3.1 to 3.7 watts - per Kil-o-watt meter
The average household fan used in US or Canada is about 35-50 watts.
Watts = Amps x Volts x Power Factor If you are talking about a light bulb or similar 60 watt device at 120 VAC the answer is 1/2 amp using standard household voltage and a power factor of 1.
A standard lighthouse bulb is 1 million candle power. This is about 1000 watts. The standard household bulb is only about 60 to 100 watts.
The wattage rating of a timer is governed by the manufactures specification. As long as the light bulbs wattage rating is not higher than the timers rating, the timer will be alright to use in the circuit. The circuits load is what governs the wattage of the circuit.
how many watts for usage xerox machine: 650 watt-1500wattapproximately.for current rating of difference device this rating can be varied.
You need to know the volts of the device to answer the question, if it's a household appliance (120v) then the answer is 36 watts, if it's an automobile device (12v) then the answer is 3.6 watts
The average household fan used in US or Canada is about 35-50 watts.
Watts = Amps x Volts x Power Factor If you are talking about a light bulb or similar 60 watt device at 120 VAC the answer is 1/2 amp using standard household voltage and a power factor of 1.
A standard lighthouse bulb is 1 million candle power. This is about 1000 watts. The standard household bulb is only about 60 to 100 watts.
The wattage rating of a timer is governed by the manufactures specification. As long as the light bulbs wattage rating is not higher than the timers rating, the timer will be alright to use in the circuit. The circuits load is what governs the wattage of the circuit.
how many watts for usage xerox machine: 650 watt-1500wattapproximately.for current rating of difference device this rating can be varied.
That depends on two things: 1. the capacity of the relay that is inside the timer. 2. the current use (watts) of the lights that you are using.
11.6 amps equals zero watts. Watts is the product of amps times volts. W = A x V. As you can see voltage is needed to obtain the wattage of a device.
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.
I don't know what exactly you mean by a "heat mat", but your question is kind of backwards. You don't run an electrical device *with* watts. You run them to *produce* watts (watts of light, watts of heat, watts of sound, etc). I believe the thing you are really asking is how many amps are required to run your device. As an example, consider a "1500 Watt heater" that is made to be plugged into a typical wall outlet in your home. The voltage in the wall is 120V, and the heater will produce 1500 watts of heat when plugged into that 120V. To calculate the amps, you divide the watts by the voltage. 1500W / 120V = 12.5A
Highly Unlikely. Personal brewers like Keurig machines typically use over 1000 watts of power at a time to rapidly heat water. However you can see what a device's power consumption (in Watts) is if you look at the device's information sticker. The sticker may state the device's power consumption in Watts directly, or it may state the Voltage and Amperage that the machine runs on. You can multiply the volt and amp ratings to find out many watts the device might use (1000mA = 1A).
A 1000 watt device operated continusouly for 1 hour would equal 1 Kwh.