Sunday, 1 December 2024

659-1039 BUY AT INSTAMOJO [Shipping Cost = Standard Mode, Expedite Mode] Wiley's Solomons, Fr...

Availability:

In-Stock

Low Stock

On-Demand

Out Of Stock

OUT OF STOCK

  • Easy Return Policy: 10 Days Read More
  • Best Selling Items: Up to 60% Off View More
  • Delivery Method: All India Delivery (1.55 Lakhs Pincode) TC
  • Customer Support: Raise 24*7 Quick Complaint

banner
  • Use Coupon: Get 50% Off (Follow us on Facebook). View Offers
  • Save More: Up to 30% off on Shipping Above ₹559* View Offers
  • COD: Subscription: Rs.999 Yearly!. T/C Apply

Frequently bought together

Our Recommendations!

Snatch up these popular items our customers love, bundled together for the best deal you'll find anywhere. Don't miss out on scoring big with this unbeatable offer!

1 Item
2 Add-ons
Total

Wiley's Solomons, Fryhle & Snyder Organic Chemistry for JEE (Main & Advanced) | Author By M S Chouhan | 4th Edition | Wiley Publication ( English Medium )

659-1039
[Shipping Cost = Standard Mode, Expedite Mode]

Wiley's Solomons, Fryhle & Snyder Organic Chemistry for JEE (Main & Advanced) - As Per Latest NTA Syllabus | Author By M S Chouhan | 4th Edition | Wiley Publication ( English Medium ).

This adapted version of one of the world's most well-known books on Organic Chemistry combines the Solomons, Fryhle and Synder approach to Organic Chemistry with engineering entrance examinations requirements. The book has been reorganized based on the challenges faced by the students preparing for engineering entrance in terms of practice problems and clarity of theories. The relevance to exams is enhanced by elaborating concepts related to the syllabus, removing irrelevant topics and addition of specific problems at the end of each chapter.

Furthermore, the book

• Focuses on the three problem areas of Organic Chemistry – problem-solving, visualization of structures and understanding of mechanisms.

• Contains well-illustrated reactions with elaborate and stepwise explanation of their mechanisms.

• Aids easy learning by summarizing various key concepts in the form of concept maps, summary and review tools.


About The Author:- M.S. Chouhan is currently the Director and HOD (Organic Chemistry) of Vibrant Academy at Kota, Rajasthan. His earlier designations include Senior Faculty (Organic Chemistry) for Bansal Classes at Kota.


