Question

In each of the following pairs, which one has the lower viscosity?

a. `"HCOOH"` or `"C"_8"H"_18`
b. `"C"_2"H"_5"Cl"` or `"CH"_3"OH"`

Answer 1

a. `"C"_8"H"_18"` and b. `"C"_2"H"_5"Cl"` have the lower viscosities.

Explanation:

The viscosity of a liquid is determined by its intermolecular forces.

The stronger the intermolecular forces, the more difficult it is for the molecules to slide past each other.

a. `"HCOOH"` or `"C"_8"H"_18`

`"C"_8"H"_18` has only weak London dispersion forces, while `"HCOOH"` has strong intermolecular hydrogen bonds.

So we predict that `"C"_8"H"_18` has a lower viscosity than `"HCOOH"`.

The prediction is confirmed by the actual viscosities.

The viscosity of `"C"_8"H"_18` is 0.542 mPa·s, while the viscosity of `"CH"_3"-OH"` is 1.78 mPa·s.

b. `"C"_2"H"_5"Cl"` or `"CH"_3"-OH"`

`"C"_2"H"_5"Cl"` or `"CH"_3"-OH"`

`"C"_2"H"_5"Cl"` has weak dipole-dipole forces from the `"C-Cl"` bonds, but `"CH"_3"-OH"` has strong hydrogen bonds.

Confirmation: The viscosity of `"C"_2"H"_5"Cl"` is 0.279 mPa·s, while the viscosity of `"CH"_3"-OH"` is 0.593 mPa·s.