Concept explainers
Three resonance structures are possible for dinitrogen monoxide, N2O.
- (a) Draw the three resonance structures.
- (b) Calculate the formal charge on each atom in each resonance structure.
- (c) Based on formal charges and electronegativity, predict which resonance structure is the most reasonable.
(a)
Interpretation:
The three resonance structure of
Concept Introduction:
Resonance structures: A molecule or ion which show more than structure but none of them are accurately correct show the known property of that molecule, and can lie between the canonical structure is known as resonance or canonical or contributing structure.
Explanation of Solution
The three resonance structure is drawn
(b)
Interpretation:
Formal charge on each atom in each resonance structure has to be calculated.
Concept Introduction:
Formal charge: It is the electrostatic charge that would reside on an atom in a molecule or polyatomic ion if all bonding electron are shared equally between pairs of atoms.
Formal charge calculation: The formal charge for atom in a molecule or ion is calculated based on the Lewis structure of the molecule or ion by following the given equation below:
- Number of valence electrons
- Number of non-bonding electrons
- Number of bonding electrons
Explanation of Solution
The formal charges can be calculated as follows.
For resonance structure A is given below,
Formal charge on nitrogen
Formal charge on nitrogen
Formal charge on oxygen can be calculated as follows.
For resonance structure B is given below,
Formal charge on nitrogen
Formal charge on nitrogen
Formal charge on oxygen can be calculated as follows.
For resonance structure C, is given below,
Formal charge on nitrogen
Formal charge on nitrogen
Formal charge on oxygen can be calculated as follows.
(c)
Interpretation:
From the resonance structure drawn, the most reasonable structure has to be identified.
Concept Introduction:
Formal charge: It is the electrostatic charge that would reside on an atom in a molecule or polyatomic ion if all bonding electron are shared equally between pairs of atoms.
Formal charge calculation: The formal charge for atom in a molecule or ion is calculated based on the Lewis structure of the molecule or ion by following the given equation below:
- Number of valence electrons
- Number of non-bonding electrons
- Number of bonding electrons
Resonance structures:
A molecule or ion which show more than structure but none of them are accurately correct show the known property of that molecule, and can lie between the canonical structure is known as resonance or canonical or contributing structure.
Explanation of Solution
The three resonance structure is drawn
- (a) The formal charges can be calculated as follows.
For resonance structure A
Formal charge on nitrogen
Formal charge on nitrogen
Formal charge on oxygen can be calculated as follows.
For resonance structure B
Formal charge on nitrogen
Formal charge on nitrogen
Formal charge on oxygen can be calculated as follows.
For resonance structure C
Formal charge on nitrogen
Formal charge on nitrogen
Formal charge on oxygen can be calculated as follows.
Thus from the formal charge given above, the Structure B is most reasonable
Want to see more full solutions like this?
Chapter 8 Solutions
CHEMISTRY+CHEM...HYBRID ED.(LL)>CUSTOM<
- Show work. Don't give Ai generated solutionarrow_forwardExplain how the equation 4Fe(OH)2(s)+O2(g)→2Fe2O3(s)+4H2O(l) in the article illustrates the oxidation of the iron in the rectants.arrow_forwardIf you wanted to make something out of metal but didn't want it to rust, what are your options?arrow_forward
- Explain how the equation 4Fe(OH)2(s) + O2(g)→2Fe2O3(s) + 4H2O(l) in the article illustrates the oxidation of the iron ions in the reactantsarrow_forwardA Predict the major products of the following reaction. Be sure to use wedge and dash bonds to show the stereochemistry of the products when it's important, for example to distinguish between two different major products. + Cl₂ 2 X Click and drag to start drawing a structure.arrow_forwardC app.aktiv.com Predict reagents needed to complete this E2 elimination reaction. Br Problem 17 of 40 H3O+ A heat NaH B heat 0 D E (CH)COK heat CH₂ONa (CH)COH heat Donearrow_forward
- Please correct answer and don't use hand ratingarrow_forwardDraw the structure of the product of this reaction. H CH2CH3 Br H-... H H3C KOH E2 elimination product • Use the wedge/hash bond tools to indicate stereochemistry where it exists. • If there are alternative structures, draw the most stable one. • If no reaction occurs, draw the organic starting material. O + 98 // n ?arrow_forward4. a) Give a suitable rationale for the following cyclization, stating the type of process involved (e.g. 9-endo-dig), clearly showing the mechanistic details at each step. H CO₂Me 1) NaOMe 2) H3O® CO₂Mearrow_forward
- 2. Platinum and other group 10 metals often act as solid phase hydrogenation catalysts for unsaturated hydrocarbons such as propylene, CH3CHCH2. In order for the reaction to be catalyzed the propylene molecules must first adsorb onto the surface. In order to completely cover the surface of a piece of platinum that has an area of 1.50 cm² with propylene, a total of 3.45 x 10¹7 molecules are needed. Determine the mass of the propylene molecules that have been absorbed onto the platinum surface.arrow_forwardChem 141, Dr. Haefner 2. (a) Many main group oxides form acidic solutions when added to water. For example solid tetraphosphorous decaoxide reacts with water to produce phosphoric acid. Write a balanced chemical equation for this reaction. (b) Calcium phosphate reacts with silicon dioxide and carbon graphite at elevated temperatures to produce white phosphorous (P4) as a gas along with calcium silicate (Silcate ion is SiO3²-) and carbon monoxide. Write a balanced chemical equation for this reaction.arrow_forwardProblem Set 4a Chem 1411. A latex balloon is filled with a total of carbon dioxide gas so that its volume reaches 1.352 L. The balloon whose weight was originally 0.753 g, now weighs 2.538 g. How many molecules of carbon dioxide have been added to the balloon?arrow_forward
- Chemistry: Principles and PracticeChemistryISBN:9780534420123Author:Daniel L. Reger, Scott R. Goode, David W. Ball, Edward MercerPublisher:Cengage Learning