The complete and detailed mechanism and products for an S N 1 reaction between the given reactants are to be drawn. It is to be determined if the reaction will produce a single stereoisomer or a mixture of stereoisomers. If it produces a mixture, then it is to be determined if those isomers will be produced in equal amounts. Concept introduction: An S N 1 reaction is a two-step reaction. A carbocation is formed in the first reaction as a result of the leaving group breaking off, taking its bond pair with the carbon atom. The incoming nucleophile attacks the carbocation in the second step, forming the product. The carbocation intermediate formed in S N 1 reaction is sp 2 hybridized, and its molecular geometry is trigonal planar. This geometry creates two different sites for the nucleophilic attack. The formation of stereoisomers depends on the stereochemical nature of the given reactant. If a chiral center is generated in a single elementary step from an atom that is not a chiral center, then both R and S configurations will be produced. If a new chiral center is produced in an elementary step, then the R and S configurations of the chiral centers are produced in equal amounts if the reactants and the environment are achiral or in unequal amounts if the reactants or the environment are chiral.

Question

Done 11:14 ⚫ worksheets.beyondlabz.com 5 (a). Using the peak information you listed in the tables for both structures, assign each peak to that portion of the structure that produces the peak in the NMR spectrum. Draw this diagram on your own sheet of paper and attach the sketch of your drawing to this question. Question 6 5 (b). Using the peak information you listed in the tables for both structures, assign each peak to that portion of the structure that produces the peak in the NMR spectrum. Draw this diagram on your own sheet of paper and attach the sketch of your drawing to this question. Question 7 6. Are there any differences between the spectra you obtained in Beyond Labz and the predicted spectra? If so, what were the differences? <

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Question

Chapter 8, Problem 8.11P

Interpretation Introduction

Interpretation:

The complete and detailed mechanism and products for an SN1 reaction between the given reactants are to be drawn. It is to be determined if the reaction will produce a single stereoisomer or a mixture of stereoisomers. If it produces a mixture, then it is to be determined if those isomers will be produced in equal amounts.

Concept introduction:

An SN1 reaction is a two-step reaction. A carbocation is formed in the first reaction as a result of the leaving group breaking off, taking its bond pair with the carbon atom. The incoming nucleophile attacks the carbocation in the second step, forming the product.

The carbocation intermediate formed in SN1 reaction is sp2 hybridized, and its molecular geometry is trigonal planar. This geometry creates two different sites for the nucleophilic attack. The formation of stereoisomers depends on the stereochemical nature of the given reactant. If a chiral center is generated in a single elementary step from an atom that is not a chiral center, then both R and S configurations will be produced. If a new chiral center is produced in an elementary step, then the R and S configurations of the chiral centers are produced in equal amounts if the reactants and the environment are achiral or in unequal amounts if the reactants or the environment are chiral.

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Done 11:14 ⚫ worksheets.beyondlabz.com 5 (a). Using the peak information you listed in the tables for both structures, assign each peak to that portion of the structure that produces the peak in the NMR spectrum. Draw this diagram on your own sheet of paper and attach the sketch of your drawing to this question. Question 6 5 (b). Using the peak information you listed in the tables for both structures, assign each peak to that portion of the structure that produces the peak in the NMR spectrum. Draw this diagram on your own sheet of paper and attach the sketch of your drawing to this question. Question 7 6. Are there any differences between the spectra you obtained in Beyond Labz and the predicted spectra? If so, what were the differences? <

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Interpreting NMR spectra is a skill that often requires some amount of practice, which, in turn, necessitates access to a collection of NMR spectra. Beyond Labz Organic Synthesis and Organic Qualitative Analysis have spectral libraries containing over 700 1H NMR spectra. In this assignment, you will take advantage of this by first predicting the NMR spectra for two closely related compounds and then checking your predictions by looking up the actual spectra in the spectra library. After completing this assignment, you may wish to select other compounds for additional practice. 1. Write the IUPAC names for the following two structures: Question 2 Question 3 2. Predict the NMR spectra for each of these two compounds by listing, in the NMR tables below, the chemical shift, the splitting, and the number of hydrogens associated with each predicted peak. Sort the peaks from largest chemical shift to lowest. **Not all slots must be filled**