Hydrogen bond form the intermolecular forces in methyl alcohol. That's the reason why methyl alcohol is soluble in water.
Ethanol's hydroxyl group is able to participate in hydrogen bonding
There is going to be a hydrogen bond between the Oxygen and the Hydrogen in the OH part of the methanol molecule and Van Der Waals forces between the Carbon and hydrogen.
Dispersion forces and Hydrogen bonding (possible dipole-dipole, which is induced due to hydrogen bonding)
Dipole-Dipole.
hydrogen bonding
carbon
In almost all hydrocarbons, the only type of intermolecular forces that exists is the London forces (Van der Waals forces).
intermolecular forces
Dipole
yes it is - gentle warming will change it to vapor though.
The intermolecular forces are ionic for CoCl2 cobalt chloride. For COCl2 Phosgene they are polar covalent.
In almost all hydrocarbons, the only type of intermolecular forces that exists is the London forces (Van der Waals forces).
intermolecular forces
Intramolecular forces are not intermolecular forces !
Hydrogen fluoride, with the chemical formula HF, is a colorless gas that is the principal source of fluorine. The type of intermolecular forces that exist in HF are London forces, dipole-dipole.
You think probable to intermolecular forces.
Dipole
ionic
yes it is - gentle warming will change it to vapor though.
London Dispersion Forces
The intermolecular forces are ionic for CoCl2 cobalt chloride. For COCl2 Phosgene they are polar covalent.
These are intermolecular forces.
London Dispersion