Table Of Contents:- 

Preface to the Original Edition


Preface to the Adapted Version


About the Authors


About the Adapting Authors


To the Student


Organic Chemistry Animations and Quizzes


1 The Basics: Bonding and Molecular Structure


1.1 Development of the Science of Organic Chemistry


1.2 Atomic Structure


1.3 The Structural Theory of Organic Chemistry


1.4 Chemical Bonds: The Octet Rule


1.5 Resonance Theory


1.6 Hyperconjugation


1.7 The Structure of Methane and Ethane: sp3 Hybridization


1.8 The Structure of Ethene (Ethylene): sp2 Hybridization


1.9 The Structure of Ethyne (Acetylene): sp Hybridization


1.10 How to Interpret and Write Structural Formulas


2 Families of Carbon Compounds: Functional Groups and Intermolecular Forces


2.1 Hydrocarbons: Representative Alkanes, Alkenes, Alkynes, and Aromatic Compounds


2.2 Polar and Nonpolar Molecules


2.3 Functional Groups


2.4 Alkyl Halides or Haloalkanes


2.5 Alcohols


2.6 Ethers


2.7 Amines


2.8 Aldehydes and Ketones


2.9 Carboxylic Acids, Esters, and Amides


2.10 Nitriles


2.11 Summary of Important Families of Organic Compounds


2.12 Physical Properties and Molecular Structure


2.13 Summary of Attractive Electric Forces


3 An Introduction to Organic Reactions and Their Mechanisms: Acids and Bases


3.1 Reactions and Their Mechanisms


3.2 Acid–Base Reactions


3.3 Lewis Acids and Bases


3.4 Heterolysis of Bonds to Carbon: Carbocations and Carbanions


3.5 HOW TO Use Curved Arrows in Illustrating Reactions


3.6 The Strength of Brønsted–Lowry Acids and Bases: Ka and pKa


3.7 HOW TO Predict the Outcome of Acid–Base Reactions


3.8 Relationships between Structure and Acidity


3.9 Energy Changes


3.10 The Relationship between the Equilibrium Constant and the Standard Free-Energy Change, DG°


3.11 The Acidity of Carboxylic Acids versus Alcohols


3.12 The Effect of the Solvent on Acidity


3.13 Organic Compounds as Bases


3.14 Acids and Bases in Nonaqueous Solutions


3.15 Acid–Base Reactions and the Synthesis of Deuterium- and Tritium-Labeled Compounds


3.16 Reaction of NaHCO3 as a Base


3.17 Steric Inhibition of Resonance (SIR) Effect


3.18 Ortho and Para Effects


4 Stereochemistry: Chiral Molecules


4.1 Chirality and Stereochemistry


4.2 Isomerism: Constitutional Isomers and Stereoisomers


4.3 Enantiomers and Chiral Molecules


4.4 A Single Chirality Center Causes a Molecule to Be Chiral


4.5 More about the Biological Importance of Chirality


4.6 HOW TO Test for Chirality: Planes of Symmetry


4.7 Naming Enantiomers: The R,S-System


4.8 Properties of Enantiomers: Optical Activity


4.9 The Origin of Optical Activity


4.10 The Synthesis of Chiral Molecules


4.11 Chiral Drugs


4.12 Molecules with More than One Chirality Center


4.13 Fischer Projection Formulas


4.14 Stereoisomerism of Cyclic Compounds


4.15 Relating Configurations through Reactions in which no Bonds to the Chirality Center are Broken


4.16 Separation of Enantiomers: Resolution


4.17 Compounds with Chirality Centers Other than Carbon


4.18 Chiral Molecules That Do Not Possess a Chirality Center


4.19 Biphenyl


4.20 Racemization of Biphenyl Compounds


4.21 Tautomerism


4.22 Gero Entropy


5 Nomenclature and Conformations of Alkanes and Cycloalkanes


5.1 Introduction to Alkanes and Cycloalkanes


5.2 Shapes of Alkanes


5.3 HOW TO Name Alkanes, Alkyl Halides, and Alcohols: The IUPAC System


5.4 HOW TO Name Cycloalkanes


5.5 HOW TO Name Alkenes and Cycloalkenes


5.6 HOW TO Name Alkynes


5.7 Physical Properties of Alkanes and Cycloalkanes


