alt.sci.physics

Does voltage indeed equal point charge repulsion energy per point
charge? In other words, for a concentration of like point charges,
the total energy due to repulsion between the point charges divided by
the number of point charges = voltage?

In a LC circuit, what percent of energy due to point charge repulsion
converts to electron acceleration and what percent converts to
magnetism?

It seems to me that all point charge repulsion energy converts to
magnetic energy. In the LC circuit, if a second coil is added to the
LC coil to form a perfect transformer: All the magnetic energy
produced in a primary coil converts to heat energy in a resistive
load.

It also seems to me that all point charge repulsion energy converts to
electron acceleration, none to magnetism. Otherwise, point charge
acceleration energy would not equal the energy causing the
acceleration.

It seems to me that magnetic energy is not point charge repulsion
energy because magnetic energy can cause perpendicular acceleration to
point charges with forward velocity. Electron velocity itself does
not cause point charge perpendicular acceleration. Is there some sort
of violation of conservation of energy within an LC oscillator?