If it uses 60 watts at 115volts then it only uses 0.51amps.
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.
Depends on what refrigerator you are interested in. They all have a label somewhere, usually in the refrigerator compartment that lists the current. My refrigerator has a rating of 11.6 Amps. This is not a consistent current, but would be when the compressor is running.
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
A side-by-side refrigerator typically draws between 3 to 6 amps when running, depending on its size, model, and energy efficiency. During startup, the initial surge can increase this to around 15 amps for a brief period. It's essential to check the manufacturer's specifications for the exact amperage for a specific model.
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
This refrigerator comes with four glass shelves
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.
Kenmore refrigerator model 106.9555752 is of 21 cubic feet.
The ED2KVEXVQ had four shelves and two clear drawers.
1 AMP
2,4789
How many Amps is the fridge pulling? Multiply the Amps by the 120V circuit you're plugging into and you'll get your Watts.
Depends on what refrigerator you are interested in. They all have a label somewhere, usually in the refrigerator compartment that lists the current. My refrigerator has a rating of 11.6 Amps. This is not a consistent current, but would be when the compressor is running.
The amperage of an outdoor under-counter refrigerator typically ranges from 1 to 3 amps, depending on the model and its energy efficiency. Most compact refrigerators designed for outdoor use are designed to operate efficiently while maintaining adequate cooling. Always check the manufacturer's specifications for the exact amperage and ensure your outdoor power supply can accommodate it.
The formula for amperage is I = W/E. Amps = Watts/Volts. As you can see there are two values missing from the question.
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
1 ft = 0.3048 m 1 cuft = 0.028316846592 m3 1 m3 = 35.314666721 cuft 5.514 m3 = aprox 194.725 cuft