Coulomb's constant conveniently represents in terms of four discrete components.

Starting with Coulomb's Constant:

(1.1)

The units expand to:

(1.2)

From the above it would appear that Coulomb's constant might be a combination of velocity, inductance and capacitance. But in the Aether it is known that the units of inductance and capacitance are actually involved in permeability and permittivity, respectively. This leaves the units of amp per volt, which is conductance, which is in units of siemens:

(1.3)

It would appear that the Aether contains a conductance constant, which can derive as:

(1.4)

(1.5)

such that Coulomb's constant can be expressed as

(1.6)

This reveals four factors contributing to Coulomb's Constant:

1. Speed of Light

2. Conductance of Aether

3. Permeability of Aether

4. Permittivity of Aether

As is seen on the Charge page, subatomic particles have more than just an elementary charge. Electrons, protons, and neutrons also have a strong nuclear binding charge, or electromagnetic charge.

(1.7)

This gives another expression for the conductance constant:

(1.8a) and

(1.8b)

The conductance constant also expresses in terms of Aether charge associated with conductance and Aether angular momentum; where angular momentum of mass associated with the Aether is equal to:

(1.9) or

(1.10)

m_a is the mass associated with the Aether, F_q is the quantum frequency, and is the Compton wavelength (quantum length.) In terms of Aether values, the conductance constant expresses as:

(1.11)

where e_a² is the electromagnetic charge associated with the Aether. The same relationship to the conductance constant occurs with the proton and neutron. This common relationship is due to the universal mass to electromagnetic charge ratio.

One practical use of the Aether conductance constant is in the equation for particle strong charge (electromagnetic charge).

Coulomb's Constant also relates to the rmfd (or A_u) constant.