Want this question answered?
No. Latent heat of vaporization is defined as the energy required to VAPORIZE 1 kilogram of a liquid completely at its boiling point. Latent heat of sublimation is the energy required to SUBLIME 1 kilogram of a solid completely into a gas at constant temperature. They're different. Note that the temperatures should be constant during the processes.
The form of energy that is stored in an object due to its position above or below another point is called potential energy. There are three types of potential energy which are the elastic, electric, and gravitational potential energy.
Below the equator
oil
Potential energy can be used to store energy - as in the chemical energy stored in a battery or in the food we eat, the energy stored in a spring, or water that is below the lowest possible level.
2200 kj
414 kJ
energy in = energy out
800 kj
1935 JSource: Apex
The boiling point is the temperature where a substance BEGINS to vaporize. So all of the water doesn't necessarily need to boil off instantly. To vaporize, molecules of water need to have energy. Only at the boiling point do they have enough energy to boil away, and when they do, they carry this energy with them. This means that a constant supply of heat for a certain period of time is needed for all water in a sample to boil off.
That depends on the equation.
In chemical symbols, the equation would be: 6CO2 + 6H20 + light energy -----> C6H12O6 + 6O2 In words, the equation would be: Carbon Dioxide + Water + light energy -----> glucose (sugar) + oxygen
No. Latent heat of vaporization is defined as the energy required to VAPORIZE 1 kilogram of a liquid completely at its boiling point. Latent heat of sublimation is the energy required to SUBLIME 1 kilogram of a solid completely into a gas at constant temperature. They're different. Note that the temperatures should be constant during the processes.
-225.3 KJ
97.6 - 98
That depends on what the equation is.