100 Celsius
Water freezes at zero degrees Celsius under normal atmospheric conditions.
Water freezes at zero degrees Celsius under normal atmospheric conditions.
At normal conditions (regular atmospheric pressure), yes. When freezing, water will be taking more volume until it completely turns into ice.
If you mean to ask if cold bodies of water are associated with high or low atmospheric pressure, they aren't. Atmospheric pressure can change independently of the temperature of bodies of water.
This is not a cut and dry answer. The temperature that water evaporates to a gas and conversely condenses to a liquid is dependent on air pressure. Liquid boiling points can also be affected by impurities in the liquid, depending on the concentration of impurities. Thus in a pressure cooker water boils at a much higher temperature that it would under normal atmospheric pressure. This is also why you can't make a decent cup of tea on the summit of Everest because water boils at about 71 degrees Celsius at that reduced atmospheric pressure. So it is impossible to give a specific figure for this question.
It depends on the pressure. At normal atmospheric pressure, the melting point of water is about 273.15 K.
100 degrees Celsius is the boiling point of water under normal atmospheric conditions.
Yes, if the water is under higher than normal atmospheric pressure. Near hot volcanic vents under the sea, water can reach several hundred degrees due to the high pressure.
Assuming that 100 dregess is your way of saying 100 degrees Celsius, it is the boiling point of pure water, under normal atmospheric pressure.
The answer depends primarily on the scale that you are using. On the Celsius (or Centigrade) scale, under normal atmospheric pressure, pure water boils at 100 deg.
The boiling point of water under normal atmospheric conditions.
It is a relating to a temperature scale that registers the freezing point of water as 0° Celsius and the boiling point as 100° Celsius under normal atmospheric pressure.
the boiling point of water under normal atmospheric conditions.
The freezing point of water under normal atmospheric conditions.
Zero degrees under normal atmospheric conditions.
Solid, assuming normal atmospheric pressure.
Only if the water is under pressure; that is, at a higher pressure than Earth's atmospheric pressure. This is because 100 degrees Celsius is the boiling point of water (at Earth's standard atmospheric pressure), where any additional heat energy will simply cause the water to vaporize. Under higher pressures, however, the water can be kept liquid to higher temperatures. (The calculation of such pressure is left as an exercise for the student!)