@holmz let’s start with
About 11-12% of the time the mains voltage is too low to pulse any current into the power supply (Assuming that the rail is at ~28V).
The only point in time where electrical energy does NOT flow is at that point in time when the voltage passes from the +ve cycle to the -ve cycle - the rest of the time there is energy transfer
If it all happened in the blink of an eye, then how is it the tube monoblocks ran for many seconds (!10 Seconds) when the power switch was shut off?
My guess would be that tube monoblocks "store" a LOT of energy in the form of
- electrical energy in the large transformers and capacitors used in tube designs
- residual heat energy in the heaters of the tubes allowing sound to be heard even after the power was turned off
The resistance of copper and silver is pretty close to zero, and the speed of the electric field is pretty fast.
It’s not about resistance - it’s all about Valence electrons and the speed at which the valence electrons in a metal react in order to transfer electrical energy
Valence electrons in Silver move much more freely than they do in copper - this is conductivity
It take far less energy to make the valence electrons move between atoms and therefore the dynamic performance of silver wire is faster than copper.
then how does 3 feet of silver result in anything more dynamic happening?
As I said in a previous post - at each "connection point" (i.e. a plug) the only electrical attribute present is Voltage.so the energy that "flows" through an attached cable is dependent on the properties of the cable that the energy is about to flow through
- conductivity of the metal (e,g, silver) used in the conductors allows the valence electrons to react more quickly resulting in a cable that is able to provide better dynamic perofrmance.
If the power cord is doing some other stuff like filtering noise, then I could understand that as a goal.
A good power cable
- does NOT interfere with (or filter) the transfer of the electrical energy,
- it also does not introduce noise into that cables by using
- a geometry that mitigates the creation of induced noise between conductors
- an insulation that that has a low dielectric constant
- which reduces the amount of noise created in the cables due to the charging and recharging of the insulation surrounding each condcutor.
Here are three sites that may explain things better.
https://www.psaudio.com/article/cables-time-is-of-the-essence-part-1/
https://www.psaudio.com/article/cables-time-is-of-the-essence-part-2/
https://www.psaudio.com/article/cables-time-is-of-the-essence-part-3/
Hope that helps - Steve
