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My mistake, its should be about 111 degrees celsius.
At 101.325 kPa, the melting point of xenon is 161.40 K or -111.75 °C or -169.15 °F. At 101.325 kPa, the boiling point of xenon is 165.051 K or -108.099 °C or -162.578 °F. It is a Gas in normal phase or at STP.
salt increases the boiling point of water so it it (boils) around 110oc This may occur at a certain concentration of salt in the water. If there is a very tiny proportion of salt in the water it will boil near to 100oC As the proportion of salt increases so will the boiling point.
At STP ie (1 Atm or 101.325 kPa, 760mm Hg) The boiling point of pure water is 212 °F or 100 °C The freezing point of pure water is 32 °F or 0 °C
67 g/mol
My mistake, its should be about 111 degrees celsius.
Each liquid has a different boiling point; 101,3 kPa is he standard atmosphere pressure (atm).
Boiling point of Water is 100 °C at 101.33 kPa = 1 Atmosphere At lower pressures the boiling point temperature reduces. For example: water boils at 3.8 °C at 0.8 kPa. At higher pressures the boiling point temperature increases. For example: water boil at 198.3 °C at 1500 kPa.
At it boiling point: boiling temperature AND pressure:Water boiling at 100oC at 100 kPa (1 atm.)
At 101.325 kPa, the melting point of xenon is 161.40 K or -111.75 °C or -169.15 °F. At 101.325 kPa, the boiling point of xenon is 165.051 K or -108.099 °C or -162.578 °F. It is a Gas in normal phase or at STP.
50 degrees Celsius (trust me)
Water has a boiling point of 367 K ( = 94oC) at 81.4 kPa (80% of Standard Sea level Pressure)
The boiling point would be 35 degrees Celsius. Use a graph comparing vapor pressure to temperature, go to the point where propanone is at 48 kpa, and see what the temperature is.
Pressure (kPa), volume (liters), temperature (Kelvins), and number of moles
salt increases the boiling point of water so it it (boils) around 110oc This may occur at a certain concentration of salt in the water. If there is a very tiny proportion of salt in the water it will boil near to 100oC As the proportion of salt increases so will the boiling point.
At STP ie (1 Atm or 101.325 kPa, 760mm Hg) The boiling point of pure water is 212 °F or 100 °C The freezing point of pure water is 32 °F or 0 °C
The boiling point and normal boiling point are related concepts, but they have specific differences. Boiling Point: The boiling point of a substance is the temperature at which the vapor pressure of the liquid equals the atmospheric pressure, causing the liquid to change into a gas or vapor. At the boiling point, bubbles of vapor form within the liquid and rise to the surface, resulting in a continuous phase change from liquid to gas. Different substances have different boiling points, which can be influenced by factors such as atmospheric pressure and the strength of intermolecular forces within the liquid. Normal Boiling Point: The normal boiling point of a substance is the temperature at which it boils when the atmospheric pressure is at the standard pressure of 1 atmosphere (atm), which is equivalent to 101.325 kilopascals (kPa) or 760 millimeters of mercury (mmHg). This standard pressure is typically found at sea level.