What is the Difference Between Van der Waals and Hydrophobic Interactions?

Van der Waals interactions and hydrophobic interactions are two different types of intermolecular forces. The key difference between them lies in their origin and the nature of the forces involved.

Van der Waals interactions:

• These interactions arise from the temporary dipoles that occur due to random movement of electrons in the atomic shells of molecules.
• They are instantaneous and can induce dipoles in nearby molecules, leading to weak attractions.
• Van der Waals forces are generally considered attractive forces between non-polar molecules.

Hydrophobic interactions:

• These interactions are the result of the disruption of hydrogen bonds between water molecules when non-hydrogen bonding surfaces, such as oil, are introduced.
• Hydrophobic interactions are primarily repulsion forces between water molecules and other molecules.
• They are relatively stronger than other weak intermolecular forces, such as Van der Waals interactions or hydrogen bonds.

In summary, Van der Waals interactions are weak attractive forces between non-polar molecules due to temporary dipoles, while hydrophobic interactions are repulsion forces between water molecules and other molecules resulting from the disruption of hydrogen bonds in water.

Comparative Table: Van der Waals vs Hydrophobic Interactions

Van der Waals interactions and hydrophobic interactions are two different types of chemical bonds. Here is a comparison between the two:

In summary, Van der Waals interactions are weak chemical bonds between non-polar molecules, while hydrophobic interactions are repulsion forces between water molecules and other molecules. Van der Waals interactions occur due to instantaneous and induced dipoles, whereas hydrophobic interactions arise from the disruption of hydrogen bonds between water molecules.