At 0,5 bar water boils at about 176 °F or 80 °C
At 1 bar water boils at about 212 °F or 100 °C
At 2 bar water boils at about 250 °F or 120 °C
See the link below for a graph, a table and an explanation.
100oCelsius, 760torr is 1 ATM pressure
Approx. 90 0C.
About 80 degrees Celsius.
It is the temperature at which the vapor prussure of a liquid is equal to the standard atmospheric pressure (1 atm = 760 torr). Boiling point: the temperature of the phase change from liquid to gas. Melting point: the temperature of the phase change from solid to liquid.
The boiling point of alcohol is 173F/78C. Similarly the boiling point of pure water is 212F/100C. Hence the mixing of water and alcohol will have a boiling point that lies between these two ratios.
600 Torr (1 atm/760 Torr) = 0.789 atmospheres ================
Boiling Point (760 mm Hg); 80.1 deg. C (176 deg. F)
A torr is a unit of measurement for pressure. The unit is named after an Italian scientist named Evangelista Torricelli (1608-1647) who was a student of Galileo and invented the barometer. 1 torr = 1mm Hg (one millimeter mercury) 760 torr = 1 ATM (atmospheres) 760 torr = 14.7 lb/in^2
It is the temperature at which the vapor prussure of a liquid is equal to the standard atmospheric pressure (1 atm = 760 torr). Boiling point: the temperature of the phase change from liquid to gas. Melting point: the temperature of the phase change from solid to liquid.
Equals 101,325 pascals, 101.325 kpascals, 760 mm of Mercury, and/or 1 atmosphere
The boiloing point of toluene at atmospheric pressure of 760 mm (torr) is 110.5 deg C. Reducing the pressure lowers the boiling point. The boiling point of toluene at 600 mm (torr) is 104.0 deg C.
boiling point of a liquid is affected greatly by the external pressure as the Increase in external pressure = increase in boiling point e.g boiling point of water is 100 degree centigrade under normal pressure i.e 760 torr and has boiling point =98 degree centigrade at Murree HILLS where pressure is less than 760 torr. hence it is approved that external pressure affects boiling point. UTILITY IN INDUSTRY'' BY INCREASING THE EXTERNAL PRESSURE BOILING POINT INCREASES.SO BEFORE B.P OF ANY LIQUID it has much heat in itself which helps in cooking food earlier As in the case of pressure cooker. This property also plays a role in the VACUUM DISTILLATION for such liquids which decompose at lower temperature
there are 760 torr in 1 atom so you divide 774/760 and you'll get your atom
The boiling point of alcohol is 173F/78C. Similarly the boiling point of pure water is 212F/100C. Hence the mixing of water and alcohol will have a boiling point that lies between these two ratios.
1 atmosphere pressure = 760 torr655 torr / ( 760 torr / ATM) = 0.86184 ATMIf you're not sure whether to multiply or divide when doing conversions, do this:655 torr . 1 ATM------------ * ---------1. . 760 torrThe formatting did not display exactly as I wanted it to appearThis is read like a fraction. Since 1 ATM = 760 torr, the numerator and denominator are equal, so it's like just multiplying by 1 and won't change the value.The torr units in numerator/denominator cancel out, and the only unit remaining is atmospheres.
Vapor pressure of a liquid at its normal boiling temperature is simply the atmospheric pressure, aka 1 atm, 760 torr, etc. This is by definition.
760 torr
600 Torr (1 atm/760 Torr) = 0.789 atmospheres ================
Boiling Point (760 mm Hg); 80.1 deg. C (176 deg. F)
The boiling point of water is 100 oC at 760 mm Hg.