To determine how many amps a 5200 BTU heater will pull, you can use the formula: Amps = BTUs / (Volts x 3.414). Assuming the heater operates on a standard voltage of 120 volts, it would draw approximately 15.1 amps (5200 / (120 x 3.414)). If the heater operates at a different voltage, you can adjust the calculation accordingly.
A typical 120 volt diesel engine block heater can pull around 1000-1500 watts, which would translate to approximately 8-12.5 amps. It's important to check the specifications of the specific block heater you are using to get an accurate measurement.
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.
On a 50 amp 3 phase connector, you can pull 50 amps per leg. This means that each of the three phases can carry up to 50 amps individually, resulting in a total capacity of 50 amps per leg.
A typical iron pulls around 9-12 amps when in use. It's important to check the specific amp requirement of your iron to ensure it matches the capacity of your electrical circuit.
Power(Watts) = I (Amps) x E(Voltage) PIE rule. so 1000 = I x 240. 1000/240 = 4.16667 amps.
At 120 volts it will pull 4.166 amps. At 240 volts it will pull 2.08 amps.
A typical 120 volt diesel engine block heater can pull around 1000-1500 watts, which would translate to approximately 8-12.5 amps. It's important to check the specifications of the specific block heater you are using to get an accurate measurement.
Aprox 12 amps.
A 120 volt table lamp with a 75 watt bulb will pull 0.625 amps. With a 100 watt bulb it will pull 0.833 amps. And with a modern fluorescent 13 watt bulb it will pull 0.108 amps.
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.
About 2.25 Amps.
at 230v it will use 5 to 6 amps
10.92 Amp
On a 50 amp 3 phase connector, you can pull 50 amps per leg. This means that each of the three phases can carry up to 50 amps individually, resulting in a total capacity of 50 amps per leg.
This typically has to do with how many amps you can safely pull from the secondary of the transformer.
5
Seven amps pulls zero kilowatts . W = A x V. You need to state a voltage to multiply the amperage by to get watts. Then divide by 1000 to get kilowatts.