the height you are away from see level. as you get higher, the temperature gets higher.
The boiling point of saliva is around 212 degrees Fahrenheit, which is the same as the boiling point of water.
The boiling point of water in degrees Fahrenheit is 212F.
The boiling point of water is 80°R in the Romar scale.
Yes, water changes from a liquid to a gas when it is boiling. At the boiling point, the molecules of water have enough energy to overcome the intermolecular forces holding them together as a liquid, allowing them to escape into the air as water vapor.
AnswerImpurities tend to increase the boiling point and lower the freezing point.in a way boiling point of salty water > boiling point of fresh waterfreezing properties of salty water < freezing properties of fresh watermelting properties of salty water < melting properties of fresh water.Salt water, contains NaCl, which ionizes into Na and Cl ions. when ions are added to a solvent, such as water, they tend to increase the boiling point and lower the melting point.
Any added impurity can change the boiling point of a liquid.
it does not change
The pure ethanol has the boiling point 78.5 celsius while water has 100 celsius so when water is added to ethanol its boiling point becomes increased.
It increases.
YES
Salt
it does not change
it does not change
If you want to limit yourself to water only, you could change the pressure. That would greatly change the boiling point and slightly change the freezing point. If you don't care about limiting yourself to pure water, you can dissolve a salt or other substance in the water to lower the freezing point and raising the boiling point.
yes the boiling point changes with elevation. the higher the elevation the lower the boiling point.
No, the amount of water does not change the boiling or freezing point of water. The boiling point of water is always 100°C (212°F) at sea level, and the freezing point is always 0°C (32°F). The boiling and freezing points are determined by the chemical properties of water, not the amount of water present.
By melting