by Musa D. Abdullahi | Apr 15, 2014 | Paper

For an electron of mass m and charge e moving at time t with velocity v and acceleration d v /dt in an electric field of magnitude E, the accelerating force is proposed, in accordance with Newton’s second law of motion, as F = eE(c – v)/c = m(d v /dt). The...
by Musa D. Abdullahi | Apr 15, 2014 | Paper

An electric charge Q of mass m, in the form of a spherical shell of radius a, moving at time t with velocity v and acceleration d v / d t, generates an electro-dynamic field X proportional to the acceleration. The field X acts on the self-same charge Q to produce an...
by Musa D. Abdullahi | Apr 15, 2014 | Paper

An electric charge Q of mass m, in the form of a spherical shell of radius a, moving at time t with velocity v and acceleration d v / d t, generates an electro-dynamic field X proportional to the acceleration. The field X acts on the self-same charge Q to produce an...
by Musa D. Abdullahi | Apr 15, 2014 | Paper

An electric charge Q of mass m, in the form of a spherical shell of radius a, moving at time t with velocity v and acceleration d v / d t, generates an electro-dynamic field X proportional to the acceleration. The field X acts on the self-same charge Q to produce an...
by Henrik Vilhelm Broberg | Apr 15, 2014 | Paper

This paper deals with the conceptual origin of particle mass and its relation to energy and space. It has been impossible, along the way, to avoid the question of the unification of the forces, and some results have been achieved in this area as well. Keywords: Mass,...