Unit 2-Molecular Orbitals

Question 1

How are molecular orbitals formed?

Answer 1

When atoms approach each other, their separate sets of atomic orbitals merge to form a single set of molecular orbitals.

Question 2

What is hybridisation?

Answer 2

Hybridisation is the mixing of atomic orbitals within an atom to generate hybrid orbitals.

Question 3

Describe sp³ hybridisation?

Answer 3

An s-orbital combines with 3 p-orbitals to form four sp³ hybrid molecular bonding orbitals of equal energy (degenerate).

Question 4

Describe sp² hybridisation?

Answer 4

An s-orbital combines with 2 p-orbitals to form three sp^₂ hybrid molecular bonding orbitals.

This will leave the third 2p orbital un-hybridised.

Question 5

Describe sp hybridisation?

Answer 5

An s-orbital combines with 1 p-orbital to form two sp hybrid molecular bonding orbitals.

This will leave two 2p orbitals un-hybridised.

Question 6

Which type of bond is created from the end-on overlap of two atomic orbitals lying along the axis of a bond?

Answer 6

Sigma (σ​) bond

Question 7

Which type of bond is created from the side on overlap of two atomic orbitals lying perpendicular to the bond?

Answer 7

Pi (π​) bond

Question 8

Describe how to count the number of σ and π bonds in a structure.

Answer 8

1 single bonds is equal to 1 σ bonds.

1 double bond is equal to 1 σ and 1π bond

1 triple bond is equal to 1 σ and 2π bonds

Question 9

The number of sigma and pi bonds in a molecule of pyridine is

Answer 9

11 sigma and 3 pi

Question 10

The number of sigma and pi bonds in the structure shown is?

Answer 10

Number of σ-bonds = 16

Number of π-bonds = 2

Question 11

Explain why most organic molecules appear colourless?

Answer 11

The energy difference between the highest occupied molecular orbital (HOMO) and the lowest unoccupied molecular orbital (LUMO) is relatively large resulting in the absorption of light in the ultraviolet region of the spectrum.

Question 12

Coloured organic compounds contain delocalised electrons within molecular orbitals which extend across several atoms.

What name is given to this system?

Answer 12

Conjugated system

Question 13

How can a conjugated system be identified from a structural formula?

Answer 13

The structure contains alternating single and double bonds

Question 14

What is the connection between the size of conjugation and the energy gap between HOMO and LUMO?

Answer 14

The more atoms the delocalised molecular orbital spans, the smaller the energy gap between the delocalised orbital and the next unoccupied orbital.

REMEMBER that the lower the band gap, the higher the wavelength of light that is absorbed.

Question 15

What word is used to describe the part of the molecule responsible for absorbing colour (the conjugated part)?

Answer 15

Chromophore

Question 16

If the chromophore absorbs light of one colour (example-green), the compound will display what colour?

Answer 16

The complementary colour (purple)