The Photon, a matterenergy wave?

Chapter Eight

The relative masses of the Proton and Electron

in terms of Four Spatial Dimensions

Chapter one postulated a volume of space is composed of a continuous non-quantized "field" of mass and energy.

Chapter ten will derive the casualty all of the forces of nature in terms of energy "gradients" or "distortions" in a "surface" of a three-dimensional space manifold with respect to a fourth *spatial* dimension.

It will be shown, the relative masses of protons and electrons are due to the relative magnitude of an energy "gradient" in a "surface" of a three-dimensional space manifold with respect to a fourth *spatial* dimension. These energy "gradients" are created by a rotation in a continuous non-quantized mass component of space, which are identical to energy "gradients" responsible for the electric charges of a proton and electron.

Chapter thirteen will derive the polarity and magnitude of the electric charge of a proton and electron in terms of an energy "gradient" in a "surface" of a three-dimensional space manifold with respect to a fourth *spatial* dimension caused by a rotation of a continuous non quantized mass component of space.

The positive unit electric charge of a proton will be derived in terms of an energy "gradient" created by a "clockwise" movement or "rotation" in a continuous non-quantized matterfield component of space, while the unit electric charge of an electron will be derived in terms of an energy "gradient" created by an opposite "rotation" in a continuous non-quantized matterfield component of space.

Chapter ten indicated these energy "gradients" in a continuous non-quantized matterfield component of space effect a "surface" of a three-dimensional space manifold with respect to a fourth *spatial* dimension similar to the way energy or pressure gradients called high and low pressure areas in the earth's atmosphere effect the density of the air and surfaces of the earth.

In a high-pressure area, the rotational movement of air molecules is directed downward towards the surface of the earth. This results in the density of the air molecules at the apex of a high-pressure area to be greater than the density of the air molecules in the volume of air adjacent to the apex of a high-pressure area.

Conversely, in a low-pressure area the rotational movement of the air molecules is directed upward away form the surface of the earth. This result in the density of the air molecules at the apex of a low-pressure area to be less than the density of the air molecules in the volume of air adjacent to the apex of a low-pressure area.

The rotational motion of the air molecules associated with high and low-pressure areas also affects the surfaces they contact.

For example the downward motion of the air molecules in high-pressure area results in a surface of liquid in a barometer to become depressed while the upward motion of the air molecules in a low-pressure area result in the surface of liquid in barometer to become elevated.

The "rotational" motion of a continuous non-quantized matterfield component of space associated with the electric charge of a proton and electron effects the density of the matterfield component of space and a "surface" of three-dimensional space with respect to a fourth spatial dimension similar to how the rotational motion of air molecules in the earth atmosphere effect the density of air molecules and the surface of the earth.

In a dimensional "high-energy volume" associated with a proton the "rotational" motion of a continuous non-quantized matterfield component of space is directed "downward" with respect to a fourth *spatial* dimension, towards the "surface" of a three-dimension space manifold. This results in the density of the continuous non-quantized matterfield component of space at the apex of a dimensional "high-energy volume" to be greater than the density of the continuous non-quantized