The ohm is the measure of resistance. Asking how to convert Watts to Ohms is like asking how to convert degrees celsius to meters
A 1200 watt resistive load hair dryer is equivalent to 1.2 kw (kilowatts).
About one watt of heat. A 1500 watt heater will warm a 400 square foot room in the winter months. one watt is a very small volume of heat.AnswerHeat is measured in joules. A watt is equivalent to a joule per second. So your answer is that a watt produces one joule of heat every second.
The watt is used to measure power. The watt (symbol: W) is a derived unit of power in the International System of Units (SI). It measures rate of energy conversion. One watt is equivalent to 1 joule (J) of energy per second.
cgs . . .dyne-centimeter/second, equivalent to erg/secondmks . . .watt, equivalent tojoule/secondnewton-meter/secondkilogram-meter2/second3
James Watt
Nms-1
The first part is correct. 1 wh = 1 w used continuously for 60 minutes (1 hour). a watt hour is equivalent to 3600 joules.
Your question is wrong. Kwh is a unit of energy, mw is a unit of power . 1kw=1000000milli watt(mw) 1kwh=1000000mwh
55-watt
It is equivalent to a 75 watt incandescent bulb
A 1200 watt resistive load hair dryer is equivalent to 1.2 kw (kilowatts).
jewels. a jewel is equivalent to one watt of electricity.
Work is measured in joules or in watt-seconds, or equivalent units.
1500 watts is equivalent to 5118 BTU per hour. 1500 watt-hours is equivalent to 5118 BTU.
About one watt of heat. A 1500 watt heater will warm a 400 square foot room in the winter months. one watt is a very small volume of heat.AnswerHeat is measured in joules. A watt is equivalent to a joule per second. So your answer is that a watt produces one joule of heat every second.
Not in the least, and you will still save money. A 100W equivalent will use only 20 to 25 watts, well below the 60W rating of your fixture. Much of the 60W used by the incandecent bulb is dissipated in heat. This is where the danger in over-watting fixtures lies.
Incandescents produce 10 lumens per watt, halogens about 13 lumens per watt, fluorescents and LEDs 40-50 lumens per watt. Lumens measure the brightness, watts measure the speed at which electrical energy is used.