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Chapter 3: Problem 9

What is meant by a chemical bond? Why do atoms form bonds with each other? Why do some elements exist as molecules in nature instead of as free atoms?

Short Answer

Expert verified
A chemical bond is the attractive interaction between atoms or ions, forming a stable compound or molecule through electron exchange or sharing. Atoms form bonds to achieve stable electron configurations, reduce potential energy, and increase stability. Some elements exist as molecules in nature instead of free atoms due to increased stability, lower potential energy, the satisfaction of the octet rule, and the reactive nature of free atoms.

Step by step solution

01

Definition of a Chemical Bond

A chemical bond is the attractive interaction between atoms or ions that leads to the formation of a stable compound or a molecule. It involves the exchange or sharing of electrons between atoms, resulting in a stable state with lower potential energy.
02

Reasons for Atoms Forming Bonds

Atoms form bonds with each other because of the following reasons: 1. To achieve a stable electron configuration: Atoms bond together to reach a state of lower energy, and the most stable electron configuration is one with a completely filled outer shell of electrons (usually 8 valence electrons, known as the octet rule). This stable state makes the atom less reactive. 2. To reduce potential energy: By forming bonds, atoms lower their potential energy as they reach a more stable state. The lower energy state allows the bonded atoms to be less reactive and less likely to break apart. 3. To increase stability: Bonded atoms are more stable than individual atoms as they have increased forces of attraction between them. This increased stability helps in the formation of molecules with unique properties and characteristics.
03

Why Some Elements Exist as Molecules in Nature

Some elements exist as molecules in nature instead of free atoms because of the following reasons: 1. Increased stability: As discussed earlier, bonded atoms are more stable than individual atoms. Elements naturally form molecules to achieve a more stable configuration. 2. Lower potential energy: Molecules formed by bonding have a lower potential energy than individual atoms. The natural tendency of elements is to reach a lower energy state, which leads to the formation of molecules. 3. To satisfy the octet rule: Elements combine with other elements as molecules to achieve a stable electron configuration with a complete valence shell of electrons. 4. Reactive nature of free atoms: Some elements are highly reactive as free atoms, which means they are more likely to react with other elements or themselves to form molecules. This reactivity causes them to exist as molecules in nature. In summary, a chemical bond is an attractive interaction between atoms that leads to the formation of a stable compound or molecule. Atoms form bonds to achieve a stable electron configuration, reduce potential energy, and increase stability. Some elements exist as molecules in nature instead of free atoms due to increased stability, lower potential energy, to satisfy the octet rule, and the reactive nature of free atoms.

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Most popular questions from this chapter

Each of the following compounds has three possible names listed for it. For each compound, what is the correct name and why aren't the other names used? a. \(\mathrm{N}_{2} \mathrm{O}\) : nitrogen oxide, nitrogen(I) oxide, dinitrogen monoxide b. \(\mathrm{Cu}_{2} \mathrm{O}:\) copper oxide, copper(I) oxide, dicopper monoxide c. \(\mathrm{Li}_{2} \mathrm{O}:\) lithium oxide, lithium(I) oxide, dilithium monoxide

The formulas and common names for several substances are given below. Give the systematic names for these substances. a. sugar of lead b. blue vitrol c. quicklime d. Epsom salts e. milk of magnesia f. gypsum g. laughing gas \(\mathrm{Pb}\left(\mathrm{C}_{2} \mathrm{H}_{3} \mathrm{O}_{2}\right)_{2}\) \(\mathrm{CuSO}_{4}\) CaO \(\mathrm{MgSO}_{4}\) \(\mathrm{Mg}(\mathrm{OH})_{2}\) \(\mathrm{CaSO}_{4}\) \(\mathrm{N}_{2} \mathrm{O}\)

List the bonds \(\mathbf{P}-\mathbf{C l}, \mathbf{P}-\mathbf{F}, \mathbf{O}-\mathbf{F},\) and \(\mathbf{S i}-\mathbf{F}\) from least polar to most polar.

Give the formula of a negative ion that would have the same number of electrons as each of the following positive ions. a. \(\mathrm{Na}^{+}\) b. \(\mathrm{Ca}^{2+}\) \(\mathbf{c} . \mathrm{Al}^{3+}\) d. \(\mathbf{R} \mathbf{b}^{+}\)

\(\mathrm{SF}_{6}, \mathrm{ClF}_{5,}\) and \(\mathrm{XeF}_{4}\) are three compounds whose central atoms do not follow the octet rule. Draw Lewis structures for these compounds.
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