There are zero watts in a small refrigerator. Watts are the produce to amps times volts. Without these values a correct answer can not be given.
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).
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
On average, a 1.7 cu.ft compact refrigerator typically uses around 1-2 amps when running. However, depending on the specific model and manufacturer, this number may vary slightly. It is recommended to check the product specifications or the label on the refrigerator for the exact amperage information.
Kitchen refrigerators use 50-100 watts for about five minutes per hour, so 10 watts or less on average.
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.
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).
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
On average, a 1.7 cu.ft compact refrigerator typically uses around 1-2 amps when running. However, depending on the specific model and manufacturer, this number may vary slightly. It is recommended to check the product specifications or the label on the refrigerator for the exact amperage information.
Kitchen refrigerators use 50-100 watts for about five minutes per hour, so 10 watts or less on average.
Depends on your type of refrigerator since different models use different amounts of electricity.
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.
50 - 60 watts Mine uses 500 watts, but only for about two minutes each hour.
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 calculate the wattage used by a 1.3 amp refrigerator in a month, you first need to determine its wattage. Using the formula: Watts = Amps × Volts, and assuming the refrigerator operates at 120 volts, it would use approximately 156 watts (1.3 A × 120 V). If the refrigerator runs 24 hours a day, it would consume about 112.32 kWh in a month (156 watts × 24 hours × 30 days ÷ 1000).
On average, a Frigidaire or refrigerator uses around 600 watts. This is assuming that the fridge is an average to large size, and not a tiny fridge that would use less power.
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)
The equation to use to find wattage is W = A x V. Watts are equal to the amperage times the voltage. Look on the nameplate of the unit to find the true amperage and voltage needed to operate the refrigerator.