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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.
1KW is 1000w. one watt is equals to product of volt and current. current=watt/volt =1000/240 =4.1667 amps
To convert kilowatts to amps, you need to know the voltage of the circuit you are calculating for. Assuming a standard voltage of 240V, 11kW would be approximately 45.8 amps.
The basic formula for the Voltage, Current, Power relationship is P=I*E. To find one when the other two are known, simply fill in the two you know and solve. In this case P=1000W and Voltage = 240V (It is important that you pay attention to the unit definer here, if it were 240 mV, you would have Voltage = .240V and so on). 1000W = I * 240V I = 1000W/240V I = 4.17A
No, a 31-watt motor operating at 240 volts would draw approximately 0.13 amps. This calculation is done using the formula P = IV, where P is power (31 watts), I is current (amps), and V is voltage (240 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.
1KW is 1000w. one watt is equals to product of volt and current. current=watt/volt =1000/240 =4.1667 amps
To convert kilowatts to amps, you need to know the voltage of the circuit you are calculating for. Assuming a standard voltage of 240V, 11kW would be approximately 45.8 amps.
The basic formula for the Voltage, Current, Power relationship is P=I*E. To find one when the other two are known, simply fill in the two you know and solve. In this case P=1000W and Voltage = 240V (It is important that you pay attention to the unit definer here, if it were 240 mV, you would have Voltage = .240V and so on). 1000W = I * 240V I = 1000W/240V I = 4.17A
A 240V well pump typically draws around 10-15 amps.
To convert amps to milliamps, you multiply by 1,000, since 1 ampere (A) is equal to 1,000 milliamperes (mA). Therefore, 5 amps equals 5,000 milliamps.
No, a 31-watt motor operating at 240 volts would draw approximately 0.13 amps. This calculation is done using the formula P = IV, where P is power (31 watts), I is current (amps), and V is voltage (240 volts).
The device here that draws 50va is drawing 4.1666 Amps at 12 volts. This is calculated as 50/12. If you're trying to measure the current draw at the mains, then that draw is 50/240, or .208 Amps.
To calculate the amperage, you need to use the formula: Amps = Watts / Volts. Assuming a standard voltage of 120V, you can calculate the amperage by dividing 600 watts by 120 volts, which equals 5 amps. Therefore, 600 watts would require 5 amps of current at 120 volts.
The equation that needs to be used is I = W/E. Amps = Watts/Volts. Amps = 500/240 = 2.08 amps.
450 watts divided by 120 volts equals 3.75 amps450 watts divided by 12 volts equals 37.5 ampswatts divided by volts equals amps
To convert kVA to amps, you need to also know the voltage. If we assume a standard voltage of 480V, then 300 kVA would be approximately 360 amps. This is calculated by dividing the kVA by the voltage and then converting to amps using the formula: Amps = (kVA * 1000) / (1.732 * Volts) where 1.732 is the square root of 3.