That will completely depend on how much water there is.
8*3.5*1000*1000 litres
12 divided by 1000 is 1.2 cents per gallon
1 cbm of what? If water, than 1000 kgs
1000 m. of pure water = 100 bar plus atmospheric pressure at say 1 bar = 101 bar. Seawater will be more because the density is higher.
1700 times(x)
At 212 degrees Fahrenheit water expands approximately 1,700 its original volume when converted to steam.
1,832 degrees Fahrenheit.
That depends on what temperature it started at. Whatever scale of temperature you are using, water will be steam at 500 degrees.
Water weighs 1kg per liter. If it is all turned to steam you will have 1kg of steam. Water expands to nearly 1700 times its original volume at 212 degrees.
1000 lbs of water weighs 1000 lbs.
1760 times
1000 Kelvin is equal to 1340.33 degrees Fahrenheit.
5%
1...... Billion dollars
To raise 1000 grams of water from 50 to 100 degrees requires 50 degrees x 1000 grams of heat, so the answer is 50,000 calories. Water at 100 degrees requires an additional 550 calories to convert 1 gram fully into steam. Therefore the remaining 50,000 calories can convert 50,000/550 grams into steam. So 90.9 grams become steam, and that's the answer.
The specific heat capacity of water is 4.186 J/g°C. Since there are 1000 grams in a kilogram, it would require 20,930 Joules of energy to increase the temperature of a kilogram of water by 5 degrees Celsius.