Sunday, 22 October 2017

Inductance and Random Movement of Electrons

Inducing a magnetic field has long been referred to as inductance. When a curling field of electrons is induced in a region of space it is said to have a magnetic field. The more curl to the field the greater the magnetic field intensity. The electrons can really get spinning and if we look closely we can see that the electrons exhibiting curl in the field have a great deal of order to them. The flux of the flow is said to be inductive but it could also be described as curling.

We can also make observations with the opposite phenomenon. When there is no curling to the movement of electrons they tend to move randomly. There is no tight packing of molecules or atoms in the space where this random movement of electrons exists. The matter falls out of these spaces and we have a relative vacuum. This vacuum is nothing like a proper vacuum there is just less flux to the flow of electrons in the region where random motion of electrons exists.

Consider the experiment where two wires are place next to each other with odd mode current running through them. The flux of the flow is additive causing the curl from each wire's ejected electrons to add. This adds order to the system. Extra curl in the electron field draws in more ions and matter to force the two wires apart.

Consider the experiment where two wires are place next to each other with common mode current running through them. The flux of the flow subtracts with the curl from one wire's ejected electrons canceling the curl from the electrons on the other wire. The result is randomness. Electrons moving about a different manner will scatter and make it difficult for matter or ions to exist there. The wires will move closer to each other as a result. 

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