According to some of the answers given here, and the mathematics involved in wattage, it seems to be that one watt equals 14.5°.
Why? Because you can cram 1009 people into an 1809 sq ft room. You can heat a 400 sq ft room with a 1500w heater. Human Body temperature is 98.6°.
If it is 1000 watts then it produces a 1000 watts. A watt is 1 joule/sec.
54 Watts is the eqivianlient to removing 1 watt of heat
A 60 watt lamp will poduce 60 watts during the time it is operating. If it runs for an hour, it produces 60 watt-hours of heat energy. If it runs for 16 2/3 hours, it produces 1000 watts during that period, or it can be said to use a kilowatt of energy in that 16 2/3 hours, or that it produced a kilowatt-hour of heat in that 16 2/3 hours. Heat can be expressed in watts, but we can't really convert watts into "heat in Celsius" as was asked. The heat energy generated by the lamp will heat air or the area directly around it, but by how much? This becomes a difficult problem. And we don't measure the heat produced by a lamp in degrees Celsius, but in watts or a similar measure of energy. While it is true that temperature is a measure of thermal energy, it can't be fairly applied here. A lamp produces watts of heat energy, but not "degrees" of heat energy. The investigator would have to specify a goodly number of things to determine the change of temperature (in degrees Celsius) resulting from the operation of a 60 watt lamp. It becomes a problem in thermodynamics.
To cool a 1000-watt bulb, you'll need to account for the heat it generates. A 1000-watt light bulb produces approximately 1000 watts of heat, which is equivalent to about 3,412 BTU per hour (since 1 watt equals approximately 3.412 BTU/hour). Therefore, to effectively cool a 1000-watt bulb, you would need an air conditioning system or cooling mechanism that can remove that amount of heat, around 3,412 BTU/hour.
1 KW = 1000 Watts.......1 mW = .001 Watt.......1 microwatt or uW = .000001 Watt
1 watt = 1 joule per second = 0.000239 food calories of heat per second
A watt is one joule of energy used every second. In electronics, applying 1 volt across a 1 ohm resistor will produce 1 W of heat.
not gega watt ,it is gaga watt , you have to start from 1 watt 1000 watt = 1 k watt 1000 000 = 1 mega watt 1000 000 000 = 1 gaga watt example : your home need 5 k watt = 5000 watt , but this mega watt or gaga watt amount generated from huge turbine s ,to feeding cites needs in electricity demand .
If it is 1000 watts then it produces a 1000 watts. A watt is 1 joule/sec.
54 Watts is the eqivianlient to removing 1 watt of heat
about 1 to 2 watt, depending size of te individuals.
1 Joule is 1 Watt-Second. 1 Watt Hour is 3600 Watt-Second or 3600 Joules. 400 Watt-Hours is 1440000 Joules.
1 watt is the typcial measure of electricity so 1 watt is 1 watt. If your question is backwards and you want to know how much solar energy it takes to create 1 watt of power, that would depend on the efficientcy of your solar panels. None are 100% effective so there is always loss.
1 centigrade heat unit (International Table) = 0.52752793 watthour
The heat generated by an electric current is in watts, Current x volts. So current alone is not enough to define it. By Ohms Law, Volts = Current x Resistance, so another way of expressing watts is (Current squared) x Resistance. If you know the current andthe resistance you can get the wattage, which will give you the heat generated.
1 kilowatt (kW) is equivalent to 3412 British thermal units (BTUs) per hour. This can be used to calculate the amount of heat generated by the 1 kW depending on the specific application.
1 watt