The needed energy at 100 oC is 48751 MJ.
292 kj
No heat (energy) is required to freeze water (from liquid to solid). Freezing RELEASES energy (heat), as it is an exothermic event. If you want to know how much energy is release, you need to know the heat of fusion for water, and then multiply that by the mass of water being frozen.
It takes 333.51 or 334 joules to evaporate 1 gram of H2O.
A Calorie is the amount of energy required to raise 1cm^3 of water. One cm^2 of water is a two-dimensional object so it technically does not exist.
the water in the glass evaporates if the atmosphere temperature is at evaporating point of water
292 kj
No heat (energy) is required to freeze water (from liquid to solid). Freezing RELEASES energy (heat), as it is an exothermic event. If you want to know how much energy is release, you need to know the heat of fusion for water, and then multiply that by the mass of water being frozen.
the required energy is... 55.5 multiply by 286 = 15873 K.J....
8.25
No energy is gained. On the contrary, energy is required to make ice melt.
This will depend on how much vinegar you are looking to have evaporate. Vinegar is a mixture of acetic acid and water. Acetic acid will evaporate faster than water at a rate of .97.
This depends on many factors.
That depends how much water, and what is the initial temperature.
The same amount of energy that is required to change it from a solid to a liquid. About 334.0 kJ/kg.
It takes 333.51 or 334 joules to evaporate 1 gram of H2O.
If by "boil" you mean have it all evaporate, that takes MUCH more energy. For example, to increase the temperature of one gram of water from 20 to 100 degrees Celsius, you need 4.2 joules/gram/degree times 80 degrees = about 336 joules; then, to evaporate all the water, you need an additional 2257 joules.
Energy required to raise 1 gramme of water by 1 degree C = 1 calorie also, 1 calorie = 4.186 Joules