0,851 kPa
Vapor pressure of water at 10 0C is less than that at 50 0C because, like gas pressure, as temperature rises, the kinetic energy of particles increases, thus increasing pressure. So the pressure of water vapor at 50 0C has more vapor pressure than at 10 0C.
Yes. As long as the pressure is below atmospheric pressure.
The vapor pressure of water at 10°C is lower than at 50°C. As temperature increases, the vapor pressure of water also increases because more water molecules have enough energy to escape into the gas phase. At 50°C, the water molecules are more energetic and escape into the air more readily compared to at 10°C.
The vapor pressure of anything at its boiling point is 1 atmosphere. That is the definition of boiling point, the vapor pressure is just enough to overcome atmospheric pressure. It could also be stated as: 760 mmHg (torr), 29.92 inHg, 14.696 PSI, 1013.25 millibars, or 0 PSIG.ImprovedThe problem to answer this Q. correctly, is that the atmosferic pressure is NOT the same as one atmosphere: On sea level and under normal, average weather conditions it is most of the time true, so then the A. is correct.But high in the mountains cyclohexane will boil at a lower temperature (than 810C) because of the lower (than 1 ATM.) atmosferic pressure.The above definition of boiling point is CORRECT, but the first statement (The vapor pressure of anything at its boiling point is 1 atmosphere) is NOT
== Vapor Pressure Of Ethanol== According to Shuzo Ohe's conmputation program it's 102.65 mmHg.
at standard pressure, the vapor condenses to liquid water at 100 C
The vapor pressure of water at 10 degrees Celsius is lower than at 50 degrees Celsius. As temperature increases, so does the vapor pressure of water because more water molecules have enough energy to escape into the gas phase.
The vapor pressure of kerosene at 25 degrees Celsius is approximately 0.28 kPa.
The vapor pressure of water at 105 degrees Celsius is approximately 101.3 kilopascals (kPa).
The vapor pressure of pure water at 25 degrees Celsius is 23.8 torr.
The vapor pressure of propane at 15.0 degrees Celsius is approximately 0.52 MPa (or about 5.2 bar). This value indicates the pressure exerted by propane vapor in equilibrium with its liquid at that specific temperature. Vapor pressure can vary slightly based on the source, but it typically falls within this range at 15°C.
Vapor pressure of water at 10 0C is less than that at 50 0C because, like gas pressure, as temperature rises, the kinetic energy of particles increases, thus increasing pressure. So the pressure of water vapor at 50 0C has more vapor pressure than at 10 0C.
The vapor pressure of CH3OOH (methoxy) at 20 degrees Celsius is approximately 19.26 mmHg.
At 100 oC and normal pressure water vapor is known as saturated steam when it's coming off boiling water.
The vapor pressure of nitrobenzene at its boiling point (210.9°C) is equal to the atmospheric pressure, which is 1 atm. At 102°C, the vapor pressure of nitrobenzene would be lower than 1 atm, as the boiling point is higher than 102°C.
The boiling point of water is 100 degree celsius. Therefore water changes in to vapor after 100 degree celsius. Therefore the physical state of water at 250 degree celsius is "Gas".
757.2 mmHg is almost atmospheric pressure (P = 760 mmHg) and therefore the vapour pressure is very close to the normal boiling point.According to the boiling temperature is T = 353.14 K = 79.99 °C at P = 757.2 mmHg.