The other day i was reading a very nice book by sir olviver lodge on electricity. He basically started from the beggining building upon phenomenon.
He eventually got to the statement that current has inertia. That is it resists change. When reading this i imediatly realised why. Current produces a magnetic field which consists of concentric rings. What if it is these rings which is producing the inertia effect.
If current produced a wave in aether outwards perpendicular to the wire and the wave bounced back then there would zero nodal points. It is these nodal points where the two cancel out. It is at these locations that we call the magnetic lines of force. When the current changes the lines in the aether lag behind the new lines being created by the current thus the resistance to change.
I have never been a fan of the idea that electrons are flowing to create a current and for the above idea to hold the electrons would not be flowing but instead rotating. So when a potential is applied accross a conductor the electrons allign themselves towards the pole. the better the conductor the faster the electrons spin. In a non conductor the electrons dont spin faster however they do still align themselves up just the same as the conductor.
What do you guys reckon.
Cheers
Damian
He eventually got to the statement that current has inertia. That is it resists change. When reading this i imediatly realised why. Current produces a magnetic field which consists of concentric rings. What if it is these rings which is producing the inertia effect.
If current produced a wave in aether outwards perpendicular to the wire and the wave bounced back then there would zero nodal points. It is these nodal points where the two cancel out. It is at these locations that we call the magnetic lines of force. When the current changes the lines in the aether lag behind the new lines being created by the current thus the resistance to change.
I have never been a fan of the idea that electrons are flowing to create a current and for the above idea to hold the electrons would not be flowing but instead rotating. So when a potential is applied accross a conductor the electrons allign themselves towards the pole. the better the conductor the faster the electrons spin. In a non conductor the electrons dont spin faster however they do still align themselves up just the same as the conductor.
What do you guys reckon.
Cheers
Damian
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