This of course depents on the amp you are using. Generally increasing the dc-voltage will decrease the input signal strength at which it will clip, but of course only if your amp is build to be able to handle a higher dc-voltage.
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Your question is unclear. But, if you are asking what the relationship between voltage and the distance between conductors is, then the higher the voltage, the greater the distance must be.
0.7
voltage depend on current and resistance r.p.m depend on no of pole
A high dc voltage would be applied to test the insulation between the windings.
something to drop the excess voltage across while clipping.
voltage and frequency both are different quantity.. don't mix it...
The relationship between the voltage applied to a circuit and the velocity of electrons within that circuit is direct. When a higher voltage is applied to a circuit, the electrons within the circuit move faster, resulting in an increase in their velocity.
The relationship between wavelength and peak voltage depends on the type of wave. In electromagnetic waves like light or radio waves, there is no direct correlation between wavelength and peak voltage. However, in signals like electrical voltage waveforms, the peak voltage is often correlated with the frequency of the wave.
Any voltage that is fed into or "applied" to an electrical circuit is referred to as an "applied voltage".
Clipping level increases. For example, if the clipping level was 2V before freezing, it will clip at a voltage greater than 2V when frozen.
Vrms=1.414xVpk to pk