only happens when there is scattering. Gaussian transformations always happen with a gauge transformation. Yet scattering does not always happen when conformal invariance changes. Gauge transformations are usually mostly Real. Formation of a worm-hole involves a scattering that is mostly Imaginary. Light striking mass involves a scattering that is mostly Real. Real meaning on the Real Reimmanian plane and Imaginary meaning involving a multiplicit Njenhuis plane. The type of scattering that I am referring to is Calabi interactions and reverse Calabi interactions. Reverse Calabi interactions scatter into a worm-hole or these scatter into light.
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