no
The temperature remains the same. The density between phases changes of course but the density within each phase remains the same.
The boiling point of sea water is higher compared with pure water. Temperature remain constant during boiling.
When the temperature remain stable the measurement is correct.
It cannot increase any further and the energy transfered to the liquid causes evaporation
Yes, that is partially true. While water is being heated, once its temperature reaches boiling, the water will remain at boiling until all of the water boils away. So, Yes, it does turn to gas, but, No, it doesn't turn to gas all at once. Prior to reaching boiling, the water would have been evaporating at a slower rate. The only thing magical about the boiling point is that is the temperature where the pressure of the evaporating water equals atmospheric pressure.
A person can remain alive for 8 weeks after the person begins fasting.
At the boiling point the temperature remain unchanged.
The temperature remain unchanged.
The boiling point of sea water is higher compared with pure water. Temperature remain constant during boiling.
When the temperature remain stable the measurement is correct.
if you increase the pressure, the boiling point (temperature) will also increase.
The temperature remain unchanged.
If you add energy to a boiling liquid, it will just boil faster, but the temperature will remain the same, at the boiling point. All the energy goes into phase change, not heating.
Boiling is to heat an liquid to the point where it will turn from a liquid to a gas. Because the substance cannot be at temperature higher than its boiling point the temperature will remain that until all the liquid has been boiled away. That is why if I were to heat some alcohol and water the temperature would remain at about 60oC until all the alcohol had evaporated away. Then the temperature would go to 100oC and the water would boil. The boiling point of substance is the temperature at which the substance will turn from a liquid to a gas. This is about 100oC for water.
Yes quite possible. This occurs at the change of state. As water gets changed into steam heat will be supplied but the temperature would remain at the boiling temperature.
As water evaporates from the boiling pot,its temperature drops.This results from the fact that water molecules during evaporation extract its latent heat of vapourization from the pot, thereby exerting a cooling effect on it and its content.Regulation of body temperature by sweating is based on this principle. When sweat comes out of its pores, usually in suny days, it evaporates and in the process extract its latent heat of vapourization from the body.This causes the body temperature to decrease.In this way it keeps the body temperature fairly constant.
It cannot increase any further and the energy transfered to the liquid causes evaporation
as we know that the room temperature is 25*C which is very greater than the boiling point of the carbon dioxide so it remain in the vapor state but boiling point of the iodine is greater than the 25*C