Mechanics / Electrodynamics
September 3, 2019
All gravitational effects can be accounted for as parts of the electromagnetic Maxwell force, and as such, the two forces can be unified into a single force. Inertia is an electrically neutral effect similar to self-induction, which naturally expands to an electrically neutral Maxwell force for any reasonable model of inertia. The neutral Maxwell force explains many components of gravity and also an accelerating force causing matter to move away from matter. Any physical model for acceleration due to electromagnetic force has the appearance of a Casimir effect with acceleration occurring due to differentials in pressure from the quantum field. One part of that is the Fatio-Casimir effect that also accelerates electrically neutral bodies and behaves like the attractive force due to gravity. Newton’s constant G is a combination of the Maxwell repulsive force, the attractive Fatio-Casimir effect, the attractive neutral Lorentz forces, and other neutral Maxwell forces. The increase in quantum van der Waals torque due the presence of stable matter leads to clock-rate and speed of light slowing that leads to phenomena considered as tests of general relativity. All forces, electromagnetic, weak, strong, gravity, and mechanical can be combined into a single Maxwell stress-energy tensor in quantum field metric space where clock-rates change but not lengths.