Coulomb’s constant can be derived classically from the four fundamental Plancks: Planck mass, Planck length, Planck time and Planck charge. In wave constant form, it is a complex …

The Planck constant (h) appears in many physics equations, most notably E=hf (otherwise known as the Planck relation or Planck-Einstein relation). Named after Max Planck, it is used to …

The five classical constants come from four Planck constants and a constant for the electron, covered in a separate page. This section highlights new energy wave equations used in the …

In classical format, the Rydberg constant is derived from the fine structure constant and electron radius. In wave format, it is derived from the Transverse Wavelength Equation.

In classical format, the gravitational constant can be derived from Planck length, Planck mass and Planck time. In wave format, it comes from the electric force equation that is a reduction of …

There are many fundamental physical constants that appear in equations today such as the Planck constant (h) to calculate photon energy, the Coulomb constant (k) to calculate the …

In the following years, Albert Einstein extended the work to “quantize” radiation, eventually becoming the quantum energy equation for light and for all frequencies in the electromagnetic …

The proportionality constant that relates force to charge and distance is given the letter k, or k e, and is known as Coulomb’s constant. In energy wave theory, particles experience constructive …

The key equations from energy wave theory can be described in a format using classical constants, all of which can ultimately be derived from the five fundamental constants as …

The energy of a photon is related to its frequency/wavelength and calculated using the Planck relation, E=hf, where energy (E) is related to the frequency (f) and a proportionality constant …