Cl2 has a longer, weaker bond than Cl2+ (Cl2: 1.988 Å, Cl2+ : 1.8917 Å). Furthermore,...
Cl2 has a longer, weaker bond than Cl2+ (Cl2: 1.988 Å, Cl2+ : 1.8917 Å).
Furthermore, Cl2+ has higher bond dissociation energy (Cl2: 57.18 kcal/mole, Cl2+ : 99.2 kcal/mole).
Use molecular-orbital theory to predict the bond order for each of these molecules and explain why Cl2+ has higher bond dissociation energy.
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Cl2 has a longer, weaker bond than
Cl2+ (Cl2: 1.988 Å,
Cl2+ : 1.8917 Å).
Furthermore,...
Use Molecular Orbital Theory, to predict whether Ne2+ would have a smaller or larger bond dissociation...
Use Molecular Orbital Theory, to predict whether Ne2+ would have a smaller or larger bond dissociation energy than Ne22+. Show all calculations.
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[25] Question 3 3 (a) The bond dissociation enthalpies for C, and F2 are 614 kJ/mol and 154 kJ/mol respectively Using an argument based on Molecular Orbital Theory, explain why C2 has a much larger bond dissociation energy than F2 Illustrate your answer with suitable MO diagrams (10)
Consider each of the following molecules and/or ions. Give the hybridization for the central atom in...
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plz help Exercise 4 1. Use the molecular orbital model to predict the bond order and...
plz help
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