Assuming that Hund's rule is violated and electrons are forced to pair up before occupying degenerat — Chemical Bonding Chemistry Question
Question
Assuming that Hund's rule is violated and electrons are forced to pair up before occupying degenerate orbitals singly, what would be the expected bond order and magnetic nature of the diatomic molecule $B_2$?
Answer: A
💡 Solution & Explanation
The $B_2$ molecule ($10 e^-$) normally has the valence configuration $\sigma 2s^2, \sigma^* 2s^2, \pi 2p_x^1 = \pi 2p_y^1$ (Bond Order 1, Paramagnetic). If Hund's rule is violated, both electrons will pair up in the lower of the two degenerate orbitals: $\pi 2p_x^2$. The molecule becomes diamagnetic, but the bond order remains $\frac{6 - 4}{2} = 1$.
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