Thursday, 1 June 2017

Spinning Electron Curl and Magnetism

When electrons spin in a curling electron field they influence other electrons through collisions and possibly wave related interactions. When electrons spin together in large numbers they create a magnetic effect. In vector calculus the spinning of a field of electrons is known as curl. The curl of the electron field is magnetism.

Electrons can curl because a ferromagnetic material aligns the spinning of the electron field or a field of electrons can align in spin due to a coiled conductor that similarly aligns the curl of the electron field around the coil. The conductor exhibits radiation as shown by the telegrapher's model of the conductor. There is a series inductance, series resistance, shunt capacitance and shunt admittance. It is the series inductance that represents the electrons leaving the coil to cause a curl in the flux of the flow of the electron field.

The curl in the electron field draws in more massive positive ions to form the nuclei of atoms. Precisely, the spinning electrons creates an environment conducive to supporting matter. More mass between two solids will result in the solids seeming to repel. The additional curl can come from two wires with opposite currents on each. Also when two like poles of magnets are put next to each other the curls of both poles wrap back allowing a cushion of air to develop. The cushion of air arises because of the spinning electrons and the ions those electrons draw in.

The pressure that electrons and ions are under near the Earth's surface is great. The electrons and ions are forcing one another together and they will be forced to interact. A square meter of matter may contain more than ten to the twenty seventh power electrons. There is a lot of interaction going on.

A curl in the electron field supports matter in that field. Near the surface of the Earth there is an incredible amount of electron pressure that supports electrons or ions to interact in a close manner.

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