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∙ 9y agoThe 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.
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.
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.
No, the vapor pressure of chloroform is higher than that of Water. The normal boiling point of chloroform is at 61 °C and approx. 39 °C lower than that of water. For calculating vapor pressures of chloroform and water at different pressures you could visit the links below.
At 4.7 atm, the boiling point of water is approximately 132.5 degrees Celsius. This is higher than the typical boiling point of water at standard atmospheric pressure (100 degrees Celsius) due to the increased pressure.
As pressure is increased from 0.8 ATM to 1.2 ATM at 100 degrees Celsius, the boiling point of water also increases due to the higher pressure. This means that the water will remain in liquid form rather than boiling into steam until the new, higher boiling point is reached.
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.
The boiling point of chloroform is 61,15 oC.
The temperature of boiling water in Celsius is 100 degrees.
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.
No, the vapor pressure of chloroform is higher than that of Water. The normal boiling point of chloroform is at 61 °C and approx. 39 °C lower than that of water. For calculating vapor pressures of chloroform and water at different pressures you could visit the links below.
The boiling point of water is 100 degrees Celsius at standard atmospheric pressure. At higher altitudes where the atmospheric pressure is lower, the boiling point of water will be lower as well.
At 4.7 atm, the boiling point of water is approximately 132.5 degrees Celsius. This is higher than the typical boiling point of water at standard atmospheric pressure (100 degrees Celsius) due to the increased pressure.
Water evaporates at almost any temperature. However, at higher temperatures, the vapor pressure is higher. It is said to be boiling when the vapor pressure is equal to the atmospheric pressure.
As pressure is increased from 0.8 ATM to 1.2 ATM at 100 degrees Celsius, the boiling point of water also increases due to the higher pressure. This means that the water will remain in liquid form rather than boiling into steam until the new, higher boiling point is reached.
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.
Water could be made to boil at 105 degrees C instead of 100 degrees C by adding a solute to the water. You can also raise the boiling point of water by moving to a higher elevation or putting it under higher pressure.
Chlorine has a higher boiling point than oxygen. Chlorine's boiling point is -34.6 degrees Celsius, while oxygen's boiling point is -183 degrees Celsius.