1 MW = 1x10^6 W = 1,000,000 watts 1 kW = 1x10^3 W = 1000 watts 1 MW / 1 kW = 10^6/10^3 = 10^3 = 1000 kilowatts per megawatt
Equation = SiO2 + 4HCl -> SiCl4 + 2H20
There are 0.000155 kilowatts (kW) in 155 milliwatts (mW).
100 hp is 0.0735 MW
Average power consumption for a person in the UK is 650 W. Assuming an average load of 3 kW per household 102 MW would power about 34,000 homes, sometimes more, sometimes less.
100 mW to W
The units mw and mW are the same. They mean milliwatts. The terms Mw and MW, however, means megawats, which is a billion (1x109) times greater than a mw or a mW.Another AnswerThe correct symbol for a watt is an upper-case 'W'. So the correct symbol for a milliwatt is 'mW' (not 'mw'), and the correct symbol for a megawatt is 'MW' (not 'Mw').
That's a unit of power, not of energy. * A watt (W) is one joule/second. * A megawatt (MW) is a million watts.
1 kw = 0.001 mw 25 kw = 0.025 mw
MW stands for megawatts. "mw" (in lower case) stands for milliwatts, however.CommentThe SI convention is that is a unit of measurement is named after someone, then its symbol is always capitalised. So, the symbol for watt is an upper-case 'W'. So, the correct symbol for milliwatt is mW and the correct symbol for megawatt is MW.
It is a GigaWatt aka 1 GW aka 1,000,000,000 W
VA is the measure of Complex Power in a system which includes Real power(Watts, KW, MW) and Reactive power.Direct answer to your question :VA = Power Factor * Real Power (W Or KW Or MW)
10.
mw is the unit of real power and mvar is unit of reactive power. You should now the current and power factor angle to calculate the voltage.p=vi cos piq=vi sin piAnswerI think you mean MW, not mw -capital 'M' mega; lower-case 'm' milli!!! And the symbol for watt is a capital 'W', not a lower case 'w'. Also, I think you mean 'Mvar'(mega, not milli!).
1 MW = 1x10^6 W = 1,000,000 watts 1 kW = 1x10^3 W = 1000 watts 1 MW / 1 kW = 10^6/10^3 = 10^3 = 1000 kilowatts per megawatt
MW is the abbreviation for megawatts. mW is the abbreviation for milliwatts.
W. Wayne Bowman has written: 'The 160 MW AFBC Demonstration Project' -- subject(s): Fluidization, Fluidized-bed furnaces