Textbook Question
Using only the elements Ca, Cl, and Si, give formulas for the following. (a) An ionic compound
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Ch.7 - Covalent Bonding and Electron-Dot Structures
Chapter 7, Problem 64
Why does the octet rule apply primarily to main-group elements, not to transition metals?
Verified step by step guidance1
Understand the electron configuration: Main-group elements have valence electrons in their outermost s and p orbitals, which can hold up to eight electrons. This configuration leads to the octet rule, where atoms tend to gain, lose, or share electrons to achieve a stable set of eight valence electrons.
Recognize the difference in transition metals: Transition metals have their valence electrons in the d orbitals, which can hold up to ten electrons. This allows transition metals to have a variety of oxidation states and complex electron configurations beyond the simple octet.
Consider the stability of filled and half-filled subshells: Transition metals often achieve stability not just by reaching an octet but also by filling or half-filling their d subshells, which can confer extra stability due to exchange energy and symmetry.
Examine typical compounds and coordination complexes: Transition metals frequently form coordination complexes where they are surrounded by multiple ligands, leading to electron configurations that do not conform to the octet rule but are stable due to other factors such as crystal field stabilization.
Explore the role of the 18-electron rule: In some cases, transition metals follow the 18-electron rule, which is analogous to the octet rule but adapted for the additional capacity of the d orbitals. This rule helps predict the stability of complexes involving transition metals.
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Key Concepts
Here are the essential concepts you must grasp in order to answer the question correctly.
Octet Rule
The octet rule is a chemical principle stating that atoms tend to bond in such a way that they each have eight electrons in their valence shell, achieving a stable electron configuration similar to that of noble gases. This rule primarily applies to main-group elements, which typically have their valence electrons in the s and p orbitals, allowing them to easily gain, lose, or share electrons to fulfill this requirement.
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Octet Rule
Main-Group Elements vs. Transition Metals
Main-group elements are found in groups 1, 2, and 13-18 of the periodic table and generally follow the octet rule due to their straightforward electron configurations. In contrast, transition metals, located in groups 3-12, have d orbitals that can accommodate additional electrons, leading to more complex bonding behavior and variable oxidation states, which often do not conform to the octet rule.
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Electron Configuration and Stability
Electron configuration refers to the distribution of electrons in an atom's orbitals. For main-group elements, achieving a full valence shell (octet) is a primary means of attaining stability. Transition metals, however, can achieve stability through various electron arrangements, including partially filled d orbitals, which allows them to form diverse compounds and exhibit unique properties that do not rely solely on the octet rule.
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Related Practice
Textbook Question
Using only the elements Ca, Cl, and Si, give formulas for the following. (b) A molecular compound with polar covalent bonds that obeys the octet rule and has no formal charges
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Textbook Question
The dipole moment of BrCl is 0.518 D, and the distance between atoms is 213.9 pm. What is the percent ionic char-acter of the BrCl bond?
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Textbook Question
Which of the following substances contains an atom that does not follow the octet rule?
(a) AlCl3
(b) PCl3
(c) PCl5
(d) SiCl4
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Textbook Question
Identify the correct electron-dot structure for XeF 5+ (a) (b) (c)
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Textbook Question
Identify the third-row elements, X, that form the following ions.
(a)
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