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The normal boiling point of Chloroform is?
The normal boiling point of Chloroform is approximately 61.2°C.
The normal boiling point of chloroform which has a higher vapor pressure than water at 100 degrees celsius is?
Chloroform has a normal boiling point of 61.2 degrees Celsius, which is lower than the boiling point of water. This means that chloroform will have a higher vapor pressure than water at 100 degrees Celsius, where water is at its boiling point but chloroform is not.
What is the boiling point of chloroform on the kelvin scale?
The boiling point of chloroform is approximately 334 K on the Kelvin scale.
What is the normal boiling point of the chloroform which has a higher vapor pressure than water at 100 Celsius is?
The normal boiling point of chloroform is approximately 61.2°C. Since chloroform has a higher vapor pressure than water at 100°C, it means chloroform will boil first before water at that temperature, due to its lower boiling point.
What is the boiling point of chloroform at 600 mm Hg?
At 600 mm Hg pressure, the boiling point of chloroform is approximately 61.2 degrees Celsius (142.2 degrees Fahrenheit).
The normal boiling point of Chloroform is?
The normal boiling point of Chloroform is approximately 61.2°C.
The normal boiling point of chloroform which has a higher vapor pressure than water at 100 degrees celsius is?
Chloroform has a normal boiling point of 61.2 degrees Celsius, which is lower than the boiling point of water. This means that chloroform will have a higher vapor pressure than water at 100 degrees Celsius, where water is at its boiling point but chloroform is not.
What is the boiling point of chloroform on the kelvin scale?
The boiling point of chloroform is approximately 334 K on the Kelvin scale.
The normal boiling point of chloroform which has a higher vapor pressure than water at 100 and degC is?
The boiling point of chloroform is 61,15 oC.
What is the normal boiling point of the chloroform which has a higher vapor pressure than water at 100 Celsius is?
The normal boiling point of chloroform is approximately 61.2°C. Since chloroform has a higher vapor pressure than water at 100°C, it means chloroform will boil first before water at that temperature, due to its lower boiling point.
What is the boiling point of chloroform at 600 mm Hg?
At 600 mm Hg pressure, the boiling point of chloroform is approximately 61.2 degrees Celsius (142.2 degrees Fahrenheit).
What is the boiling and freezing point when it is 1.92 mole of naphthalene C10H8 in 16.8 mole of chloroform?
The boiling point elevation and freezing point depression of a solution are colligative properties that depend on the molality of the solute particles. Given the information provided, you would need the constants for the boiling point elevation and freezing point depression of the solvent (chloroform) to calculate the new boiling and freezing points.
Which would have a higher boiling point chloroform or bromoform?
Bromoform would have a higher boiling point than chloroform due to the presence of heavier bromine atoms. The increased molecular weight of bromoform leads to stronger van der Waals forces between molecules, resulting in a higher boiling point.
Is chloroform a solidliquid or a gas?
Chloroform is a liquid at room temperature. It has a boiling point of 61.2 degrees Celsius and a freezing point of -63.5 degrees Celsius.
What is the rate of evaporation of chloroform?
The rate of evaporation of chloroform can vary depending on factors such as temperature, surface area, and airflow. In general, chloroform evaporates relatively quickly compared to other liquids due to its low boiling point.
What is the evaporation rate of chloroform and water?
The evaporation rate of chloroform is higher than water due to its lower boiling point and higher vapor pressure. Chloroform evaporates quickly at room temperature, while water has a slower evaporation rate.
Is evaporation rate of iso propyl alcohol higher than chloroform?
Yes, the evaporation rate of isopropyl alcohol is higher than that of chloroform. Isopropyl alcohol evaporates more quickly due to its lower boiling point compared to chloroform.
