Phenol has a higher boiling point than alcohol does; it has a stronger dipole difference in its -OH group.
This is because the intermolecular forces holding the molecules of phenol together are stronger than the intermolecular forces holding the molecules of alcohol together.
It s the structure and bonding of Aniline, Phenol, Benzene and Toluene that causes the differences in the boiling points.
Water has a higher boiling point that alcohol (ethanol). The main reason for this is because water has stronger intermolecular forces holding the molecules together.
it depends on the altitude
The presence of strong hydrogen bonding in ethyl alcohol (when compared to that of dimethylether) increases its boiling point.
This is because the intermolecular forces holding the molecules of phenol together are stronger than the intermolecular forces holding the molecules of alcohol together.
It s the structure and bonding of Aniline, Phenol, Benzene and Toluene that causes the differences in the boiling points.
Water has a higher boiling point that alcohol (ethanol). The main reason for this is because water has stronger intermolecular forces holding the molecules together.
it depends on the altitude
The presence of strong hydrogen bonding in ethyl alcohol (when compared to that of dimethylether) increases its boiling point.
no..ethers are always low in boiling point than alcohol due to alcohols hydrogen bonds
C6H5OH BOILING POINT- 1820C C6H5CH3 BOILING POINT- 1110C === ===
Boil/Freeze it. The alcohol will have a higher boiling point and lower freezing point than the water will.
Because the boiling point of alcohol is lower than the boiling point of water.
this is because of the presence of intermolecular hydrogen bonding in the polar molecules. energy is needed to over come the attractive forces resulting in higher boiling point values.
A given form of liquid alcohol will turn to vapor at its boiling point, which is different for each type of alcohol.
Chlorine has higher boiling point.