jea48
So how does the wire directionality have an effect on the magnetic wave as it travels down the wire from the source to the load at near the speed of light?
>>>>One assumes you mean the electromagnetic wave, not the magnetic wave. 😛
also,
jea48 wrote,
Now the signal energy is traveling down the wire from the source to the load at near the speed of light.
>>>>>Well, actually in the AC circuit you’re referring to the signal energy travels both ways, the signal direction is alternating along with the electron drift velocity direction on the + and - wires. Please keep in mind the “signal energy” is not the audio waveform - it’s the current and voltage. When I refer to the “audio signal” in wires it’s the current and voltage. You don’t get an audio waveform until the speakers generate it.
So how does the wire directionality have an effect on the magnetic wave as it travels down the wire from the source to the load at near the speed of light?
>>>>One assumes you mean the electromagnetic wave, not the magnetic wave. 😛
also,
jea48 wrote,
Now the signal energy is traveling down the wire from the source to the load at near the speed of light.
>>>>>Well, actually in the AC circuit you’re referring to the signal energy travels both ways, the signal direction is alternating along with the electron drift velocity direction on the + and - wires. Please keep in mind the “signal energy” is not the audio waveform - it’s the current and voltage. When I refer to the “audio signal” in wires it’s the current and voltage. You don’t get an audio waveform until the speakers generate it.