5.8 Sigma Bonds and Bond Rotation


5.9 Conformational Analysis of Butane


5.10 The Relative Stabilities of Cycloalkanes: Ring Strain


5.11 Conformations of Cyclohexane: The Chair and the Boat


5.12 Substituted Cyclohexanes: Axial and Equatorial Hydrogen Groups


5.13 Disubstituted Cycloalkanes: Cis–Trans Isomerism


5.14 Bicyclic and Polycyclic Alkanes


5.15 Chemical Reactions of Alkanes


5.16 Synthesis of Alkanes and Cycloalkanes


5.17 HOW TO Gain Structural Information from Molecular Formulas and the Index of Hydrogen Deficiency


5.18 Applications of Basic Principles


6 Ionic Reactions Nucleophilic Substitution and Elimination Reactions of Alkyl Halides


6.1 Alkyl Halides


6.2 Nucleophilic Substitution Reactions


6.3 Nucleophiles


6.4 Leaving Groups


6.5 Kinetics of a Nucleophilic Substitution Reaction: An SN2 Reaction


6.6 A Mechanism for the SN2 Reaction


6.7 Transition State Theory: Free-Energy Diagrams


6.8 The Stereochemistry of SN2 Reactions


6.9 The Reaction of tert-Butyl Chloride with Water: An SN1 Reaction


6.10 A Mechanism for the SN1 Reaction


6.11 Carbocations


6.12 The Stereochemistry of SN1 Reactions


6.13 Factors Affecting the Rates of SN1 and SN2 Reactions


6.14 Organic Synthesis: Functional Group Transformations Using SN2 Reactions


6.15 Elimination Reactions of Alkyl Halides


6.16 The E2 Reaction


6.17 The E1 Reaction


6.18 HOW TO Determine Whether Substitution or Elimination is Favored


6.19 Overall Summary


7 Alkenes and Alkynes I Properties and Synthesis. Elimination Reactions of Alkyl Halides  


7.1 Introduction


7.2 The (E )–(Z ) System for Designating Alkene Diastereomers


7.3 Relative Stabilities of Alkenes


7.4 Cycloalkenes


7.5 Synthesis of Alkenes via Elimination Reactions


7.6 Dehydrohalogenation of Alkyl Halides


7.7 Acid-Catalyzed Dehydration of Alcohols


7.8 Carbocation Stability and the Occurrence of Molecular Rearrangements


7.9 The Acidity of Terminal Alkynes


7.10 Synthesis of Alkynes by Elimination Reactions


7.11 Terminal Alkynes can be Converted to Nucleophiles for Carbon–Carbon Bond Formation


7.12 Hydrogenation of Alkenes


7.13 Hydrogenation: The Function of the Catalyst


7.14 Hydrogenation of Alkynes


7.15 An Introduction to Organic Synthesis


8 Alkenes and Alkynes II Addition Reactions


8.1 Addition Reactions of Alkenes


8.2 Electrophilic Addition of Hydrogen Halides to Alkenes: Mechanism and Markovnikov’s Rule


8.3 Stereochemistry of the Ionic Addition to an Alkene


8.4 Addition of Water to Alkenes: Acid-Catalyzed Hydration


8.5 Alcohols from Alkenes through Oxymercuration– Demercuration: Markovnikov Addition


8.6 Alcohols from Alkenes through Hydroboration–Oxidation: Anti-Markovnikov Syn Hydration


8.7 Hydroboration: Synthesis of Alkylboranes


8.8 Oxidation and Hydrolysis of Alkylboranes


8.9 Summary of Alkene Hydration Methods


8.10 Protonolysis of Alkylboranes


8.11 Electrophilic Addition of Bromine and Chlorine to Alkenes


8.12 Stereospecific Reactions


8.13 Halohydrin Formation


8.14 Oxidation of Alkenes: Syn 1,2-Dihydroxylation


8.15 Oxidative Cleavage of Alkenes


8.16 Electrophilic Addition of Bromine and Chlorine to Alkynes


8.17 Addition of Hydrogen Halides to Alkynes


8.19 HOW TO Plan a Synthesis: Some Approaches and Examples


8.18 Oxidative Cleavage of Alkynes


8.20 Dimerization of Alkene


8.21 Prins Reaction


9 Radical Reactions


9.1 Introduction: How Radicals Form and How they React


9.2 Homolytic Bond Dissociation Energies (DH °)


9.3 Reactions of Alkanes with Halogens


