I assume you mean CH3NH2, methylamine. This has hydrogen bonding between molecules.
Hydrogen bonding in NH3 and H2O, London dispersion forces in CH4
There is polar N-H bond. So there are H bonds.
hydrogen bonding
Hydrogen Bonding
Hydrogen bonding NH or OH
Nitrogen
intermolecular forces
The major difference difference arises on the basis of the forces... In Elastomers, the polymer chains are held together by weakest intermolecular forces while in fibers, the intermolecular forces are strong like hydrogen bonding.
Intermolecular forces are stronger in liquids than in gases. A gas is the physical state characterized by the complete dominance of kinetic energy (disruptive forces) over potential energy (cohesive forces). Thus, gas particles move independently of one another. On the other hand, a liquid is the physical state characterized by potential energy (cohesive forces) and kinetic energy (disruptive forces) of about the same magnitude. So, the particles in the liquid have enough kinetic energy to move and slide past one another, but are still held together by any intermolecular forces. The particles in the liquid will break free of any intermolecular bonds once they obtain enough kinetic energy.
The intermolecular forces in water is hydrogen bonding.
Hydrogen bonds
CH3NH2 has the higher boiling point as it has a hydrogen bond between the molecule which is a stronger intermolecular attractive force, whereas CH3CH3 only has covalent bonds which are weaker intermolecular attractive forces.
These are polar forces, intermolecular forces of attraction between molecules.
Dipole forces and London forces are present as intermolecular forces in these molecules.
These are intermolecular forces.
Intramolecular forces are not intermolecular forces !
The intermolecular forces in acetone are weaker.
hydrogen bonding
Intermolecular forces in C3CH2CH2NH2London disperiondipole-dipolehydrogen-bonding forces
The weakest of the four forces is gravity by a huge margin
The intermolecular forces are hydrogen bonding.
When there is more thermal energy, then there are less intermolecular forces.
When there is more thermal energy, then there are less intermolecular forces.