Ch.8 - Basic Concepts of Chemical Bonding

Brown - Chemistry: The Central Science 14th Edition

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Brown 14th Edition

Ch.8 - Basic Concepts of Chemical Bonding

Problem 58b

Chapter 8, Problem 58b

Mothballs are composed of naphthalene, C₁₀H₈, a molecule that consists of two six-membered rings of carbon fused along an edge, as shown in this incomplete Lewis structure:
(b) Do you expect the C—C bond lengths in the molecule to be similar to those of C—C single bonds, C ═C double bonds, or intermediate between C—C single and C ═C double bonds?

Verified step by step guidance

Start by considering the structure of naphthalene, C_{10}H_{8}, which consists of two fused benzene rings.

Recall that benzene rings exhibit resonance, meaning the electrons are delocalized over the entire ring structure.

Understand that in benzene, the C—C bonds are not purely single or double bonds, but rather an intermediate bond length due to resonance.

Apply this concept to naphthalene, which also has delocalized electrons across its rings, leading to C—C bond lengths that are intermediate between single and double bonds.

Conclude that the C—C bond lengths in naphthalene are expected to be similar to those in benzene, which are intermediate between C—C single and C═C double bonds.

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Key Concepts

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

Bond Lengths and Types

In chemistry, bond lengths vary depending on the type of bond between atoms. C—C single bonds are longer than C═C double bonds due to the increased electron density and stronger attraction in double bonds, which pulls the atoms closer together. Understanding these differences is crucial for predicting molecular structure and behavior.

Resonance Structures

Molecules like naphthalene can exhibit resonance, where multiple valid Lewis structures can represent the same molecule. This delocalization of electrons can lead to bond lengths that are intermediate between single and double bonds, as the electrons are not localized to a single bond but are spread over multiple bonds.

Molecular Geometry and Hybridization

The geometry of a molecule and the hybridization of its atomic orbitals influence bond lengths and angles. In naphthalene, the carbon atoms are sp² hybridized, which affects the bond character and lengths. Understanding hybridization helps in predicting the molecular shape and the nature of the bonds present.

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Hybridization and Electron Geometry

Related Practice

Textbook Question

Mothballs are composed of naphthalene, C₁₀H₈, a molecule that consists of two six-membered rings of carbon fused along an edge, as shown in this incomplete Lewis structure:(a) Draw all of the resonance structures of naphthalene. How many are there?

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Textbook Question

Mothballs are composed of naphthalene, C₁₀H₈, a molecule that consists of two six-membered rings of carbon fused along an edge, as shown in this incomplete Lewis structure:

(c) Not all of the C—C bond lengths in naphthalene are equivalent. Based on your resonance structures, how many C—C bonds in the molecule do you expect to be shorter than the others?

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Textbook Question

(a) Which of these compounds is an exception to the octet rule: carbon dioxide, water, ammonia, phosphorus trifluoride, or arsenic pentafluoride?

Textbook Question

Based on Lewis structures, predict the ordering, from shortest to longest, of N¬O bond lengths in NO+, NO2-, and NO3-.

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