9.4 Chlorination of Methane: Mechanism of Reaction


9.5 Halogenation of Higher Alkanes


9.6 Reactions that Generate Tetrahedral Chirality Centers


9.7 Allylic Substitution and Allylic Radicals


9.8 Benzylic Substitution and Benzylic Radicals


9.9 Radical Addition to Alkenes: The Anti-Markovnikov Addition of Hydrogen Bromide


9.10 Other Important Radical Reactions


10 Alcohols and Ethers Synthesis and Reactions


10.1 Structure and Nomenclature


10.2 Physical Properties of Alcohols and Ethers


10.3 Synthesis of Alcohols from Alkenes


10.4 Reactions of Alcohols


10.5 Alcohols as Acids


10.6 Conversion of Alcohols into Alkyl Halides


10.7 Alkyl Halides from the Reaction of Alcohols with Hydrogen Halides


10.8 Alkyl Halides from the Reaction of Alcohols with PBr3 or SOCl2


10.9 Tosylates, Mesylates, and Triflates: Leaving Group Derivatives of Alcohols


10.10 Rearrangements


10.11 Synthesis of Ethers


10.12 Reactions of Ethers


10.13 Epoxides


10.14 Reactions of Epoxides


10.15 Anti 1,2-Dihydroxylation of Alkenes via Epoxides


10.16 Crown Ethers


11 Alcohols from Carbonyl Compounds


11.1 Structure of the Carbonyl Group


11.2 Oxidation–Reduction Reactions in Organic Chemistry


11.3 Alcohols by Reduction of Carbonyl Compounds


11.4 Oxidation of Alcohols


11.5 Organometallic Compounds


11.6 Preparation of Organolithium and Organomagnesium Compounds


11.7 Reactions of Organolithium and Organomagnesium Compounds


11.8 Alcohols from Grignard Reagents


11.9 Lithium Dialkylcuprates: The Corey–Posner, Whitesides–House Synthesis


12 Conjugated Unsaturated Systems


12.1 Introduction


12.2 Alkadienes and Polyunsaturated Hydrocarbons


12.3 1,3-Butadiene: Electron Delocalization


12.4 Electrophilic At tack on Conjugated Dienes: 1,4-Addition


12.5 The Diels–Alder Reaction: A 1,4-Cycloaddition Reaction of Dienes


13 Aromatic Compounds


13.1 The Discovery of Benzene


13.2 Nomenclature of Benzene Derivatives


13.3 Reactions of Benzene


13.4 The Kekulé Structure for Benzene


13.5 The Thermodynamic Stability of Benzene


13.6 Modern Theories of the Structure of Benzene


13.7 Hückel’s Rule: The 4n + 2 o Electron Rule


13.8 Other Aromatic Compounds


13.9 Heterocyclic Aromatic Compounds


14 Reactions of Aromatic Compounds  


14.1 Electrophilic Aromatic Substitution Reactions


14.2 A General Mechanism for Electrophilic Aromatic Substitution


14.3 Halogenation of Benzene


14.4 Nitration of Benzene


14.5 Sulfonation of Benzene


14.6 Friedel–Crafts Alkylation


14.7 Friedel–Crafts Acylation


14.8 Limitations of Friedel–Crafts Reactions


14.9 Synthetic Applications of Friedel–Crafts Acylations: The Clemmensen and Wolff–Kishner Reductions


14.10 Substituents Can Affect Both the Reactivity of the Ring and the Orientation of the Incoming Group


14.11 How Substituents Affect Electrophilic Aromatic Substitution: A Closer Look


14.12 Reactions of the Side Chain of Alkylbenzenes


14.13 Alkenylbenzenes


14.14 Synthetic Applications


14.15 Allylic and Benzylic Halides in Nucleophilic Substitution Reactions


14.16 Reduction of Aromatic Compounds


15 Aldehydes and Ketones I. Nucleophilic Addition to the Carbonyl Group


15.1 Introduction


15.2 Nomenclature of Aldehydes and Ketones


15.3 Physical Properties


15.4 Synthesis of Aldehydes


15.5 Synthesis of Ketones


15.6 Nucleophilic Addition to the Carbon–Oxygen Double Bond


15.7 The Addition of Alcohols: Hemiacetals and Acetals


15.8 The Addition of Primary and Secondary Amines


15.9 The Addition of Hydrogen Cyanide: Cyanohydrins


