Want this question answered?
A 3/0 copper conductor with an insulation rating of 75 or 90 degrees C is rated at 200 and 210 amps respectively. A 3/0 copper conductor will limit the voltage drop to 2% or less when supplying 200 amps for 80 feet on a 240 volt system.
just 2 amperes because 1 A=1000mA
200ma is .200 amps or .2 amps
Copper wires do not hold amps, they have a cross sectional area capacity to allow amperage to flow. In the electrical trade this is spoken of as "ampacity" of the wire. It is a combining of the two words amps and capacity. A # 2 copper wire with an insulation factor of 60, 75 or 90 degrees C is consecutively rated at 100, 115 and 120 amps.
None by itself. Watts are measurement of power, and power is volts times amperes. Secondly, the 6 volts must be in an electrical circuit (loop) to create current flow (Amps). Thirdly, the resistance of whatever the 6 volts is powering determines current flow (Amps). So, without knowing the current flow, you cannot calculate power. Fourth, power (Watts, horsepower, ergs, chevals vapeur, etc) is a measurement taken over a certain time - it is not instantly measureable with an inexpensive meter like a voltmeter or an ammeter (Amp-meter).
# 2-awg
2000ma is equal to 2 amps. Set you meter to a current range ABOVE 2 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.
A 3/0 copper conductor with an insulation rating of 75 or 90 degrees C is rated at 200 and 210 amps respectively. A 3/0 copper conductor will limit the voltage drop to 2% or less when supplying 200 amps for 80 feet on a 240 volt system.
There are 2 fuses for the controls, one in the smart junction box under the instrument panel on the driver's side, this one is F18 and is 10 amps. The other one is in the bussed electrical center under the hood on the driver's side, it is F8 and is 40 amps. The ABS pump has its own fuse in the bussed electrical center, this is F12 and is 40 amps.
just 2 amperes because 1 A=1000mA
200ma is .200 amps or .2 amps
Copper wires do not hold amps, they have a cross sectional area capacity to allow amperage to flow. In the electrical trade this is spoken of as "ampacity" of the wire. It is a combining of the two words amps and capacity. A # 2 copper wire with an insulation factor of 60, 75 or 90 degrees C is consecutively rated at 100, 115 and 120 amps.
Current equals Voltage divided by Resistance. 9/2=4.5 amps.
None by itself. Watts are measurement of power, and power is volts times amperes. Secondly, the 6 volts must be in an electrical circuit (loop) to create current flow (Amps). Thirdly, the resistance of whatever the 6 volts is powering determines current flow (Amps). So, without knowing the current flow, you cannot calculate power. Fourth, power (Watts, horsepower, ergs, chevals vapeur, etc) is a measurement taken over a certain time - it is not instantly measureable with an inexpensive meter like a voltmeter or an ammeter (Amp-meter).
150 amps
10-2 Amps