Answer:
dispersion, dipole-dipole, and hydrogen bonding
Explanation:
The pictured compound is an amine. Amines have high boiling points. Amines have such high boiling points because they posses about three different kinds of intermolecular interactions, viz; hydrogen bonds, dispersion forces and dipole-dipole interactions.
The dipole interactions and hydrogen bonds arise from the fact that the N-H bond is polar. Also recall that a hydrogen bond is formed when hydrogen is bonded to an electronegative element. Hydrogen bonds lead to significant intermolecular association and high boiling points.
Hence the three kinds of intermolecular forces present in the pictured compound are; hydrogen bonding, dipole interactions and dispersion forces.
The amine have been consisted of dispersive, dipole-dipole, and hydrogen bonding. Thus, option E is correct.
The given figure has been consisted of the amine. The amines are the nitrogen-containing compound bonded with the two hydrogen atoms.
The intermolecular forces are responsible for holding the structure of the compound and are formed by the interaction of the two elements.
The amine has been nitrogen as the electronegative atom as compared to hydrogen. The atoms of hydrogen have been pulled towards the nitrogen, making the bond polar.
The polar bond has been consisted of the dipole-dipole interactions formed between the polar hydrogen and nitrogen. The presence of hydrogen bonds in the structure has mediated the high boiling point. The hydrogen bonds have resulted in the dispersive van-der wall interaction in the structure.
Thus, the amine have been consisted of dispersive, dipole-dipole, and hydrogen bonding. Thus, option E is correct.
For more information about the intermolecular forces, refer to the link:
https://brainly.com/question/17111432
