To determine the amperage of a generator, you will need to know the output voltage as well. Once you have that information, you can use the formula: Amperage = Watts / Voltage. For example, if the 1500 watt McCullough generator outputs 120 volts, then the amperage would be 12.5 amps (1500 watts / 120 volts).
To calculate the output amps of a 600kVA generator at 240V, you would use the formula Amps = kVA / Volts. In this case, it would be 600kVA / 240V = 2500 amps.
75 Amps theoretically Need to know if the generator is 3 phase or single phase.
A 1500 Watt heating element about 1500/110 or 13.64 Amperes from a 110V service. It is assumed the heating element is made from a resistive wire.
Watts are amps x volts, so w/o the volts the question can't be answered. At 100 volts it'd be 15 amps.
Typically 75 amps on natural gas, 85 amps using propane. Peak amps(for less than a second) to start a big appliance, like an A/C condenser, are 130.
5.5kva
To calculate the output amps of a 600kVA generator at 240V, you would use the formula Amps = kVA / Volts. In this case, it would be 600kVA / 240V = 2500 amps.
62.5 amps
If your generator is rated at 1000 watts continuous......and you are using 120V.....available amps are 1000/120 =8.3 .
75 Amps theoretically Need to know if the generator is 3 phase or single phase.
A 1500 Watt heating element about 1500/110 or 13.64 Amperes from a 110V service. It is assumed the heating element is made from a resistive wire.
Watts are amps x volts, so w/o the volts the question can't be answered. At 100 volts it'd be 15 amps.
To answer this question the voltage of the generator must be given.
Typically 75 amps on natural gas, 85 amps using propane. Peak amps(for less than a second) to start a big appliance, like an A/C condenser, are 130.
To convert milliampere-hours (mAh) to amperes (A), divide by 1000. Therefore, a 1500 mAh battery has a capacity of 1.5 amperes.
In order to determine the amperage supplied by an 8000 watt generator, you need to know the voltage of the generator. You can calculate the amperage by dividing the wattage by the voltage. For example, if the generator operates at 120 volts, the amperage would be 8000 watts / 120 volts = 66.67 amps.
depends on the number of cans and the specific gravity of the electrolyte