A #8 copper wire with an insulation rated at 75 or 90 degrees C is rated at 45 amps.
18 amps.
70 amps.
30 amps is often the limit recommended for standard residential wiring on a #10 copper wire. You are correct.
A #8 copper wire with an insulation rating of 90 degrees C is rated at 45 amps.
A #16 copper conductor is not a wiring size that is used in homes. This is because the smallest breaker for residential use is rated for 15 amps. A #16 copper conductor is only rated at 13 amps. For a load of 13 amps over 100 feet a #12 copper would be required.
18 amps.
140 AMPS
70 amps.
150 amps
30 amps is how much a 10-2 wire will carry at 110 feet. 10 gauge wire is only good for thirty amps per the national electrical code. Using 80% of the breakers usage you will actually be getting only 24 amps.
The amps that a four gauge wire will handle will depend with the thickness of the wire. If the wire is thin, the four gauge will handle 95 amps.
50 amps.
30 amps is often the limit recommended for standard residential wiring on a #10 copper wire. You are correct.
A #8 copper wire with an insulation rating of 90 degrees C is rated at 45 amps.
A #16 copper conductor is not a wiring size that is used in homes. This is because the smallest breaker for residential use is rated for 15 amps. A #16 copper conductor is only rated at 13 amps. For a load of 13 amps over 100 feet a #12 copper would be required.
A #14 copper wire with an insulation factor of 90 degrees C is rated at 15 amps. To answer your question for voltage drop at 200 feet a voltage needs to be stated. Assuming the voltage of 120 is used to maintain 15 amps at the distance of 200 feet a #6 copper conductor will limit the voltage drop to less that 3 percent. Assuming the voltage of 240 is used to maintain 15 amps at the distance of 200 feet a #10 copper conductor will limit the voltage drop to less that 3 percent.
A #8 copper wire with an insulation factor of 75 or 90 degrees C is rated at 45 amps.