It depends on the fridge. Newer fridges are generally more efficient, so would use less electricity, although size is a definite factor.
There should be sufficient information on the fridge to determine watts, though you may have to calculate. Watts = amps x volts. Volts = 120.
I'd use 120 to avoid underestimating.
In any case, running a fridge only for beer is an avoidable cost unless you make better use of it. Replacing an old fridge and a separate freezer with a newer'' more efficient fridge with useable freezer space probably uses less electricity than 2 older appliances.
1500
1650 watts.
The beer can has 35 centimeters.
Watts and Volts are two distinct types of measurement.
hair straightener uses 1500 watts
2100 watts to run the refrigerator
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 starting watts, you would typically need to multiply the amps by the voltage. Assuming the voltage is 120V, the starting watts for a 4.75 amp refrigerator would be approximately 570 watts (4.75 amps x 120 volts = 570 watts).
A medium refrigerator typically consumes around 100-250 watts when running. This can vary depending on the size, age, and energy efficiency of the refrigerator. It's important to check the appliance label for the specific wattage of your 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).
1500
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
we cant get to the back of the unit
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.
How many Amps is the fridge pulling? Multiply the Amps by the 120V circuit you're plugging into and you'll get your Watts.
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
An average stand-up refrigerator typically uses around 100-200 watts when running, but this can vary based on the size and energy efficiency of the appliance.