http://amasci.com/elect/mcoils.html
An interesting train of thought. Definitly worth a look. No immediate applications come to mind, as I am more knowlegable in electrostatic technology rather than magnetics, but im sure this could be put to good use somewhere, expecially the magnetic saturation switch for turning "off" an electromagnet or the transmision of magnetism with an absence of electron movement.
Quote from: armagdn03 on September 04, 2007, 01:21:01 PM
http://amasci.com/elect/mcoils.html
An interesting train of thought. Definitly worth a look. No immediate applications come to mind, as I am more knowlegable in electrostatic technology rather than magnetics, but im sure this could be put to good use somewhere, expecially the magnetic saturation switch for turning "off" an electromagnet or the transmision of magnetism with an absence of electron movement.
@all.
it is NOTHING to do with them.,
I think , the autor must know it .
Very easy to understand that .
most is not to use
also #13 to 15 is WRONG
pese
www.pese.cjb.net
.
Quote from: armagdn03 on September 04, 2007, 01:21:01 PM
http://amasci.com/elect/mcoils.html
An interesting train of thought. Definitly worth a look. No immediate applications come to mind, as I am more knowlegable in electrostatic technology rather than magnetics, but im sure this could be put to good use somewhere, expecially the magnetic saturation switch for turning "off" an electromagnet or the transmision of magnetism with an absence of electron movement.
[/quotMagnet
http://amasci.com/elect/mcoils.html Transformers RIGHT ANGLE CIRCUITRY
What the autor not know... You find with me G.P
Pic#8 ..
the magnetic induction , will only flow around the rigth side from left core and
never transfers the left side of the right sided transformer , so he can not magnetized
some induction from #1 to #2
Pic #9
Voltage cant couple capacitivly out.
even if voltage is hight. . IF capacitance is in picoFarad Range , and the Frequeny is in RF
Range (short wave , FM enz) then is it possible , but no iron-core transformer is needed.
But anyway , an "wire" i better solution.
Pic#10
Is not strange . you can use even 10 transformers in serie (each-one produced also losses.
Pic#11 & 12
Yes this is true
Pic#13
No , this is wrong
No permanent (or DC ElectroMagnet can disconnect the magnetic AC Flux totally , because
an AC Magnetfield flow "anyway" from coil #1 to #2
Pic#14
No ,it will not give higher voltage out
Pic#15
Nothing will be magnetized , such way
With an AC Electromagnet (3.coil) you can , amplifly or degrease the power , also set to Zero (an #2)
BUT : you must "pump" aditionally power into an 3. coil
Pese