(a) Interpretation: The compound from the given pair that reacts faster in nucleophilic substitution is to be identified. Concept introduction: Nucleophilic substitution reaction takes place by two mechanisms, S N 1 and S N 2 . In S N 1 mechanism, formation of carbocation takes place by removal of halide and then nucleophile attack on that carbocation. However in S N 2 mechanism, removal of halide and attack of nucleophile takes place simultaneously. The presence of good leaving group increases the rate of both S N 1 and S N 2 reactions.
(a) Interpretation: The compound from the given pair that reacts faster in nucleophilic substitution is to be identified. Concept introduction: Nucleophilic substitution reaction takes place by two mechanisms, S N 1 and S N 2 . In S N 1 mechanism, formation of carbocation takes place by removal of halide and then nucleophile attack on that carbocation. However in S N 2 mechanism, removal of halide and attack of nucleophile takes place simultaneously. The presence of good leaving group increases the rate of both S N 1 and S N 2 reactions.
Solution Summary: The author explains that the compound from the given pair that reacts faster in nucleophilic substitution is shown in Figure 1.
Interpretation: The compound from the given pair that reacts faster in nucleophilic substitution is to be identified.
Concept introduction: Nucleophilic substitution reaction takes place by two mechanisms, SN1 and SN2. In SN1 mechanism, formation of carbocation takes place by removal of halide and then nucleophile attack on that carbocation. However in SN2 mechanism, removal of halide and attack of nucleophile takes place simultaneously. The presence of good leaving group increases the rate of both SN1 and SN2 reactions.
Interpretation Introduction
(b)
Interpretation: The compound form the given pair that reacts faster in nucleophilic substitution is to be identified.
Concept introduction: Nucleophilic substitution reaction takes place by two mechanisms, SN1 and SN2. In SN1 mechanism, formation of carbocation takes place by removal of halide and then nucleophile attack on that carbocation. However in SN2 mechanism, removal of halide and attack of nucleophile takes place simultaneously. The presence of good leaving group increases the rate of both SN1 and SN2 reactions.
Interpretation Introduction
(c)
Interpretation: The compound from the given pair that reacts faster in nucleophilic substitution is to be identified.
Concept introduction: Nucleophilic substitution reaction takes place by two mechanisms, SN1 and SN2. In SN1 mechanism, formation of carbocation takes place by removal of halide and then nucleophile attack on that carbocation. However in SN2 mechanism, removal of halide and attack of nucleophile takes place simultaneously. The presence of good leaving group increases the rate of both SN1 and SN2 reactions.
Interpretation Introduction
(d)
Interpretation: The compound from the given pair that reacts faster in nucleophilic substitution is to be identified.
Concept introduction: Nucleophilic substitution reaction takes place by two mechanisms, SN1 and SN2. In SN1 mechanism, formation of carbocation takes place by removal of halide and then nucleophile attack on that carbocation. However in SN2 mechanism, removal of halide and attack of nucleophile takes place simultaneously. The presence of good leaving group increases the rate of both SN1 and SN2 reactions.