It is very hot. The answer is 29726.85 C (approx.). The Kelvin scale starts at absolute zero and is used in scientific laboratories. Celsius is for general use and set 0 and 100 as melting and boiling point of water respectively. To convert from K to C, subtract 273.15 from K.
30000 kelvin is approximately 29 727 degrees Celsius!
Kelvin can not be converted / compared to Watt. They are different units
250 watts approximatelyI assume you have a constant voltage supply. According to P=V^2/R => P*R=V^2, you have a 44.7 volt supply. If you change Resistance to 8 ohms, P=44.7^2/8 => P=250 watts.
Use 100 watts
a normal incandescent 60 watt light bulb uses 60 watts of electricity to produce 20 watts worth of light, and 40 watts worth of heat. It is more of a heat bulb than a light bulb. it is great if you can capitalise on the free heat, but if it is not cold in your house, turn it off. is there a better bulb? no. why are they ideal? cheap (as low as 10 cents for the el cheapos), never change shape/design/size/compatability, make pleasant light I could go on for an hour, but the best bulb is the cheapest.
20,000 watts
It is expressed in Volt-Amperes not Watts.
3000 kelvin = 4,940.33 degrees Fahrenheit.
Answer: 3000 K = 2727 ºC and 4940.6 ºF
3 kilowatts is 3000 watts.
3,000° Kelvin is equal to 4,940.33° Fahrenheit.
Zero.
30000btu convert to watts
Using the equation Volts X Amps = Watts, you can take 3000 watts / Volts to get your answer: 3000W/240V = 12.5A or 3000W/120V = 25A So, at 240 volts you will use 12.5 amps for 3000 watts of power. Or at 120 volts you will use 25 watts.
3000 watts
Amperage (coulombs/sec sort of like volume) and wattage (power) are independent of each other if you know the voltage you can calculate amps but they are not the same thing. 3000 watts/X volts=amps ex. 3000 watts/110v=27.28 amps
A typical home boiler uses 3000 Watts. 3000 watts is not the correct answer. Watts = volts x amps, or if converting to btu 3000 watts = 10236 btu. At typical household votage of 120, 3000 watts would equal 25 amps and no boiler uses that much current and if your desire is to convert btu to watts I would suspect the average boiler output is far greater than 10K btu. Determine the output in btu/hr of the boiler in question from the MFR`s nameplate and divide by 3.412 3.412btu=1watt/hr. My home boiler uses 3000 watts, it's in my kitchen cupboard and it runs on a 240 v supply.
Tungsten starts to glow at about 1000 Kelvin, at 1200 Kelvin it is red, and around 1400 Kelvin it is bright red.
1025 watts