(a)
Interpretation: The synthetic route for the transformation of given molecules should be identified.
Concept Introduction:
Reagents: Chemical substances used in the process of
Addition Reaction: It is defined as chemical reaction in which two given molecules combines and forms product. The types of addition reactions are electrophilic addition, nucleophilic addition, free radical additions and cycloadditions. Generally, compounds with carbon-hetero atom bonds favors addition reaction.
Elimination Reaction: It is just reverse reaction of addition where substituent from the given molecule is removed via E1 (the reaction depends only on the substrate involved in the reaction) or E2 (the reaction depends on both of the substituents in the reaction) mechanism.
Anti-Markovnikov’s Addition Rule: The unsymmetrical
Grignard Reagent: It is generally used in alkylation of
Carbocation: it is carbon ion that bears a positive charge on it.
Leaving group: it is a fragment that leaves substrate with a pair of electrons via heterolytic bond cleavage.
Nucleophile: donates pair of electrons to positively charged substrate resulting in the formation of
(b)
Interpretation: The synthetic route for the transformation of given molecules should be identified.
Concept Introduction:
Reagents: Chemical substances used in the process of chemical reactions.
Addition Reaction: It is defined as chemical reaction in which two given molecules combines and forms product. The types of addition reactions are electrophilic addition, nucleophilic addition, free radical additions and cycloadditions. Generally, compounds with carbon-hetero atom bonds favors addition reaction.
Elimination Reaction: It is just reverse reaction of addition where substituent from the given molecule is removed via E1 (the reaction depends only on the substrate involved in the reaction) or E2 (the reaction depends on both of the substituents in the reaction) mechanism.
Anti-Markovnikov’s Addition Rule: The unsymmetrical alkene in a chemical compound reacts with hydrogen halide in a way, where halide ions attacks and bond to the less substitution position of carbon-carbon double bond.
Grignard Reagent: It is generally used in alkylation of aldehydes and ketones. It converts carbonyl to carbon-oxygen single bond with making oxygen as
Carbocation: it is carbon ion that bears a positive charge on it.
Leaving group: it is a fragment that leaves substrate with a pair of electrons via heterolytic bond cleavage.
Nucleophile: donates pair of electrons to positively charged substrate resulting in the formation of chemical bond.
(c)
Interpretation: The synthetic route for the transformation of given molecules should be identified.
Concept Introduction:
Reagents: Chemical substances used in the process of chemical reactions.
Addition Reaction: It is defined as chemical reaction in which two given molecules combines and forms product. The types of addition reactions are electrophilic addition, nucleophilic addition, free radical additions and cycloadditions. Generally, compounds with carbon-hetero atom bonds favors addition reaction.
Elimination Reaction: It is just reverse reaction of addition where substituent from the given molecule is removed via E1 (the reaction depends only on the substrate involved in the reaction) or E2 (the reaction depends on both of the substituents in the reaction) mechanism.
Anti-Markovnikov’s Addition Rule: The unsymmetrical alkene in a chemical compound reacts with hydrogen halide in a way, where halide ions attacks and bond to the less substitution position of carbon-carbon double bond.
Grignard Reagent: It is generally used in alkylation of aldehydes and ketones. It converts carbonyl to carbon-oxygen single bond with making oxygen as
Carbocation: it is carbon ion that bears a positive charge on it.
Leaving group: it is a fragment that leaves substrate with a pair of electrons via heterolytic bond cleavage.
Nucleophile: donates pair of electrons to positively charged substrate resulting in the formation of chemical bond.
(d)
Interpretation: The synthetic route for the transformation of given molecules should be identified.
Concept Introduction:
Reagents: Chemical substances used in the process of chemical reactions.
Addition Reaction: It is defined as chemical reaction in which two given molecules combines and forms product. The types of addition reactions are electrophilic addition, nucleophilic addition, free radical additions and cycloadditions. Generally, compounds with carbon-hetero atom bonds favors addition reaction.
Elimination Reaction: It is just reverse reaction of addition where substituent from the given molecule is removed via E1 (the reaction depends only on the substrate involved in the reaction) or E2 (the reaction depends on both of the substituents in the reaction) mechanism.
Anti-Markovnikov’s Addition Rule: The unsymmetrical alkene in a chemical compound reacts with hydrogen halide in a way, where halide ions attacks and bond to the less substitution position of carbon-carbon double bond.
Grignard Reagent: It is generally used in alkylation of aldehydes and ketones. It converts carbonyl to carbon-oxygen single bond with making oxygen as
Carbocation: it is carbon ion that bears a positive charge on it.
Leaving group: it is a fragment that leaves substrate with a pair of electrons via heterolytic bond cleavage.
Nucleophile: donates pair of electrons to positively charged substrate resulting in the formation of chemical bond.
(e)
Interpretation: The synthetic route for the transformation of given molecules should be identified.
Concept Introduction:
Reagents: Chemical substances used in the process of chemical reactions.
