Finally found it. Bob Teals magnipulsion -

Bob Teal | Magnipulsion| Missing Interview - YouTube

Thanks

Ah yes, it is quite complex mechanically though, similar to an internal combustion engine.

Most motors that use pulsed dc coils can be made to produce excess energy by similar methods but the magnipulsion engine had another advantage in how the magnetism works on the piston. I couldn't explain it though without going through all the research again.

I think the benefits are mitigated somewhat by the mechanical complexity, friction and inertia problems. It would be a challenging task for a machinist to make the parts too as play in the bearings would cause problems just as in a car engine.

Hi mbrown,

Thanks for that.

My son had bought me motor secrets 1 & 2 and the lockridge.

I went back and watched them and Peter details greatly, the work of
Bob Teal.

Thanks, Garry

I think consume may be the wrong word. The load,magnetic resistance/or reluctance,can be measured. Magnetic flux is a closed loop and follows the path of least reluctance.

"The concentration of flux in low-reluctance materials forms strong temporary poles and causes mechanical forces that tend to move the materials towards regions of higher flux so it is always an attractive force(pull)."
Magnetic reluctance - Wikipedia, the free encyclopedia

These are the questions. assuming air cores and the same amount of wire in each case.

When we pass 12v at 1 amp through a wire little measurable magnetism is produced but if we coil the wire the magnetism becomes pronounced. Is the amount of magnetism the same in both cases and only that it is concentrated in a small area in the case of a coil?

When we have a coil of wire it demonstrates an impedance more than the wire in a straight line. It also stores an amount of energy which can be recovered from the field collapse. After we have recovered the energy in the coil collapse did we consume any more power in the coil when compared to the straight wire?

If we take two identical wires and wind coils one with 50 turns and one with 100 turns, then pulse them with the same amount of energy, recover the energy and measure the losses. Did we produce the same magnetic force with the two coils? did the amount of recovery differ and if so how much? If we used the coils to lift Identical iron weights, ie doing work not just force, was more energy lost in one coil compared to the other and if so what was the difference?

I don't want to know what all the mathematical formulas are just is there a measurable difference in work done and power losses. a simple answer will do with a reference for me to study.

I suspect there is but not not directly proportional in which case why is there a difference?