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Chemical Bonding and Molecular Structure

Long Answer Type

231.
Discuss the formation of N₂ molecule on the basis of MO theory. Predict its:
(i) Bond order
(ii) Magnetic character.

The electronic structure of nitrogen atom is Leaving out 4 electrons in the 1s orbital of two nitrogen atoms constituting the molecule (represented as KK), the molecular orbital energy diagram for remaining 10 electrons in nitrogen (N₂) is as shown as below:

(i) Electronic configuration:
N₂ : [KK (σ2s)² (σ2s)² (2p_x)¹(σ2p_z)²]
(i) Bond order : Here N_h = 8 and N_a = 2

The two nitrogen atoms in nitrogen molecule are linked by three covalent bonds (i.e. a triple bond).
(ii) Magnetic character: Since all the electrons are paired, nitrogen is diamagnetic.

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232.

Write the stability configuration of $straight N subscript 2 superscript plus comma space space straight N subscript 2 superscript minus space space or space space straight N subscript 2 superscript 2 minus end superscript space ions$ and predict their bond order, stability and magnetic character.

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233.

Draw the molecular orbital energy diagram for oxygen molecule (O₂) and show that:
(i) It has a double bond
(ii) It has paramagnetic character.

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234.

Using a molecular orbital diagram, predict the bond order, stability and magnetic character of O₂^–,O₂⁺, and $straight O subscript 2 superscript 2 minus end superscript left parenthesis peroxide space ion right parenthesis$ . Also, write their electronic configurations.

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235.

Discuss the relatives stabilities, bond dissociation energies and bond lengths of O₂,
$space space straight O subscript 2 superscript plus comma space straight O subscript 2 superscript minus space an space straight O subscript 2 superscript 2 minus end superscript$ species.

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236.

Is the bond order in superoxide ion more or less than in peroxide ion? Explain on the basis of MO theory.

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Short Answer Type

237.

Calculate the bond order of $He subscript 2 superscript plus comma space straight O subscript 2 superscript minus comma space straight O subscript 2 superscript plus$ molecular ions.

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238.

Using bond order show that N₂ would be expected to have a triple bond, F₂ a single bond and Ne₂ no bond.

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239.

Show that N₂ molecule has a greater bond dissociation energy than N^-₂ where O₂ has lower bond dissociation energy than O⁺₂.

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240.

Which of the following has higher bond dissociation energy and why?
(i) N⁺ (ii) O⁺

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