Alternating Power - Myth Debunked

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All electrical power is direct power, rather than alternating power.

The first indicator is that the commutators of a power station dynamo only turn in one direction. That occurs under constant acceleration or, alternatively, in constant revolution. The power will naturally follow suit as it is not rectified to change direction.

If you measure alternating power with multimeters, the component being tested will always produce a positive reading. That is true of voltage or current. Current dividers produce electrical flux in parallel, in truth, orthogonal to each other as dot product. It this case it is a wired AND result as expected when the dimensions of flux are actually orthogonal rather than parallel, with respect to the physics and the topology of dimensions in mathematics.

f is a constant of 1 Hz. See Journal blog posts as a guide to where that is discussed in more detail.

V = I * R ,

V = Q * f * R ,

I = ( Q * f * R ) * ( 1 / R ) ,

R = V / ( Q * f )

P = (Q * f * R) * ( Q * f * R ) * ( 1 / R )

= V ^ 2 * ( 1 / R )

Resistance has no meaning without active electrical flux across it.

In simplicity, voltage and current are the same measure of electrical flux - one orthogonal to other. Voltage rotates about the axis of a wire loop. Current revolves around the loop, along the axis. Voltage field strength is Z times that of current, where Z equals light speed, c divided by the units, m/s to arrive at 2.99792458 * 10 ^ 8. Z is a useful number in physics, devised by the author.

Oscilloscopes are calibrated to display simple amplification. Sine squared requires more complex circuitry. That is why the natural sine squared wave was poorly represented on early and artificial oscilloscopes.

Regardless, all natural waves are energetic and cannot be negative. Alternating power is direct power phase shifted by pi/2 - orthogonally.

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