The "current" through any conductor is voltage across the conductor/conductor's resistance .
The current is measured in "Amperes" (amps).
"MA" stands for "Milliamps". There are 1,000 of those in one whole ampere.
So, the current through a conductor is
1,000 times the voltage across the conductor/conductor's resistance . . . in MA
because current is the ratio of voltage and resistance.
1 ampere (A) = 1000 milliampers (mA)
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.
Ohm's law gives the relationship between current, voltage, and resistance. The law states that I=V/R, where I is current, V is voltage, and R is resistance. Source: university digital fundamentals
eat me >>>Corleone<<<
With higher temperature, low voltage
Fnet=ma
F = ma
That is called Ohm's Law.
Force = mass * acceleration or F = ma.
It is called Ohm's Law; it's used a lot in analysis and design of circuits. The relationship is: V=IR (voltage = current x resistance).
It's called 'Ohm's Law'.