To calculate the amperage of a 40 kVA load, you will need to know the voltage. The formula is: Amps = kVA / Volts. Assuming a standard line voltage of 120V, the amperage for a 40 kVA load would be approximately 333 amps.
9000 BTU/hour is equivalent to 2300 watts so the heater will draw 10 amps on 230 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.
The equation that you are looking for is I = W/E. Amps = Watts / Volts.
If you are using a 120V power supply, a 600 watt floodlight will draw 5 amps of current (600 watts ÷ 120 volts = 5 amps). Remember to always check the specific electrical requirements of your floodlight to ensure the correct amperage.
I have a single phase induction motor. It draws 8 amps on start up and climbs to 14-15 amps when I put a load on it. When I don't have a load it runs at 1 and climbs to 2-3 amps. It is normal operation for this motor to run at the lower number of amps with a load. But I don't know what is wrong.
You cannot increase voltage by adding amps.
To answer this question a voltage value must be stated. Divide the voltage into 50 KVA and your answer will be in amps.
3 things Volts, ohms, and amps
Mpre information is needed to specify the question more accurately.
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The electrical code states that a 30 HP induction motor at 460 volts three phase will draw 40 amps. <<>> I = 33.34 AMPS IF EFF.= 95% AND P.F.= 85%
Depends on how many, and what electrical appliances you have. If you are on 110volts, the current (amps) at any time are the kiloWatts you are running times 1000 (=watts) divided by 110
modern cars use a 12 volt battery. Amps depends on the battery. Common sizes range from 500-800 cold cranking amps.
This typically has to do with how many amps you can safely pull from the secondary of the transformer.
A 1450 watt coffee maker will use around 13 amps at 110 volts.
11.6 amps equals zero watts. Watts is the product of amps times volts. W = A x V. As you can see voltage is needed to obtain the wattage of a device.