Directional wires/cables

AC or Alternating Current flows for a short period in one direction, then reverses direction repeatedly. Analog audio signals are AC,

ELECTRICITY MISCONCEPTIONS:

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@jea48 -

                                       Save your keystrokes!

                                            Happy listening!

@richardbrand +1 

to add: DC is connected btw source and load with two wires, one is for forward the other one for return current, in opposite to forward direction. This makes all cable directionality proposals DOA. 

@herman

The AC signal that is transferring energy from the source to the load (amp to speaker for example) is NOT doing so by moving electrons from the source to the load. Electrons are NOT flowing down the wire like water through a hose.

Think about it..The energy will flow through a capacitor which has an insulator in the middle of it. How do the electrons flow through an insulator? 

The energy can travel through a vacuum where there are no electrons, think radio waves.

High frequency AC  waves are commonly sent down tubes called waveguides which are hollow = no conductor = no electrons. 

The amplifier transferring energy to the speaker does it by moving electrons backwards and forwards through the connecting wires.  If the energy was flowing in space, you would not need fat wires and the wire resistance would not matter. Some energy does leak out as electromagnetic radiation but this energy is wasted!  QED.

A capacitor acts as a storage unit for electrons.  Pump some in on one plate, and electrons will depart from the opposite plate.  Then the current will stop unless you pump the other way (that is, reverse the applied voltage). Lo and behold, current flows the other way.  Keep alternating the voltage, and alternating current appears to flow through the capacitor, even though the plates are completely insulated from each other. The higher the frequency, the less impedance the capacitor presents to the flow of AC alternating current although the capacitor completely blocks DC (direct current).  QED

Energy can flow through a vacuum as electromagnetic radiation (light, X-rays, infra-red heat, radio waves, microwaves, etc) which vary from each other only in frequency.  Energy can also flow in a vacuum as electron streams (think the old cathode ray TV sets, vacuum tubes, electron microscopes).  So what?  QED

At very high frequencies, most of the current flows at the surface of a conductor because of the skin effect.  The effect becomes important at radio frequencies: at mains frequencies in copper the skin is about 10-mm thick!  Consequently for high frequency transmission, there is little reason to fill the centre of a conductor with expensive metal.  Instead the energy is carried by electrons flowing at the surface of the hollow tube.  However, there is a conductor and there are electrons flowing.  QED

@jea48

I think the answer is instantly. The switch is opened, Games over.

This was in response to what happens when a light is switched off, and of course the answer given is so wrong on so many levels!

When the light is on, it is because power is delivered in an electrical circuit featured by voltage and current - likely to be direct current in a car or alternating current in a home. When the current is suddenly interrupted because the switch is thrown, electrical pressure builds up at the switch. This pressure is known as voltage. If the current was big enough, the voltage becomes high enough to ionise the surrounding air and cause sparks at the switch contacts.

This is precisely the phenomenon used by older car ignition systems to generate very high voltages from 12-Volt DC electrical systems.

On another level, the light will keep generating light as the current it receives slowly dies away. High power incandescent lamps will still be hot enough to shine for a while after receiving no power at all.

Albert Einstein would assert that nothing can travel faster than the speed of light in a vacuum. It would take at least that long for the signal from the switch to reach the bulb. He would also say that there is no such thing as a single instant. Time is relative to where you are and how fast you are moving. Your ’instant’ is different to mine! But you claim to know all this stuff?