- 80 calories are needed to melt 1 gram of 0°C ice to 1 gram of 0°C water
- 640 calories are released when 1 gram of steam at 100°C is condensed to water at 0°C
- 80/640 or 1/8 gram of steam at 100°C must be condensed
The latent heat condensation of steam is 540 calories. When each gram of steam condenses to water at 100 degrees Celsius water it releases this amount of energy. Thus
18 x 540c = 9720c
From there each gram of water releases 1 calorie for every degree of Celsius change in temperature.
18 x 99c = 1782c
These to combined bring the total amount of energy released to 11502 calories.
The latent heat of melting for water is 80 calories. From here we get
11502c / 80 = 143.775 grams of ice.
It depends on how 'cold' the ice is:
1 g of -1 0C needs less melting heat than 1 g of -20 0C
0.148
There is no mass loss (nor gain) in state change, so there would be 100 grams of ice formed.
100 grams is 3.53 ounces.
100 grams equates to about 0.220462 pounds.
100 grams is 3.53 ounces.
100 grams is 3.53 ounces.
There is no mass loss (nor gain) in state change, so there would be 100 grams of ice formed.
If all the water boils off, the mass of the steam will be 100 grams. Matter cannot be created or destroyed.
that is approximately 3/8 of a cup.
There is no mass loss (nor gain) in state change, so there would be 100 grams of ice formed.
100 g Steam at high temperature (>100°C) and pressure (>1 Bar)
39.0g
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.
Generally, 2.5 grams of tea is recommended for an 8 oz cup. Using that number, you can get 40 cups from 100 grams of tea.
It would depend how it was prepared- that would change the number drastically.
100 grams = 3.5 ounces.
When warming 100 grams of ice the greatest amount of heat is involved when evaporating the water. Evaporation is a type of vaporization of a liquid that occurs from the surface of a liquid into a gaseous phase that is not saturated with the evaporating substance.
100 lbs of steam. The volume that the steam will occupy will depend on the pressure.