Quantum AetherDynamics is the Aether Physics Model's replacement for Maxwell's equations.

The new Quantum Measurements Units reveal many errors in Maxwell's equations, which are addressed in an analysis of Maxwell's paper. A new electrodynamic theory is herein proposed to replace Maxwell's equations, and which can address the electrical engineer's demands for useful theory and formulas regarding electric and magnetic behaviors. An added bonus is that the engineer can now perform more calculations concerning physical phenomena than ever before.

James Clerk Maxwell began his introduction to "A Dynamical Theory of the Electromagnetic Field" by first ascertaining the "magnitude and direction of the force acting between the bodies, and when it is found that this force depends in a certain way upon the relative position of the bodies and on their electric or magnetic condition, it seems at first sight natural to explain the facts by assuming the existence of something either at rest or in motion in each body, constituting its electric or magnetic state, and capable of acting at a distance according to mathematical laws."

Our analysis will instead begin by describing the nature of space and physical matter such that the engineer may better visualize the structures and mechanics of electrodynamics. Having the benefit in modern times of a fully quantified relationship between space and matter as first discovered by Albert Einstein and published in his General Relativity theory, our analysis will begin with the complete matter equals Aether tensor equation.

The "matter equals Aether" tensor equation, expressed as an extension of the work of Karl Schwarzschild, demonstrates the balance between the length density limit of physical matter and the curl of the Aether.

\begin{equation}\frac{G}{c^{2}}\cdot\frac{m_{a}}{\lambda_{C}}=curl \cdot\frac{A_{u}}{c^{2}}\end{equation}

Due to the mechanics of forming a neutron, where the space of the electron folds over on top of the space of the proton, the neutron is the mechanism whereby space is pinched. Since half the mass of all normal matter composes from neutrons, half the mass of an object has twice the space density of electrons and protons. Furthermore, the pinched space of the neutrons stretches in the surrounding space to produce a space density gradient.

The space density gradient surrounding objects with mass have less space density nearest the surface of the massive object, and in which the space density gradient gradually increases back to its relaxed state.

For a given distance from the surface of a massive object, we can then calculate the circular deflection angle (refraction) around the object's center of mass:

\begin{equation}\frac{G}{c^{2}}\cdot\frac{2m_{object}}{r_{object}}=\frac{curl}{2} \cdot\frac{A_{u}}{c^{2}}\end{equation}

In the case of the Sun, the circular deflection angle (curl) is equal to:

\begin{equation}\label{circdeflect}\frac{G}{c^{2}}\cdot\frac{2m_{sun}}{r_{sun}}=8.493\times 10^{-6}\frac{curl}{2} \cdot\frac{A_{u}}{c^{2}}\end{equation}

where the numerical portion of the curl unit is the angle expressed in radians, which is also equal to 1.752 arcminutes. In other words, the unit of curl is the dimensional expression of radians.

The circular deflection angle equation (\ref{circdeflect}) is already well proven since the Eddington observation in 1919.

The Quantum Measurements Units of the Aether Physics Model quatifies the unit of curl in terms of MKS units as:

\begin{equation}curl=6.333\times 10^{4}\frac{coul^{2}}{kg\cdot m}\end{equation}

The reciprocal of the curl unit is the unit of permeability:

\begin{equation}\frac{1}{curl}=perm\end{equation}

Where curl is the dimensional expression of radians, the unit of perm is the dimensional expression of "turns." Turns refer to the turns of a coil, and where turns are the reciprocal value of radians.

In the case of a single layer, air core solenoid coil the equation for inductance is equal to:

\begin{equation}perm\cdot leng=indc\end{equation}