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 31a

Chapter 8, Problem 31a

(a) State whether or not the bonding in each substance is likely to be covalent: (i) glucose, (ii) nitrogen, (iii) aluminum hydroxide, (iv) ammonia, (v) neon.

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To determine if the bonding in a substance is likely to be covalent, consider the types of elements involved. Covalent bonds typically form between nonmetals.

Examine glucose (C₆H₁₂O₆): Glucose is composed of carbon, hydrogen, and oxygen, all of which are nonmetals. Therefore, the bonding in glucose is likely covalent.

Consider nitrogen (N₂): Nitrogen is a diatomic molecule consisting of two nitrogen atoms, both nonmetals. The bonding in nitrogen is covalent.

Analyze aluminum hydroxide (Al(OH)₃): Aluminum is a metal, while hydroxide is composed of oxygen and hydrogen, which are nonmetals. The bonding in aluminum hydroxide is likely ionic due to the presence of a metal.

Evaluate ammonia (NH₃): Ammonia consists of nitrogen and hydrogen, both nonmetals. Thus, the bonding in ammonia is covalent.

Assess neon (Ne): Neon is a noble gas and typically does not form bonds because it is chemically inert. Therefore, there is no covalent bonding in neon.

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Key Concepts

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

Covalent Bonding

Covalent bonding occurs when two atoms share one or more pairs of electrons, typically between nonmetals. This type of bond results in the formation of molecules, where the shared electrons allow each atom to achieve a more stable electron configuration, often resembling that of noble gases. Understanding the nature of covalent bonds is essential for determining the bonding characteristics of various substances.

Molecular Structure

The molecular structure of a substance refers to the arrangement of atoms within a molecule and the types of bonds that hold them together. This structure influences the physical and chemical properties of the substance, including its reactivity and state of matter. Analyzing the molecular structure helps in identifying whether a substance is likely to exhibit covalent bonding.

Electronegativity

Electronegativity is a measure of an atom's ability to attract and hold onto electrons in a bond. In covalent bonds, the difference in electronegativity between the bonded atoms can indicate the bond's character; small differences suggest nonpolar covalent bonds, while larger differences can lead to polar covalent bonds. Understanding electronegativity is crucial for predicting the type of bonding in various substances.

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Related Practice

Textbook Question

Using Lewis symbols and Lewis structures, make a sketch of the formation of NCl₃ from N and Cl atoms, showing valence-shell electrons. (a) How many valence electrons does N have initially? (c) How many valence electrons surround the N in the NCl₃ molecule? (d) How many valence electrons surround each Cl in the NCl₃ molecule?

Textbook Question

List the individual steps used in constructing a Born–Haber cycle for the formation of BaI₂ from the elements. Which of the steps would you expect to be exothermic?

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Textbook Question

(a) Based on the lattice energies of MgCl2 and SrCl2 given in Table 8.1, what is the range of values that you would expect for the lattice energy of CaCl2?

Textbook Question

(b) Using data from Appendix C, Figure 7.11, Figure 7.13, and the value of the second ionization energy for Ca, 1145 kJ/mol, calculate the lattice energy of CaCl2.

Textbook Question

(b) A substance, XY, formed from two different elements, melts at −33 °C. Is XY likely to be a covalent or an ionic substance?

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