your mom ok
you need to have a small enough voltage drop to still charge the battery with above 12 V input from your alternator. The voltage drop depends on wire size and distance, with bigger wires you will have less voltage drop which is due to the wire resistance.
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.
The distance between high voltage lines is governed by either a switching impulse voltage or lightning impulse voltage. The distance between lines, or lines and tower must have a high enough dielectric strength to avoid flashover at these voltage. Air can withstand a voltage of 3kv/mm.
Potential difference (voltage)
is there a minimum distance between 480 volt phases. ANOTHER ANSWERThere is no such thing as a 'phase-to-phase' voltage. The correct term is 'line-to-line', which is why that voltage is called a 'line voltage'. The distance between these line conductors depends on the value of the line voltage; the greater the line voltage, the greater this distance must be to prevent any flashover. These distances are specified in the utility company's standards or regulations.
use a metals further away from each other on the reactivity series (I think). but using more electrolytes (more fruits i.e. 4 lemons instead of 1 etc) will definitely give a higher voltage. the more fruit, the bigger the voltage. :D
Not materially. The voltage is determined by the composition of the electrodes and the medium in which they are placed.
battery produces voltage by
the alternator voltage at the battery should be between 12.4voltsv-13.6 volts
The voltage between point p and the battery is not able to measured exactly. You can never measure the absolute electric potential at any point. its just not possible. That is why we talk about difference in potential.
It is the potential difference between the positive and negative terminals of the battery. The unit of electrical potential is the volt, so the difference in potential between two ponts is also a quantity with units of volts, colloquially called the 'voltage' between the points.
A battery charger is a DC voltage source followed by some kind of regulator that controls the current flowing into the battery. Depending on the type of battery, this regulator might be simple, based on current and/or voltage, or it might be complex, based on voltage slope. A transformer rectifier is simply one of the part of the DC voltage source.