2500 mA
I=V/R In words, Amps equals power divided by voltage. So you need to know voltage. Assuming 120 volts, Amps=5600/120=46.7
25 A = 25,000 mA
W = Amps times Volts. A = W/V, A = 300/120 = 2.5 amps
Using the equation Volts X Amps = Watts, you can take 3000 watts / Volts to get your answer: 3000W/240V = 12.5A or 3000W/120V = 25A So, at 240 volts you will use 12.5 amps for 3000 watts of power. Or at 120 volts you will use 25 watts.
75 Amps theoretically Need to know if the generator is 3 phase or single phase.
I=V/R In words, Amps equals power divided by voltage. So you need to know voltage. Assuming 120 volts, Amps=5600/120=46.7
.025amps
25 A = 25,000 mA
The maximum current rating for a 2 pole breaker that can handle 25 amps is 25 amps.
W = Amps times Volts. A = W/V, A = 300/120 = 2.5 amps
well the equation for amps is a= watts/volts so 25/12= 2.0833333333amps
Using the equation Volts X Amps = Watts, you can take 3000 watts / Volts to get your answer: 3000W/240V = 12.5A or 3000W/120V = 25A So, at 240 volts you will use 12.5 amps for 3000 watts of power. Or at 120 volts you will use 25 watts.
It generates 25 Amps.
25
75 Amps theoretically Need to know if the generator is 3 phase or single phase.
Take the KVA and divide it by the voltage. 25/.230 = 109 amps. The transformer can put out up to 50% more that its rated for short durations. So you could get around 150 amps out of a 25 Kva tranformer in a worst case situation.
To calculate the amperage for a given wattage, you would also need the voltage of the circuit. However, if we assume standard 120V household voltage, then 3000 watts would be equivalent to 25 amps (3000 watts / 120 volts = 25 amps).