Question

Dipole-dipole interaction energy between rotating polar molecules is proportional to​

Answer 1

Answer:

These factors include both natural events such as geological weathering and erosion and human-related activities such as deforestation and changes made to the flow of groundwater. Destruction of vegetation by droughts, fires, and logging has been associated with increased risk for landslides.

Answer 2

Dipole-dipole interaction energy between rotating polar molecules is proportional to

Dipole-dipole interaction energy between rotating polar molecules is proportional to $\frac{1}{ {r}^{6} }$

• "r" is denoted as the distance between either the stationary or the rotating polar molecules.
• The attractive force as well as the interaction energy decreases with the increase in the distance between the polar molecules and the distance between the dipoles respectively.
• During the formation of the partial charges inside one molecule, dipole-dipole interactions happens when the particle charges having opposite charges that are present in another nearby molecule attracts with the formed partial charges.
• The energy of dipole-dipole interaction between the rotating polar molecules is directly proportional to the sixth power of the distance between the two particles in interaction.

Hence, The energy of dipole-dipole interaction ∝ $\frac{1}{ {r}^{6} }$ for a rotating polar molecule.