Textbook Question
The structure for the DNA base cytosine is shown.
Which of the following is not a resonance structure of cytosine? (LO 7.13) (a)
(b)
(c)
(d)
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Ch.7 - Covalent Bonding and Electron-Dot Structures
Chapter 7, Problem 15
Use formal charge to select which resonance structure makes the largest contribution to the resonance hybrid. (LO 7.16) (a) Structure I (b) Structure II (c) Structure III (d) All structures are equivalent and make the same contri-bution to the resonance hybrid. (I)
(II)
(III)
Verified step by step guidance1
Identify the formal charge formula: \( \text{Formal Charge} = \text{Valence Electrons} - \text{Non-bonding Electrons} - \frac{1}{2} \times \text{Bonding Electrons} \).
Calculate the formal charge for each atom in Structure I using the formula.
Calculate the formal charge for each atom in Structure II using the formula.
Calculate the formal charge for each atom in Structure III using the formula.
Compare the formal charges of all structures: the structure with formal charges closest to zero and/or with negative charges on the more electronegative atoms will contribute most to the resonance hybrid.
Verified Solution
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Key Concepts
Here are the essential concepts you must grasp in order to answer the question correctly.
Formal Charge
Formal charge is a theoretical charge assigned to an atom in a molecule, calculated by taking the number of valence electrons in the free atom, subtracting the number of non-bonding electrons, and half the number of bonding electrons. It helps in determining the most stable resonance structure, as structures with formal charges closer to zero are generally more favorable.
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Formal Charge
Resonance Structures
Resonance structures are different Lewis structures for the same molecule that depict the same arrangement of atoms but differ in the distribution of electrons. These structures are used to represent delocalized electrons in molecules, and the actual structure is a resonance hybrid, which is a weighted average of all valid resonance forms.
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01:42Resonance Structures
Resonance Hybrid
The resonance hybrid is the actual structure of a molecule that is a composite of all its resonance structures. It reflects the delocalization of electrons across the molecule, leading to increased stability. The contribution of each resonance structure to the hybrid depends on factors like formal charge, electronegativity, and overall stability.
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Related Practice
Textbook Question
What is the best prediction for the carbon–oxygen bond length in the carbonate anion, CO3 2-? (LO 7.14)
Data for average carbon-oxygen bond lengths:
(a) 143 pm
(b) 132 pm
(c) 121 pm
(d) 118 pm
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Textbook Question
Which is the best electron-dot structure for the thiosulfate ion (S2O3 2-) based on the rules of formal charge? (LO 7.16)
(a)
(b)
(c)
(d)
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Textbook Question
Which of the following alkali metal halides has the largest lat-tice energy? Explain.
(a)
(b)
(c)
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Textbook Question
The following diagram shows the potential energy of two atoms as a function of internuclear distance. Match the descriptions with the indicated letter on the plot.
(a) Repulsive forces are high between the two atoms.
(b) The two atoms neither exert attractive nor repulsive forces on one another.
(c) The attractive forces between atoms are maximized, resulting in the lowest energy state.
(d) Attractive forces between atoms are present but are not at maximum strength.
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Textbook Question
The following diagram shows the potential energy of two atoms as a function of internuclear distance. Which bond is the strongest? Which bond is the longest?
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