Ch.9 - Molecular Geometry and Bonding Theories

Problem 68a

Chapter 9, Problem 68a

What hybridization do you expect for the atom indicated in red in each of the following species? (a) CH3CO2-

Verified step by step guidance

Identify the atom in red: In the given species CH3CO2-, the atom in red is likely one of the carbon atoms.

Determine the number of sigma bonds: Count the number of sigma (\(\sigma\)) bonds formed by the red atom. Each single bond is a sigma bond.

Count lone pairs: Determine if there are any lone pairs of electrons on the red atom.

Use the steric number to find hybridization: The steric number is the sum of sigma bonds and lone pairs. Use this number to determine hybridization: 2 = sp, 3 = sp2, 4 = sp3.

Apply to the red atom: Based on the steric number, assign the hybridization to the red atom in CH3CO2-.

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Key Concepts

Here are the essential concepts you must grasp in order to answer the question correctly.

Hybridization

Hybridization is the concept of mixing atomic orbitals to form new hybrid orbitals that can accommodate the bonding requirements of an atom. It helps explain the geometry of molecular structures by determining the arrangement of electron pairs around a central atom. Common types of hybridization include sp, sp2, and sp3, which correspond to different molecular geometries.

Molecular Geometry

Molecular geometry refers to the three-dimensional arrangement of atoms within a molecule. It is influenced by the number of bonding pairs and lone pairs of electrons around the central atom, which can be predicted using the VSEPR (Valence Shell Electron Pair Repulsion) theory. Understanding molecular geometry is crucial for predicting the shape and reactivity of molecules.

Resonance Structures

Resonance structures are different ways of drawing the same molecule that illustrate the delocalization of electrons. In species like CH3CO2-, resonance helps to depict the distribution of charge and the equivalent nature of bonds. Recognizing resonance is important for understanding the stability and reactivity of molecules, as it affects hybridization and molecular geometry.

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Related Practice

Textbook Question

In the formate ion, HCO₂^-, the carbon atom is the central atom with the other three atoms attached to it. (d) How many electrons are in the p system of the ion?

Textbook Question

Consider the following Lewis structure:

a. Does the Lewis structure depict a neutral molecule or an ion? If it is an ion, what is the charge on the ion?

Textbook Question

Predict the molecular geometry of each of the following molecules: (b) H O C O C O O H

Textbook Question

Which of the following statements about molecular orbitals and hybrid orbitals are true?

a. Molecular orbitals and hybrid orbitals are both created by mathematically mixing the wave functions of atomic orbitals.

b. Molecular orbitals are made by combining atomic orbitals from different atoms.

c. Hybrid orbitals and molecular orbitals are different names for the same things.

d. A hybrid orbital can hold more electrons than can a molecular orbital.

Textbook Question

Consider the H₂⁺ ion. (a) Sketch the molecular orbitals of the ion and draw its energy-level diagram.

Textbook Question

Consider the H₂⁺ ion. (b) How many electrons are there in the H₂⁺ ion?