15.10 The Addition of Ylides: The Wittig Reaction


15.11 Oxidation of Aldehydes


15.12 The Baeyer–Villiger Oxidation


15.13 Chemical Analyses for Aldehydes and Ketones


16 Aldehydes and Ketones II. Aldol Reactions


16.1 The Acidity of the ` Hydrogens of Carbonyl Compounds: Enolate Anions


16.2 Keto and Enol Tautomers


16.3 Reactions via Enols and Enolates


16.4 Aldol Reactions: Addition of Enolates and Enols to Aldehydes and Ketones


16.5 Crossed Aldol Condensations


16.6 Cyclizations via Aldol Condensation


16.7 Lithium Enolates


17 Carboxylic Acids and Their Derivatives


17.1 Introduction


17.2 Nomenclature and Physical Properties


17.3 Preparation of Carboxylic Acids


17.4 Acyl Substitution: Nucleophilic Addition–Elimination at the Acyl Carbon


17.5 Acyl Chlorides


17.6 Carboxylic Acid Anhydrides


17.7 Esters


17.8 Amides


17.9 Derivatives of Carbonic Acid


17.10 Decarboxylation of Carboxylic Acids


17.11 Chemical Tests for Acyl Compounds


17.12 Summary of the Reactions of Carboxylic Acids and Their Derivatives


18 Amines


18.1 Nomenclature


18.2 Physical Properties and Structure of Amines


18.3 Basicity of Amines: Amine Salts


18.4 Preparation of Amines


18.5 Reactions of Amines


18.6 Reactions of Amines with Nitrous Acid


18.7 Replacement Reactions of Arenediazonium Salts


18.8 Coupling Reactions of Arenediazonium Salts


18.9 Reactions of Amines with Sulfonyl Chlorides


18.10 Synthesis of Sulfa Drugs


18.11 Eliminations Involving Ammonium Compounds


18.12 The Cope Elimination


18.13 Summary of Preparations and Reactions of Amines


19 Phenols and Aryl Halides


19.1 Structure and Nomenclature of Phenols


19.2 Naturally Occurring Phenols


19.3 Physical Properties of Phenols


19.4 Synthesis of Phenols


19.5 Reactions of Phenols as Acids


19.6 Other Reactions of the O—H Group of Phenols


19.7 Cleavage of Alkyl Aryl Ethers


19.8 Reactions of the Benzene Ring of Phenols


19.9 The Claisen Rearrangement


19.10 Quinones


19.11 Aryl Halides and Nucleophilic Aromatic Substitution


20 Carbohydrates


20.1 Introduction


20.2 Monosaccharides


20.3 Mutarotation


20.4 Glycoside Formation


20.5 Other Reactions of Monosaccharides


20.6 Oxidation Reactions of Monosaccharides


20.7 Reduction of Monosaccharides: Alditols


20.8 Reactions of Monosaccharides with Phenylhydrazine: Osazones


20.9 Synthesis and Degradation of Monosaccharides


20.10 The d Family of Aldoses


20.11 Fischer’s Proof of the Configuration of d-(+)- Glucose


20.12 Disaccharides


20.13 Polysaccharides


20.14 Other Biologically Important Sugars


20.15 Sugars that Contain Nitrogen


20.16 Carbohydrate Antibiotics


21 Amino Acids and Proteins


21.1 Introduction


21.2 Amino Acids


21.3 Synthesis of `-Amino Acids


21.4 Polypeptides and Proteins


21.5 Primary Structure of Polypeptides and Proteins


21.6 Secondary, Tertiary, and Quaternary Structures of Proteins


22 Carbene and Carbenoids


22.1 Introduction


22.2 Existence of carbenes


22.3 Formation of Carbenes


22.4 Types of Carbenes


22.5 Reactions of Carbenes


22.6 Rearrangement in Carbenes


23 Reactions of Nitrene and Electron Deficient Oxygen


23.1 Migration to Electron Deficient Nitrogen


23.2 Nitrene Formation


23.3 Hofmann—Curtius—Lossen—Schmidt Group of Rearrangements


23.4 Curtius Reaction


23.5 Schmidt Reaction


23.6 Hofmann-Bromamide Reaction or Hofman Rearrangement


23.7 Beckmann Rearrangement


23.8 Stieglitz Rearrangement


Appendix


JEE Advanced Paper 2024 with Solutions


Glossary


Index


Index–QR Codes.


