4 AWG is the initial answer without considering the length. For 210 feet of 4 AWG the resistance is .052 ohms. So using Ohm's Law the voltage drop would be 60 x .052 = 10.92 volts. Usually the drop should be less than 10 % of the supply voltage. So if the supply was 120 volts you would be allowed 12 volts and for 240 volts 24 volts of a drop.
So you be okay for using either 120 or 240 volts and 4 AWG wold support the current and the length. There may be other factors in your application, but from what you specified use 4 AWG.
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.
Yes, a #10 wire will carry 30 amps for 30 feet. If the load is rated as continuous then the wire will have to be derated to 80% capacity which will leave you with 24 workable amps. If the load demands currents higher that 24 amps then you will have to go to the next wire size up which is a #8 which is rated at 45 amps.
AWG 10.
To answer this question a voltage and amperage must be stated. W = Amps x Volts.
A 3/0 aluminum conductor will limit the voltage drop to 3% or less when supplying 150 amps for 150 feet on a 240 volt system. This size will allow the conductor to be loaded to 120 amps. 150 x 80% = 120 Conductors are only allowed to be loaded to 80% or their rated capacity. If you need the full 150 amps then you would need to use a wire with a rating of 190 amps. 190 x 80% = 152 amps A 4/0 aluminum conductor will limit the voltage drop to 3% or less when supplying 190 amps for 150 feet on a 240 volt system.
AWG # 6 copper
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.
A #6 copper wire with an insulation factor of 75 or 90 degree C is rated at 65 amps.
10 AWG in copper.
Yes, a #10 wire will carry 30 amps for 30 feet. If the load is rated as continuous then the wire will have to be derated to 80% capacity which will leave you with 24 workable amps. If the load demands currents higher that 24 amps then you will have to go to the next wire size up which is a #8 which is rated at 45 amps.
Wire size becomes an electrical hazard when it is under rated for the amount of current (Amps or I) it has to carry.Current is the flow of electrons in a circuit. If the current is too large for the cable, the cable will be subject to heating, which is a possible fire hazard.
The Canadian Electrical Code requires a 1000MCM copper wire with a insulation factor of 90 degree C is rated at 585 amps. Quite a coincidence. The National Electrical Code requires a 900 kcmil copper conductor with an insulation rated for 90 degrees C for 585 amps..
Wire Sizing Amps
It depends more on the insulation type not the voltage A very common wire type is THHN According to NEC (electrical standard popular in the USA) this type wire in size #12 is rated for 30 amps, but there is a footnote that states it can only be used for 20 amps maximum
Service wire for 100 amps requires AWG #3 copper.
AWG 10.
To answer this question a voltage and amperage must be stated. W = Amps x Volts.