Concept explainers
(a)
Interpretation:
Whether the following pairs of structures are actually different compounds or simply resonance forms of the same compounds are to be stated.
Concept introduction:
Resonance is the process in which a molecule gets different structures to define its bonding within the molecule. Such molecules cannot be represented in single Lewis structures. Resonating structures of such molecules are called contributing structures. In the process of resonance, shifting of lone pairs occur with the bonds and other lone pairs.
Resonating structures are always of the same compound.
(b)
Interpretation:
Whether the following pairs of structures are actually different compounds or simply resonance forms of the same compounds are to be stated.
Concept introduction:
Resonance is the process in which a molecule gets different structures to define its bonding within the molecule. Such molecules cannot be represented in single Lewis structures. Resonating structures of such molecules are called contributing structures. In the process of resonance, shifting of lone pairs occur with the bonds and other lone pairs.
Resonating structures are always of the same compound.
(c)
Interpretation:
Whether the following pairs of structures are actually different compounds or simply resonance forms of the same compounds are to be stated.
Concept introduction:
Resonance is the process in which a molecule gets different structures to define its bonding within the molecule. Such molecules cannot be represented in single Lewis structures. Resonating structures of such molecules are called contributing structures. In the process of resonance, shifting of lone pairs occur with the bonds and other lone pairs.
Resonating structures are always of the same compound.
(d)
Interpretation:
Whether the following pairs of structures are actually different compounds or simply resonance forms of the same compounds are to be stated.
Concept introduction:
Resonance is the process in which a molecule gets different structures to define its bonding within the molecule. Such molecules cannot be represented in single Lewis structures. Resonating structures of such molecules are called contributing structures. In the process of resonance shifting of lone pairs occur with the bonds and other lone pairs.
Resonating structures are always of the same compound.
(e)
Interpretation:
Whether the following pairs of structures are actually different compounds or simply resonance forms of the same compounds are to be stated.
Concept introduction:
Resonance is the process in which a molecule gets different structures to define its bonding within the molecule. Such molecules cannot be represented in single Lewis structures. Resonating structures of such molecules are called contributing structures. In the process of resonance shifting of lone pairs occur with the bonds and other lone pairs.
Resonating structures are always of the same compound.
(f)
Interpretation:
Whether the following pairs of structures are actually different compounds or simply resonance forms of the same compounds are to be stated.
Concept introduction:
Resonance is the process in which a molecule gets different structures to define its bonding within the molecule. Such molecules cannot be represented in single Lewis structures. Resonating structures of such molecules are called contributing structures. In the process of resonance shifting of lone pairs occur with the bonds and other lone pairs.
Resonating structures are always of the same compound.
(g)
Interpretation:
Whether the following pairs of structures are actually different compounds or simply resonance forms of the same compounds are to be stated.
Concept introduction:
Resonance is the process in which a molecule gets different structures to define its bonding within the molecule. Such molecules cannot be represented in single Lewis structures. Resonating structures of such molecules are called contributing structures. In the process of resonance shifting of lone pairs occur with the bonds and other lone pairs.
Resonating structures are always of the same compound.
(h)
Interpretation:
Whether the following pairs of structures are actually different compounds or simply resonance forms of the same compounds are to be stated.
Concept introduction:
Resonance is the process in which a molecule gets different structures to define its bonding within the molecule. Such molecules cannot be represented in single Lewis structures. Resonating structures of such molecules are called contributing structures. In the process of resonance shifting of lone pairs occur with the bonds and other lone pairs.
Resonating structures are always of the same compound.
(i)
Interpretation:
Whether the following pairs of structures are actually different compounds or simply resonance forms of the same compounds are to be stated.
Concept introduction:
Resonance is the process in which a molecule gets different structures to define its bonding within the molecule. Such molecules cannot be represented in single Lewis structures. Resonating structures of such molecules are called contributing structures. In the process of resonance shifting of lone pairs occur with the bonds and other lone pairs.
Resonating structures are always of the same compound.
(j)
Interpretation:
Whether the following pairs of structures are actually different compounds or simply resonance forms of the same compounds are to be stated.
Concept introduction:
Resonance is the process in which a molecule gets different structures to define its bonding within the molecule. Such molecules cannot be represented in single Lewis structures. Resonating structures of such molecules are called contributing structures. In the process of resonance shifting of lone pairs occur with the bonds and other lone pairs.
Resonating structures are always of the same compound.
(k)
Interpretation:
Whether the following pairs of structures are actually different compounds or simply resonance forms of the same compounds are to be stated.
Concept introduction:
Resonance is the process in which a molecule gets different structures to define its bonding within the molecule. Such molecules cannot be represented in single Lewis structures. Resonating structures of such molecules are called contributing structures. In the process of resonance shifting of lone pairs occur with the bonds and other lone pairs.
Resonating structures are always of the same compound.
(l)
Interpretation:
Whether the following pairs of structures are actually different compounds or simply resonance forms of the same compounds are to be stated.
Concept introduction:
Resonance is the process in which a molecule gets different structures to define its bonding within the molecule. Such molecules cannot be represented in single Lewis structures. Resonating structures of such molecules are called contributing structures. In the process of resonance shifting of lone pairs occur with the bonds and other lone pairs.
Resonating structures are always of the same compound.
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Check out a sample textbook solutionChapter 1 Solutions
Organic Chemistry (9th Edition)
- Molecules containing a single atom of nitrogen, carbon, and oxygen can gain an electron to form an anion.All non-bonding electrons and nonzero formal charges should be included in the structure. What is the most stable resonance structure if nitrogen is the central atom in the CNO– ion? What is the most stable resonance structure if carbon is the central atom in the NCO– ion? What is the most stable resonance structure if oxygen is the central atom in the CON– ion?arrow_forwardWhich of the following is/are correct resonance structure(s) for compound A?arrow_forwardDraw the major resonance form of fulminic acid, HCNO, with the atoms connected as indicated in the formula. Your structure should have nonzero formal charges minimized, and it should include all nonzero formal charges and all nonbonding electrons.arrow_forward
- 4) Which of the following species is not a resonance form of the following species?arrow_forwardWhich are the proper resonance structures of the following ion?arrow_forwardA resonance hybrid is a structure that can be depicted by more than one valid Lewis structure. part1: Draw the major resonance form of fulminic acid, HCNO, with the atoms connected as indicated in the formula. Your structure should have nonzero formal charges minimized, and it should include all nonzero formal charges and all nonbonding electrons. part2: Draw the second most important resonance form of fulminic acid, HCNO, with the atoms connected as indicated in the formula. Your structure should have nonzero formal charges minimized, and it should include all nonzero formal charges and all nonbonding electrons. part3: Draw the least important resonance contributor for fulminic acid, HCNO, with the atoms connected as indicated in the formula. Your structure should have nonzero formal charges minimized and should include all nonzero formal charges and all nonbonding electrons.arrow_forward
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- Which of the following molecules are resonance forms of the initial molecule. он c D E F A Вarrow_forwardWhich of the following structure(s) have proper formal chargers and the correct number of bonds for each atom?arrow_forwardCalculate the formal charge on each of the atoms in the Lewis structure given. Be sure to answer all parts. H: N: O (of OH): O: Nitrous acidarrow_forward
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