Search Key:- Author:M S Chouhan, ISBN: 9789357464598, Paperback:996 pages, Price:INR 1039, Publisher: Wiley Publication, Wiley Organic Chemistry for JEE 4th edition, Solomons Fryhle Snyder Organic Chemistry JEE book, MS Chouhan Organic Chemistry JEE Main Advanced, Organic Chemistry Wiley JEE Main Advanced latest edition, Wiley's Solomons Organic Chemistry NTA syllabus, Solomons Organic Chemistry JEE 2024 Wiley 4th edition, Organic Chemistry by MS Chouhan JEE preparation, Best organic chemistry book for JEE Main Advanced, JEE Organic Chemistry book by Solomons Fryhle Snyder, Wiley Organic Chemistry JEE Main Advanced 2024, Wiley JEE Organic Chemistry 4th edition English medium, Solomons Organic Chemistry JEE book latest syllabus, JEE Main Advanced organic chemistry book by MS Chouhan, Solomons Fryhle Organic Chemistry NTA JEE syllabus, Wiley Organic Chemistry book 4th edition for JEE, JEE Organic Chemistry by MS Chouhan latest edition, Solomons Organic Chemistry Wiley publication JEE, Best Wiley books for JEE Main Advanced organic chemistry, JEE Organic Chemistry Solomons Fryhle 4th edition 2024, MS Chouhan Organic Chemistry JEE Main Advanced Wiley.


Product Details
SKU, Publisher Wiley-org-chem-jee-Chouhan(E)
Publisher Wiley Publication
Author, Edition By M S Chouhan, 4th Edition, English Medium
Binding, Type Paperback, New
No. of Pages 996
Product Description

Wiley's Solomons, Fryhle & Snyder Organic Chemistry for JEE (Main & Advanced) - As Per Latest NTA Syllabus | Author By M S Chouhan | 4th Edition | Wiley Publication ( English Medium ).

This adapted version of one of the world's most well-known books on Organic Chemistry combines the Solomons, Fryhle and Synder approach to Organic Chemistry with engineering entrance examinations requirements. The book has been reorganized based on the challenges faced by the students preparing for engineering entrance in terms of practice problems and clarity of theories. The relevance to exams is enhanced by elaborating concepts related to the syllabus, removing irrelevant topics and addition of specific problems at the end of each chapter.

Furthermore, the book

• Focuses on the three problem areas of Organic Chemistry – problem-solving, visualization of structures and understanding of mechanisms.

• Contains well-illustrated reactions with elaborate and stepwise explanation of their mechanisms.

• Aids easy learning by summarizing various key concepts in the form of concept maps, summary and review tools.


About The Author:- M.S. Chouhan is currently the Director and HOD (Organic Chemistry) of Vibrant Academy at Kota, Rajasthan. His earlier designations include Senior Faculty (Organic Chemistry) for Bansal Classes at Kota.


