Electronic/Electrical Engineering - Yesterday's Resistors

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A single resister in a circuit is placed to create a voltage change (voltage drop). Voltage changes can be applied via the use of a transformer. They do so without so much as negligible resistance in the circuit. In a standard or electrical circuit, the resistor function can be replaced by two parallel solenoids.

The absence of a core increases the voltage transformation effect. Depending on the orientation of the two dissimilarity wound solenoids, the voltage can be stepped up or down. Current will react alternatively to the voltage change.

For electronics, the solenoids are substituted by inductors. Integrated circuit temperature will fall dramatically with this device substitution. It will also reduce quantum noise by a non-linear degree of freedom to pursue Moore’s Law, in manufacture, with greater confidence than ever before.

The use of Alternating Power, at above UHF the circuit will be much cooler than at low frequency:

v = I * r,

Q * f * r,

Q * ( F + f ) * ( R + r )

When variable resistance in the heating devices rises, fixed frequency will lower the rate of angular momentum. The fixed frequency will above UHF to begin with as the fixed resistance is sufficiently low. The circuit will be cooler, at least as cool as room temperature by no more than few degrees Kelvin, in either direction.

When the power shifts direction, the current or quantum spin is broken temporarily so the circuit is a rectifier against quantum interference.

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