The complete, detailed mechanism and products for the given reaction are to be drawn assuming that it takes place via an S N 2 mechanism, paying attention to stereochemistry Concept introduction: S N 2 reaction is the bimolecular nucleophilic substitution reaction. The halide group in the substrate acts as a good leaving group. In an S N 2 reaction, the incoming nucleophile attacks the carbon that is bonded to the leaving group, with the leaving group breaking off simultaneously with its bond pair. The incoming group must attack the carbon from a direction opposite the leaving group. The result is generally a single product. As S N 2 reaction is a single-step reaction, the stereo-specificity suggests that the nucleophile attacks the substrate exclusively from the side opposite the leaving group, producing a single stereoisomer. Thus, S N 2 reactions are stereospecific.

Question

(a 4 shows scanning electron microscope (SEM) images of extruded actions of packing bed for two capillary columns of different diameters, al 750 (bottom image) and b) 30-μm-i.d. Both columns are packed with the same stationary phase, spherical particles with 1-um diameter. A) When the columns were prepared, the figure shows that the column with the larger diameter has more packing irregularities. Explain this observation. B) Predict what affect this should have on band broadening and discuss your prediction using the van Deemter terms. C) Does this figure support your explanations in application question 33? Explain why or why not and make any changes in your answers in light of this figure. Figure 4 SEM images of sections of packed columns for a) 750 and b) 30-um-i.d. capillary columns.³

Answer 1

Question

Chapter 8, Problem 8.12P

Interpretation Introduction

Interpretation:

The complete, detailed mechanism and products for the given reaction are to be drawn assuming that it takes place via an SN2 mechanism, paying attention to stereochemistry Concept introduction:

SN2 reaction is the bimolecular nucleophilic substitution reaction. The halide group in the substrate acts as a good leaving group. In an SN2 reaction, the incoming nucleophile attacks the carbon that is bonded to the leaving group, with the leaving group breaking off simultaneously with its bond pair. The incoming group must attack the carbon from a direction opposite the leaving group. The result is generally a single product. As SN2 reaction is a single-step reaction, the stereo-specificity suggests that the nucleophile attacks the substrate exclusively from the side opposite the leaving group, producing a single stereoisomer. Thus, SN2 reactions are stereospecific.

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