The pressure in ATM at the normal boiling point of water is 1 ATM.
These temperatures are 0 0C and 100 0C.
At 0 ATM the boiling point is extremely low. For example at 0.0000034 ATM, the boiling point is -67.78 Celsius. In an ideal vacuum it would be even lower than this but I don't know if it would be 0K or not. Referenced from the following resources: http://www.jbind.com/pdf/Cross-Reference-of-Boiling-Temps.pdf http://www.convertunits.com/from/psia/to/atmosphere+[standard]
The Boiling Point is the point at which a substance at liquid state boils. The temperature that the liquid has to reach to be at Boiling Point (B.P) ranges, it is different for each liquid. The B.P for water is 100 degrees Celsius.
The boiling point of a mixture of benzene and water will be higher than the boiling point of either component alone, due to the presence of both compounds. The exact boiling point would depend on the concentrations of benzene and water in the mixture according to Raoult's law. If benzene and water form an ideal solution, the boiling point of the mixture would lie between 80.1°C and 100°C.
1 atm
The pressure in ATM at the normal boiling point of water is 1 ATM.
The boiling point of water is 212°F (100°C) and the freezing point is 32°F (0°C) in Fahrenheit and Celsius scales, respectively.
As pressure increases from 0.8 ATM to 1.2 ATM, the boiling point of water also increases. Therefore, at 100°C and 0.8 ATM, water would boil, but at 1.2 ATM, the water would need to be heated to a higher temperature to reach the new boiling point under the increased pressure.
As pressure is increased from 0.8 ATM to 1.2 ATM at 100 degrees Celsius, the boiling point of water also increases due to the higher pressure. This means that the water will remain in liquid form rather than boiling into steam until the new, higher boiling point is reached.
The boiling point of water drops by approximately 1 degree Fahrenheit for every 550' of elevation gain above sea level (ASL). So the boiling point of water at 6000' ASL would be around 93.8 degrees Celsius or 201 degrees Fahrenheit.
At 0 ATM the boiling point is extremely low. For example at 0.0000034 ATM, the boiling point is -67.78 Celsius. In an ideal vacuum it would be even lower than this but I don't know if it would be 0K or not. Referenced from the following resources: http://www.jbind.com/pdf/Cross-Reference-of-Boiling-Temps.pdf http://www.convertunits.com/from/psia/to/atmosphere+[standard]
These temperatures are 0 0C and 100 0C.
190 degress
Water at 100°C and 1 atm pressure is in its liquid state, commonly referred to as boiling water. At this temperature and pressure, water reaches its boiling point and begins to vaporize into steam.
The melting point of ultrapure water is 0 0C at 1 atm.
At 4.7 atm, the boiling point of water is approximately 132.5 degrees Celsius. This is higher than the typical boiling point of water at standard atmospheric pressure (100 degrees Celsius) due to the increased pressure.