Textbook Question
Use molecular orbital theory to predict if each molecule or ion exists in a relatively stable form. a. H22- b. Ne2 c. He22+ d. F22-
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Ch.10 - Chemical Bonding II: Molecular Shapes & Valence Bond Theory
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Tro 4th EditionCh.10 - Chemical Bonding II: Molecular Shapes & Valence Bond TheoryProblem 7
Tro 4th EditionCh.10 - Chemical Bonding II: Molecular Shapes & Valence Bond TheoryProblem 7Chapter 10, Problem 7
Sketch the antibonding molecular orbital that results from the linear combination of two 1s orbitals. Indicate the region where interference occurs and state the type of interference (constructive or destructive).
Verified step by step guidance1
Start by considering two hydrogen atoms, each with a 1s atomic orbital, coming together to form a molecule.
When these 1s orbitals overlap, they can combine in two ways: constructively or destructively.
For the antibonding molecular orbital, focus on the destructive interference, where the wave functions of the two 1s orbitals have opposite signs.
Sketch the antibonding molecular orbital as having a node between the nuclei, where the electron density is zero due to destructive interference.
Label the region between the nuclei as the area of destructive interference, indicating that this is where the electron density is reduced, leading to the antibonding character.
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Using the molecular orbital energy ordering for second-row homonuclear diatomic molecules in which the π2p orbitals lie at lower energy than the σ2p, draw MO energy diagrams and predict the bond order in a molecule or ion with each number of total valence electrons. Will the molecule or ion be diamagnetic or paramagnetic? a. 4 b. 6
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A molecule with the formula AB3 has a trigonal pyramidal geometry. How many electron groups are on the central atom (A)?
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A molecule with the formula AB3 has a trigonal planar geometry. How many electron groups are on the central atom?
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Textbook Question
For each molecular geometry, list the number of total electron groups, the number of bonding groups, and the number of lone pairs on the central atom. (c)
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