Explanation of Mass in Physics
Mass of a subatomic particle can be explained as
its receptiveness to (interactivity with) the gravitational wave –
massiveness of a particle being due to approximating in diameter
¼ of a gravitational wave-length, similarly as
the receptivity of a radio-receiver’s antenna to the ¼ length of the carrier-wave.
Thus, the diameter of a nucleon is more nearly ¼ length of
the standard for the gravitational wave (all such waves being of the same length),
than is the diameter of an electron; and a photon is so disparate from that length
(being excessively long) as to have very little receptivity (or mass).
[The shock-wave accompanying a particle accelerated by a magnetic field –
falsely misinterpreted a mass-gain praedicted (wrongly) by Special Relativity –
is apparently longer than the gravitational wave.]
Because it is dependent only on the standard gravitational wave-length,
and not on the local field-strength of the gravitational field,
mass (inertial) would be independent of local gravitational force.
This state of affairs could well be due to mass being
a function only of the particle’s gravitational-wave transmissive
(as distinguished from its receptive) activity;
again due to space (or the aether) being conductive to
the general type gravitational waves only at one specified wave-length –
the reason for space’s (aether’s) partiality to this being to
its being a specific (minimum = 4 ?) multiple of the size of the space-quantum.