When the motor is running it uses the same power - number of watts - all the time. To find the energy used (in watt-hours) you multiply the watts used by the total time in hours.
So if it uses 500 watts and is on for 3 minutes each hour, it uses 500x3/60 watt hours each hour, or 600 watt-hours in one day.
1 horsepower is 745.699872 watt
I don't understand this question
The fridge consumes the watts. My fridge is a normal one, it consumes 500 watts for 2 minutes every hour.
50 - 60 watts Mine uses 500 watts, but only for about two minutes each hour.
Kitchen refrigerators use 50-100 watts for about five minutes per hour, so 10 watts or less on average.
A mini refrigerator uses about 70 watts per hour or 0.07 KWH.Therefore it uses about 24 times 0.07 KWH, or 1.68 Kilowatt Hours per day.There are varied sizes of "mini refrigerators" and varying degrees ofinsulation, so the wattage may vary from 40 watts per hour to 100 watts per hour or .96 KWH to 2.4 KWH per day
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.
The fridge consumes the watts. My fridge is a normal one, it consumes 500 watts for 2 minutes every hour.
50 - 60 watts Mine uses 500 watts, but only for about two minutes each hour.
2100 watts to run the refrigerator
Kitchen refrigerators use 50-100 watts for about five minutes per hour, so 10 watts or less on average.
A mini refrigerator uses about 70 watts per hour or 0.07 KWH.Therefore it uses about 24 times 0.07 KWH, or 1.68 Kilowatt Hours per day.There are varied sizes of "mini refrigerators" and varying degrees ofinsulation, so the wattage may vary from 40 watts per hour to 100 watts per hour or .96 KWH to 2.4 KWH per day
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 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.
The formula you are looking for is Watts = Amps x Volts.
1,000 watts
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
1500
100 watts