5ma is the unit of current and 5mw is the unit of power so 1mw=1000000w,so 5mw is more powerfull
1 gigawatt = 1000 megawatts 1 MW of electricical Power means different GWh in a year according to how long the power can be used through the year. 1 year = 8760 hours. So at 100%, a power plant of 1 MW will produce 8760 MWh, ie 8,76 GWh For instance, with a nuclear power plant that usually runs 80% of the time you have: 1 MW -> 7 GWh in a year You have approximately the same ratio (a bit more) with a thermal power plant (fossil fuel) With wind power plant, they usually run 23% of the time in windy areas (due to meterological conditions). You then have in such a case : 1 MW -> 2 GWh in a year For solar power it is less and up to areas. In California, 1 MW -> 1,4 GWh in a year In Germany, 1 MW -> 0,6 GWh in a year Electrical power of plants are up to types of plants: Nuclear & Fuel : around 1000 MW (up to power plant size...) 1 Wind turbine : up to 5 MW Solar plant (photovoltaic) : up to 20 MW Solar plant (other, experimental) : up to 500 MW so far
A 10 mW laser pen typically has a visible range of up to a few kilometers in optimal conditions. However, the actual distance the beam can travel effectively depends on factors like atmospheric conditions, ambient light, and the presence of obstructions.
AS:total power = P1 + P2 + P3 + .......so,total power = 5(50mW)= 0.25Wtotal power dissipated by the five resistors is 0.25W.
some sources suggest 1 MW powers as much as 1000 homes while others suggest that that number of homes would require as much as 2.4 MW. I'll assume you mean the U.S. In this case a survey last year said that about 2.67 people live in each household, so we'll be generous and round to 3. We'll also take the average of the two power estimates; so 1.7 MW per 1000 homes. Based on these generous assumptions we can (very) roughly estimate that a city of 80,000 people in the U.S would have approx. 2.66*10^5 homes (based on the 3 people to a home assumption). Then we could estimate (again roughly), that the city would need around 45 MW of power per year. CONCLUSION: Since these VERY ROUGH estimates are based on North American residential statistics, it is likely that 45 MW per year would be the city's absolute minimum power requirement.
5 pounds weighs more than 81 ounces. Since 1 pound is equivalent to 16 ounces, 5 pounds is equal to 80 ounces, which is more than 81 ounces.
It is very powerful, falling into the "3B" class. Classes were determined by levels that can cause a lesion. The UltraViolet laser is far more dangerous than the visible laser. In the visible range, a continuous laser classes are: Class 1: up to 0.39 mW. Class 2: 0.39 mW to 1 mW. Class 3A: of 1 to 5 mW. Class 3B: 5 to 500 mW. Class 4: beyond 500 mW.
10.
1. Tamil Nadu (4906.74 MW)2. Maharashtra (2077.70 MW)3. Gujarat (1863.64 MW)4. Karnataka (1472.75 MW)5. Rajasthan (1088.37 MW)
1. Tamil Nadu (4906.74 MW)2. Maharashtra (2077.70 MW)3. Gujarat (1863.64 MW)4. Karnataka (1472.75 MW)5. Rajasthan (1088.37 MW)
mw
what gov. grants are available for solar farm 1 to 5 MW
S = 1/ Ifsd = 1/5mA = 200 Ohm / V
A 1 MW solar farm would cost in the 4-5 million range.
A 1 MW solar farm would cost in the 4-5 million range.
about 2 metres love
A level 5 Arceus. Arceus is known to be the creator of the world, so it would easily be more powerful than a simlpe Pichu.
lets say you sample oxgen from the air and you find that 90% of it has molecular weight of 16, 5% has MW of 17, 3% has MW of 18 and 2% has MW of 15. so the avrage MW would be: (16*90+17*5+18*3+15*2)/100 hope it helps zaf