Kitchen refrigerators use 50-100 watts for about five minutes per hour, so 10 watts or less on average.
Look at the back of your fridge and find the plate that tells you how many amps it needs. Once you have Amps you multiply that number by the Volts coming out of your plug (usually 120v) and you will get Watts. So once more: Amps x Volts = Watts
To convert amperage to watts, you need to know the voltage, power factor, and the number of phases that you are working with. For a residential refrigerator this is single phase, an industrial refrigerator could be three phase.
Probably about 450 watts. Since the primary use of power in a refrigerator is for a motor the watts it uses are less than the amps that pass through it. <<>> Assuming that the refrigerator uses 120 volts for a supply voltage, then W = A x V. 4.5 x 120 = 540 watts
A compact refrigerator typically uses around 50-100 watts when running. The exact wattage can vary depending on the size and efficiency of the refrigerator.
To calculate the watts used by the refrigerator, multiply the amperage by the voltage. Assuming a standard household voltage of 120V, a 4.5 amp refrigerator would use approximately 540 watts (4.5 A * 120 V = 540 W).
How many Amps is the fridge pulling? Multiply the Amps by the 120V circuit you're plugging into and you'll get your Watts.
1500
Look at the back of your fridge and find the plate that tells you how many amps it needs. Once you have Amps you multiply that number by the Volts coming out of your plug (usually 120v) and you will get Watts. So once more: Amps x Volts = Watts
To convert amperage to watts, you need to know the voltage, power factor, and the number of phases that you are working with. For a residential refrigerator this is single phase, an industrial refrigerator could be three phase.
Probably about 450 watts. Since the primary use of power in a refrigerator is for a motor the watts it uses are less than the amps that pass through it. <<>> Assuming that the refrigerator uses 120 volts for a supply voltage, then W = A x V. 4.5 x 120 = 540 watts
Watts is determined by multiplying amps (found on tag with serial number or on data plate on compressor) by volts (example 115 volts times 9 amps= 1035 watts)
A compact refrigerator typically uses around 50-100 watts when running. The exact wattage can vary depending on the size and efficiency of the refrigerator.
The formula for amperage is I = W/E. Amps = Watts/Volts. As you can see there are two values missing from the question.
To calculate the watts used by the refrigerator, multiply the amperage by the voltage. Assuming a standard household voltage of 120V, a 4.5 amp refrigerator would use approximately 540 watts (4.5 A * 120 V = 540 W).
On average, a 3.2 cubic feet refrigerator uses around 150-200 watts when running. However, this can vary depending on factors such as age, efficiency, and temperature settings.
watts = volts * amps--> Amps = watts/ volts therefore; 2000/220= 9.09 amps
There are zero watts in 730 amps. Watts is the product of amps times volts. As you can see without a voltage no answer can be given.