Addition Reaction: It is defined as chemical reaction in which two given molecules combines and forms product. The types of addition reactions are electrophilic addition, nucleophilic addition, free radical additions and cycloadditions. Generally, compounds with carbon-hetero atom bonds favors addition reaction.
Elimination Reaction: It is just reverse reaction of addition where substituent from the given molecule is removed via E1 (the reaction depends only on the substrate involved in the reaction) or E2 (the reaction depends on both of the substituents in the reaction) mechanism.
Anti-Markovnikov’s Addition Rule: The unsymmetrical alkene in a chemical compound reacts with hydrogen halide in a way, where halide ions attacks and bond to the less substitution position of carbon-carbon double bond.
Grignard Reagent: It is generally used in alkylation of aldehydes and ketones. It converts carbonyl to carbon-oxygen single bond with making oxygen as
Carbocation: it is carbon ion that bears a positive charge on it.
Leaving group: it is a fragment that leaves substrate with a pair of electrons via heterolytic bond cleavage.
Nucleophile: donates pair of electrons to positively charged substrate resulting in the formation of chemical bond.
(f)
Interpretation: The synthetic route for the transformation of given molecules should be identified.
Concept Introduction:
Reagents: Chemical substances used in the process of chemical reactions.
Addition Reaction: It is defined as chemical reaction in which two given molecules combines and forms product. The types of addition reactions are electrophilic addition, nucleophilic addition, free radical additions and cycloadditions. Generally, compounds with carbon-hetero atom bonds favors addition reaction.
Elimination Reaction: It is just reverse reaction of addition where substituent from the given molecule is removed via E1 (the reaction depends only on the substrate involved in the reaction) or E2 (the reaction depends on both of the substituents in the reaction) mechanism.
Anti-Markovnikov’s Addition Rule: The unsymmetrical alkene in a chemical compound reacts with hydrogen halide in a way, where halide ions attacks and bond to the less substitution position of carbon-carbon double bond.
Grignard Reagent: It is generally used in alkylation of aldehydes and ketones. It converts carbonyl to carbon-oxygen single bond with making oxygen as
Carbocation: it is carbon ion that bears a positive charge on it.
Leaving group: it is a fragment that leaves substrate with a pair of electrons via heterolytic bond cleavage.
Nucleophile: donates pair of electrons to positively charged substrate resulting in the formation of chemical bond.
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Chapter 12 Solutions
EBK ORGANIC CHEMISTRY-PRINT COMPANION (
- Determine if the following salt is neutral, acidic or basic. If acidic or basic, write the appropriate equilibrium equation for the acid or base that exists when the salt is dissolved in aqueous solution. If neutral, simply write only NR. Be sure to include the proper phases for all species within the reaction LiNO3arrow_forwardAn unknown weak acid with a concentration of 0.410 M has a pH of 5.600. What is the Ka of the weak acid?arrow_forward(racemic) 19.84 Using your reaction roadmaps as a guide, show how to convert 2-oxepanone and ethanol into 1-cyclopentenecarbaldehyde. You must use 2-oxepanone as the source of all carbon atoms in the target molecule. Show all reagents and all molecules synthesized along the way. & + EtOH H 2-Oxepanone 1-Cyclopentenecarbaldehydearrow_forward
- R₂ R₁ R₁ a R Rg Nu R₂ Rg R₁ R R₁₂ R3 R R Nu enolate forming R₁ R B-Alkylated carbonyl species or amines Cyclic B-Ketoester R₁₁ HOB R R₁B R R₁₂ B-Hydroxy carbonyl R diester R2 R3 R₁ RB OR R₂ 0 aB-Unsaturated carbonyl NaOR Aldol HOR reaction 1) LDA 2) R-X 3) H₂O/H₂O ketone, aldehyde 1) 2°-amine 2) acid chloride 3) H₂O'/H₂O 0 O R₁ R₁ R R₁ R₁₂ Alkylated a-carbon R₁ H.C R₁ H.C Alkylated methyl ketone acetoacetic ester B-Ketoester ester R₁ HO R₂ R B-Dicarbonyl HO Alkylated carboxylic acid malonic ester Write the reagents required to bring about each reaction next to the arrows shown. Next, record any regiochemistry or stereochemistry considerations relevant to the reaction. You should also record any key aspects of the mechanism, such as forma- tion of an important intermediate, as a helpful reminder. You may want to keep track of all reactions that make carbon-carbon bonds, because these help you build large molecules from smaller fragments. This especially applies to the reactions in…arrow_forwardProvide the reasonable steps to achieve the following synthesis.arrow_forwardIdentify which compound is more acidic. Justify your choice.arrow_forward
- Provide the reasonable steps to achieve the following synthesis.arrow_forwardWhen anisole is treated with excess bromine, the reaction gives a product which shows two singlets in 1H NMR. Draw the product.arrow_forward(ii) Draw a reasonable mechanism for the following reaction: CI NaOH heat OH (hint: SNAr Reaction) :arrow_forward
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