At 22oC:
kinematic viscosity is:
1.0004 (m2/s)x10-6
dynamic viscosity is:
1.002 (Ns/m2)x10-3
21.068 torr )
Depends on the volume or the temperature.
the point at which a liquid turns into a gas depends on the atmospheric pressure and the liquid water turns to gas at 100 degrees C at 1atm of pressure
Gaseous. If that is 150 degrees C, that would be steam.
The water boiling point in Celsius is 100 °C.
The boiling point of water 212 degrees F or 100 degrees C at 1 atmosphere of pressure (sea level).
Do you mean, how does the pressure of water vapor at 10˚C compare with its pressure at 50˚C?The vapor pressure of water is the pressure at which steam is saturated. Above this pressure, the water would begin to condense. In a gas mixture saturated with water vapor, the vapor pressure is equal to the partial pressure. The vapor pressure is a function of temperature. Many equations of state can predict vapor pressures of liquids but the best ones are also rather complex and require considerable expertise to use. For most purposes, there are several simpler empirical equations which can estimate the vapor pressures of liquids with sufficient accuracy for most purposes.One of the simplest is the Antoine equation which has the form:log10Pvap = A - B/(C+T) where the Pressure (P) is in mmHg and the Temperature (T) is in °C.For water in the range from 1 °C to 100 °C, the constants have the values:A = 8.07131B = 1730.63C = 233.426Using these values, the vapor pressure of water can be estimated as:Pvap(@10 °C) = 9.158817 mmHgPvap(@50 °C) = 92.29989 mmHg... so the vapor pressure of water at 50 °C is roughly 10 times the vapor pressure at 10 °C.
Yes, the vapour pressure of water at 10°C is 1.2 kPa and at 50°C is 12.3 kPa.
22 - 5 = 17 degrees
At sea level atmospheric pressure, 0°C or 273.16 K.
Water is a solid at all temperatures from 0 degrees C downwards. That is at normal atmospheric pressure.
At standard pressure, it is 100 degrees C.
70 degrees C
100 degrees Celsius or 212 degrees Fahrenheit
22 degrees Celsius = 22°C
27
22 degrees Celsius = 71.6 degrees Fahrenheit
Water can remain liquid at a temperature above 100 degrees, C., when the pressure on it is greater than the pressure found at average sea level.
the point at which a liquid turns into a gas depends on the atmospheric pressure and the liquid water turns to gas at 100 degrees C at 1atm of pressure