The temperature reached by 1000 watts of energy depends on various factors, including the type of material being heated, its mass, and the initial temperature. Additionally, the efficiency of the heating source also plays a role in determining the final temperature. Without specific details, it is not possible to provide an exact answer.
1000. K = kilo = 1000 W = watts
"Watts RMS" is better represented as "Watts average". Since 1000 watts is 1kw you have "1000 watts average" and you can derive "1Kw average". So 1000 watts RMS will consume 1 Kw
To convert watts to kilowatts, you divide the number of watts by 1000. Therefore, 2675 watts is equal to 2.675 kilowatts (2675 ÷ 1000 = 2.675).
! kw = 1000 watts 7800 kw = 7800 x 1000 watts = 7800 000 watts
1000 watts = 1 kilowatt 1500 watts = 1.5 kilowatts
1000. K = kilo = 1000 W = watts
It has over 500- 1000 watts
"Watts RMS" is better represented as "Watts average". Since 1000 watts is 1kw you have "1000 watts average" and you can derive "1Kw average". So 1000 watts RMS will consume 1 Kw
Kilo means 1000. Therefore, 276 kilowatts = 276*1000 Watts = 276000 Watts
! kw = 1000 watts 7800 kw = 7800 x 1000 watts = 7800 000 watts
To find watts in kilowatts multiply kilowatts by 1000. In this case, 26 x 1000 = 26, 000 watts.
1 kilowatt is 1000 watts.
There are 1,000 watts in a kilowatt (kW).
Usually about 1200 to 1500 watts.
1000 watts = 1 kilowatt 1500 watts = 1.5 kilowatts
There are 44,000 watts in 44 kilowatts. A kilowatt is 1000 watts.(SI prefix kilo- always means 1000)
There are 1000 milli-watts in one watt.