1,000 joules of heat energy for every second
that the 1,000 watts' dissipation continues.
If it is 1000 watts then it produces a 1000 watts. A watt is 1 joule/sec.
There are 1000 watts in one kW. So 1.89 x 1000 = 1890watts. To go the other way changing watts to kW you divide watts by 1000. 1890/1000 = 1.89 kW.
A device rated at 1000 watts consumes 1000 joules per second.
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
If it is 1000 watts then it produces a 1000 watts. A watt is 1 joule/sec.
Yes
There are 1000 watts in one kW. So 1.89 x 1000 = 1890watts. To go the other way changing watts to kW you divide watts by 1000. 1890/1000 = 1.89 kW.
A device rated at 1000 watts consumes 1000 joules per second.
There are 1000 watts in a Kilowatt. so divide your watts by 1000.
1000-1400 watts
a kilowatt is 1000 watts a megawatt is 1000000 watts a gigawatt is 1000000000 watts a terrawatt is 1000000000000 or a million million watts
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
If the transformer uses 5 watts per hour you need to know what you are paying per 1000 watts from your power company. If you pay lets say $3.00 for 1000 watts then when your transformer burns 1000 watts it cost you $3.00 your cost will be $3.00 for 200 hours run time.
About a 100 watts.
0 - 1000. KVA times a power factor gives you kilowatts, 1000 x watts. If the power factor is 0, then o watts make up your one kVA; if the power factor is 1, then 1000 watts make up your one kVA. Typical power factor is in the range of .8 to 1.