Concept explainers
(a)
To determine: The important resonance forms for the given compound; the major and minor contributors in the resonating structures and if they have the same energy.
Interpretation: The important resonance forms for the given compound is to be stated; the major and minor contributors in the resonating structures are to be indicated or whether they have same energy is 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 occurs with the bonds and other lone pairs.
The major contributors are those resonating structures in which almost all the atoms have a complete octet.
The minor contributors are those resonating structures in which atoms do not have a complete octet and electronegative atom carries positive charge and vice-versa.
(b)
To determine: The important resonance forms for the given compound; the major and minor contributors in the resonating structures and if they have the same energy.
Interpretation: The important resonance forms for the given compound is to be stated; the major and minor contributors in the resonating structures are to be indicated or whether they have same energy is 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 occurs with the bonds and other lone pairs.
The major contributors are those resonating structures in which almost all the atoms have a complete octet.
The minor contributors are those resonating structures in which atoms do not have a complete octet and electronegative atom carries positive charge and vice-versa.
(c)
To determine: The important resonance forms for the given compound; the major and minor contributors in the resonating structures and if they have the same energy.
Interpretation: The important resonance forms for the given compound is to be stated; the major and minor contributors in the resonating structures are to be indicated or whether they have same energy is 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 occurs with the bonds and other lone pairs.
The major contributors are those resonating structures in which almost all the atoms have a complete octet.
The minor contributors are those resonating structures in which atoms do not have a complete octet and electronegative atom carries positive charge and vice-versa.
(d)
To determine: The important resonance forms for the given compound; the major and minor contributors in the resonating structures and if they have the same energy.
Interpretation: The important resonance forms for the given compound is to be stated; the major and minor contributors in the resonating structures are to be indicated or whether they have same energy is 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 occurs with the bonds and other lone pairs.
The major contributors are those resonating structures in which almost all the atoms have a complete octet.
The minor contributors are those resonating structures in which atoms do not have a complete octet and electronegative atom carries positive charge and vice-versa.
(e)
To determine: The important resonance forms for the given compound; the major and minor contributors in the resonating structures and if they have the same energy.
Interpretation: The important resonance forms for the given compound is to be stated; the major and minor contributors in the resonating structures are to be indicated or whether they have same energy is 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 occurs with the bonds and other lone pairs.
The major contributors are those resonating structures in which almost all the atoms have a complete octet.
The minor contributors are those resonating structures in which atoms do not have a complete octet and electronegative atom carries positive charge and vice-versa.
(f)
To determine: The important resonance forms for the given compound; the major and minor contributors in the resonating structures and if they have the same energy.
Interpretation: The important resonance forms for the given compound is to be stated; the major and minor contributors in the resonating structures are to be indicated or whether they have same energy is 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 occurs with the bonds and other lone pairs.
The major contributors are those resonating structures in which almost all the atoms have a complete octet.
The minor contributors are those resonating structures in which atoms do not have a complete octet and electronegative atom carries positive charge and vice-versa.
(g)
To determine: The important resonance forms for the given compound; the major and minor contributors in the resonating structures and if they have the same energy.
Interpretation: The important resonance forms for the given compound is to be stated; the major and minor contributors in the resonating structures are to be indicated or whether they have same energy is 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 occurs with the bonds and other lone pairs.
The major contributors are those resonating structures in which almost all the atoms have a complete octet.
The minor contributors are those resonating structures in which atoms do not have a complete octet and electronegative atom carries positive charge and vice-versa.
(h)
To determine: The important resonance forms for the given compound; the major and minor contributors in the resonating structures and if they have the same energy.
Interpretation: The important resonance forms for the given compound is to be stated; the major and minor contributors in the resonating structures are to be indicated or whether they have same energy is 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 occurs with the bonds and other lone pairs.
The major contributors are those resonating structures in which almost all the atoms have a complete octet.
The minor contributors are those resonating structures in which atoms do not have a complete octet and electronegative atom carries positive charge and vice-versa.
(i)
To determine: The important resonance forms for the given compound; the major and minor contributors in the resonating structures and if they have the same energy.
Interpretation: The important resonance forms for the given compound is to be stated; the major and minor contributors in the resonating structures are to be indicated or whether they have same energy is 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 occurs with the bonds and other lone pairs.
The major contributors are those resonating structures in which almost all the atoms have a complete octet.
The minor contributors are those resonating structures in which atoms do not have a complete octet and electronegative atom carries positive charge and vice-versa.
(j)
To determine: The important resonance forms for the given compound; the major and minor contributors in the resonating structures and if they have the same energy.
Interpretation: The important resonance forms for the given compound is to be stated; the major and minor contributors in the resonating structures are to be indicated or whether they have same energy is 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 occurs with the bonds and other lone pairs.
The major contributors are those resonating structures in which almost all the atoms a complete octet.
