Look for the nameplate on the machine. There is will tell you the voltage and amperage that the machine needs to operate. Use this equation to find the wattage of the machine, Watts = Amps x Volts.
Volts isn't power. Volts times amps is power, also known as watts. Thus 480 volts at 2 amps consumes 960 watts, which is the same power usage of 240 volts at 4 amps or 120 volts at 8 Amps.
The fridge consumes the watts. My fridge is a normal one, it consumes 500 watts for 2 minutes every hour.
An 1141 bulb consumes 18.4 watts.
They usually dont have any, watts is a measurement of power that the machine requires to run. now if you mean how many wats does a washing machine require to run it varies on the manufacturer and it can usually be found on a sticker on the back of the machine.
The same as it consumes in a second, or in a minute. Please note that a watt is a unit of power, not a unit of energy. Power means energy per time unit.To get the details, you can check the electrical specifications on your washing machine. Most such electrical devices have a metal plate with the electrical specifications written on it - perhaps on the device's back.
Volts isn't power. Volts times amps is power, also known as watts. Thus 480 volts at 2 amps consumes 960 watts, which is the same power usage of 240 volts at 4 amps or 120 volts at 8 Amps.
1400 watts.
The fridge consumes the watts. My fridge is a normal one, it consumes 500 watts for 2 minutes every hour.
An 1141 bulb consumes 18.4 watts.
A modern LCD screen in sleep mode consumes less than 2 watts. When in use, my 19" device consumes 150 watts according to the tag on the back.
Power is work divided by time. 10 J in 5 s means the machine develops 2 watts of power.
Yes.
It is probably a 60 watt bulb (believe it or not). Bulbs are rated in watts. A 100 watt bulb is brighter and consumes more power than a 60 watt bulb
The total power of a series of resistors is equal to the sum of the power dissipated by individual resistors. In this case, each resistor consumes 4.5v*.04amps which is equivalent to 1.08 watts. Since there are 6 resistors, 6.48 watts of power are consumed.
The calculation of kilowatt-hours (kWh) is done by multiplying the power consumption in kilowatts (kW) by the time in hours (h) that the power is being used. kWh = kW × h. For example, if a device has a power rating of 1 kW and is used for 2 hours, the energy consumption would be 2 kWh.
They usually dont have any, watts is a measurement of power that the machine requires to run. now if you mean how many wats does a washing machine require to run it varies on the manufacturer and it can usually be found on a sticker on the back of the machine.
A washing machine uses between a half and one horsepower while working. As one horsepower is equal to 746 watts per hour, it would be approximately 373 to 746 watts of power while operating