2) Even with the simple rules we have learned so far, MO theory leads us to some interesting and non-intuitive electronic structures. Molecular orbital theory lets us rationalize these structures and even predict properties of molecules that have never been and may never be made! Name a second row homonuclear diatomic (e.g. Li2, N2, Ne2, etc.) that MO theory predicts will have each property below. Draw an MO diagram supporting your choice. What is a homonuclear diatomic that MO Theory predicts will have: a) a double bond formed from two degenerate molecular orbitals and zero o molecular orbitals. b) two unpaired electrons in antibonding orbitals. c) eight electrons in bonding orbitals but a bond order of zero.

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2) Even with the simple rules we have learned so far, M0 theory leads us to some interesting and non-intuitive electronic structures. Molecular orbital theory lets us rationalize these structures and even predict properties of molecules that have never been and may never be made! Name a second row homonuclear diatomic (e.g. Liz, N2, Ne2, etc.) that MO theory predicts will have each property below. Draw an MO diagram supporting your choice. What is a homonuclear diatomic that MO Theory predicts will have: a) a double bond formed from two degenerate molecular orbitals and zero o molecular orbitals. b) two unpaired electrons in antibonding orbitals. c) eight electrons in bonding orbitals but a bond order of zero.