The minor contributors are those resonating structures in which atoms do not have a complete octet and electronegative atom carries positive charge and vice-versa.
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Chapter 1 Solutions
Organic Chemistry (9th Edition)
- Unshared, or lone, electron pairs play an important role in determining the chemical and physical properties of organic compounds. Thus, it is important to know which atoms carry unshared pairs. Use the structural formulas below to determine the number of unshared pairs at each designated atom. Be sure your answers are consistent with the formal charges on the formulas. HC=CH aN b H The number of unshared pairs at atom a is The number of unshared pairs at atom b is The number of unshared pairs at atom c is The number of unshared pairs at atom a is The number of unshared pairs at atom b is The number of unshared pairs at atom c isarrow_forwardHow many total resonance structures can be drawn for the following anion (include those without separation of charge)?arrow_forwardWhich statement best describes the structure of carbon dioxide? O It has two resonance structures; the more important one has two carbon oxygen double bonds It has two resonance structures; the more important one has a carbon oxygen triple bond O It has three resonance structures; the more important one has a carbon oxygen triple bond O It has three resonance structures; the more important one has two carbon oxygen double bondsarrow_forward
- You will not find “hydroxide” in the stockroom, but you will find sodium hydroxide (NaOH) andpotassium hydroxide (KOH). Lithium hydroxide (LiOH) is expensive and used in spacecraft airfilters since hydroxide reacts with carbon dioxide, and lithium is lighter than sodium or potassium.Cesium and francium hydroxides are very expensive and little used. Is this information consistentwith your answer to the previous question?arrow_forwardThe carbon atom owns one electron from each of shared pairs and two electrons from unshared pair. The number of electrons that belong to carbon is . Carbon is a Group element. Since the carbon atom has one more electron than it would in the neutral, unbonded state, it has a formal charge of –1 . The Lewis structure for the methyl anion is The lithium fragment must have a formal charge ofarrow_forwardThe n-propyl cation can be formed from a molecule such as When the C–Cl bond is broken so that both electrons leave with Cl, the fragments formed are The carbon atom that had been attached to Cl is now sharing ____ electron pairs. In each shared pair the carbon atom owns ____ electron. The number of electrons that belong to carbon is ____. The formal charge on the carbon atom is ____. The correct Lewis structure for the n-propyl cation isarrow_forward
- Write Lewis structures for these compounds. Show all valence electrons. None of them contains a ring of atoms. (a) Hydrogen peroxide, H2O2 (b) Hydrazine, N2H4 (c) Methanol, CH3OHarrow_forwardMany free radicals combine to form molecules that do not contain any unpaired electrons. The driving force for the radical-radical combination reaction is the formation of a new electron-pair bond. Consider the formation of hydrogen peroxide. 2 OH(g) - H,O,(g) Write Lewis formulas for the reactant and product species in the chemical equation. Include nonbonding electrons. OH(g) H,O,(g) H H. : 0 H Question Source: MRG - General Chem about us privacy policy terms of use help contact us careers : :arrow_forwardWhich of the following resonance structure for OCN- will contribute most to the correct structure of OCN-? O = C-N, with one lone pair on O and three lone pairs on N O=C=N, with two lone pairs on O, and two lone pairs on N O=C=N, with one lone pair on O, two lone pairs on C, and one lone pair on N O-C = N, with three lone pairs on O and one lone pair on N They All contribute equally to the structure on OCN-arrow_forward
- Based on the atom connectivity shown bellow,evaluate the four resonance structure for the thiosulfate ion S2O3 ^2-. Use curved arrows to indicate how you get from one resonance structure to another. Assign formal changes to all atoms and determine which of these resonance structure is the most stable based on a formal charge analysis Explain your answer thoroughly. Look at the picture.arrow_forwardUnshared, or lone, electron pairs play an important role in determining the chemical and physical properties of organic compounds. Thus, it is important to know which atoms carry unshared pairs. Use the structural formulas below to determine the number of unshared pairs at each designated atom. Be sure your answers are consistent with the formal charges on the formulas. H3C H₂C a O ao H₂ b b Hc N CH₂ Submit Answer OC₂H5 The number of unshared pairs at atom a is The number of unshared pairs at atom bis The number of unshared pairs at atom cis The number of unshared pairs at atom a is The number of unshared pairs at atom b is The number of unshared pairs at atom cis Retry Entire Group 9 more group attempts remaining V 0 1 2 3 4 Previous Email Instructor Next Save and Exitarrow_forwardHow do you know when to draw a solid wedge vs a dashed wedge when drawing 3D bond-line structures? I know that solid-wedge means the atom is pointing towards you and dashed wedge means it's in the back, but how do you know which atoms are in the front as opposed to the back? How can you tell what the configuration will look like in space just by looking at the lewis structure or name?arrow_forward
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