Assuming we are talking about 2300 BTU per hour, take 2300 and divide by the number of BTUs per watt-hour, 3.414, giving 673 watts. Then divide this by the voltage, 240, giving 2.81 amps.
9000 BTU/hour is equivalent to 2300 watts so the heater will draw 10 amps on 230 volts.
41.666 amps. Divide watts by volts.
To find amps if watts and volts are known, use the formula; watts / volts = amps or 5000 / 240 = 20.83 amps
To find out how many amps are needed to support 3200 watts at 240 volts, you can use the formula: Amps = Watts / Volts. Therefore, 3200 watts divided by 240 volts equals approximately 13.33 amps. So, you would need about 13.33 amps to support a 3200-watt load at 240 volts.
To convert watts to amps, use the formula: Amps = Watts / Volts. In this case, 3000 watts divided by 240 volts equals 12.5 amps. Therefore, 3000 watts at 240 volts is equal to 12.5 amps.
9000 BTU/hour is equivalent to 2300 watts so the heater will draw 10 amps on 230 volts.
41.666 amps. Divide watts by volts.
To find amps if watts and volts are known, use the formula; watts / volts = amps or 5000 / 240 = 20.83 amps
The equation that you are looking for is I = W/E. Amps = Watts/Volts.
To find out how many amps are needed to support 3200 watts at 240 volts, you can use the formula: Amps = Watts / Volts. Therefore, 3200 watts divided by 240 volts equals approximately 13.33 amps. So, you would need about 13.33 amps to support a 3200-watt load at 240 volts.
To convert watts to amps, use the formula: Amps = Watts / Volts. In this case, 3000 watts divided by 240 volts equals 12.5 amps. Therefore, 3000 watts at 240 volts is equal to 12.5 amps.
500,000 watts/240 volts = 2,083.34 Amps (single phase)
At 120 volts it will pull 4.166 amps. At 240 volts it will pull 2.08 amps.
Power (Watts) = Current X VoltageSo 7 X 240 = 16801680w
For a single phase circuit, the equation you are looking for is I = W/E. Amps = Watts/Volts.
75 Amps theoretically Need to know if the generator is 3 phase or single phase.
1000 /240 = 4.17