Table Of Contents:- 

Preface to the Original Edition


Preface to the Adapted Version


About the Authors


About the Adapting Authors


To the Student


Organic Chemistry Animations and Quizzes


1 The Basics: Bonding and Molecular Structure


1.1 Development of the Science of Organic Chemistry


1.2 Atomic Structure


1.3 The Structural Theory of Organic Chemistry


1.4 Chemical Bonds: The Octet Rule


1.5 Resonance Theory


1.6 Hyperconjugation


1.7 The Structure of Methane and Ethane: sp3 Hybridization


1.8 The Structure of Ethene (Ethylene): sp2 Hybridization


1.9 The Structure of Ethyne (Acetylene): sp Hybridization


1.10 How to Interpret and Write Structural Formulas


2 Families of Carbon Compounds: Functional Groups and Intermolecular Forces


2.1 Hydrocarbons: Representative Alkanes, Alkenes, Alkynes, and Aromatic Compounds


2.2 Polar and Nonpolar Molecules


2.3 Functional Groups


2.4 Alkyl Halides or Haloalkanes


2.5 Alcohols


2.6 Ethers


2.7 Amines


2.8 Aldehydes and Ketones


2.9 Carboxylic Acids, Esters, and Amides


2.10 Nitriles


2.11 Summary of Important Families of Organic Compounds


2.12 Physical Properties and Molecular Structure


2.13 Summary of Attractive Electric Forces


3 An Introduction to Organic Reactions and Their Mechanisms: Acids and Bases


3.1 Reactions and Their Mechanisms


3.2 Acid–Base Reactions


3.3 Lewis Acids and Bases


3.4 Heterolysis of Bonds to Carbon: Carbocations and Carbanions


3.5 HOW TO Use Curved Arrows in Illustrating Reactions


3.6 The Strength of Brønsted–Lowry Acids and Bases: Ka and pKa


3.7 HOW TO Predict the Outcome of Acid–Base Reactions


3.8 Relationships between Structure and Acidity


3.9 Energy Changes


3.10 The Relationship between the Equilibrium Constant and the Standard Free-Energy Change, DG°


3.11 The Acidity of Carboxylic Acids versus Alcohols


3.12 The Effect of the Solvent on Acidity


3.13 Organic Compounds as Bases


3.14 Acids and Bases in Nonaqueous Solutions


3.15 Acid–Base Reactions and the Synthesis of Deuterium- and Tritium-Labeled Compounds


3.16 Reaction of NaHCO3 as a Base


3.17 Steric Inhibition of Resonance (SIR) Effect


3.18 Ortho and Para Effects


4 Stereochemistry: Chiral Molecules


4.1 Chirality and Stereochemistry


4.2 Isomerism: Constitutional Isomers and Stereoisomers


4.3 Enantiomers and Chiral Molecules


4.4 A Single Chirality Center Causes a Molecule to Be Chiral


4.5 More about the Biological Importance of Chirality


4.6 HOW TO Test for Chirality: Planes of Symmetry


4.7 Naming Enantiomers: The R,S-System


4.8 Properties of Enantiomers: Optical Activity


4.9 The Origin of Optical Activity


4.10 The Synthesis of Chiral Molecules


4.11 Chiral Drugs


4.12 Molecules with More than One Chirality Center


4.13 Fischer Projection Formulas


4.14 Stereoisomerism of Cyclic Compounds


4.15 Relating Configurations through Reactions in which no Bonds to the Chirality Center are Broken


4.16 Separation of Enantiomers: Resolution


4.17 Compounds with Chirality Centers Other than Carbon


4.18 Chiral Molecules That Do Not Possess a Chirality Center


4.19 Biphenyl


4.20 Racemization of Biphenyl Compounds


4.21 Tautomerism


4.22 Gero Entropy


5 Nomenclature and Conformations of Alkanes and Cycloalkanes


5.1 Introduction to Alkanes and Cycloalkanes


5.2 Shapes of Alkanes


5.3 HOW TO Name Alkanes, Alkyl Halides, and Alcohols: The IUPAC System


5.4 HOW TO Name Cycloalkanes


5.5 HOW TO Name Alkenes and Cycloalkenes


5.6 HOW TO Name Alkynes


5.7 Physical Properties of Alkanes and Cycloalkanes


5.8 Sigma Bonds and Bond Rotation


5.9 Conformational Analysis of Butane


5.10 The Relative Stabilities of Cycloalkanes: Ring Strain


5.11 Conformations of Cyclohexane: The Chair and the Boat


5.12 Substituted Cyclohexanes: Axial and Equatorial Hydrogen Groups


5.13 Disubstituted Cycloalkanes: Cis–Trans Isomerism


5.14 Bicyclic and Polycyclic Alkanes


5.15 Chemical Reactions of Alkanes


5.16 Synthesis of Alkanes and Cycloalkanes


5.17 HOW TO Gain Structural Information from Molecular Formulas and the Index of Hydrogen Deficiency


5.18 Applications of Basic Principles


6 Ionic Reactions Nucleophilic Substitution and Elimination Reactions of Alkyl Halides


6.1 Alkyl Halides


6.2 Nucleophilic Substitution Reactions


6.3 Nucleophiles


6.4 Leaving Groups


6.5 Kinetics of a Nucleophilic Substitution Reaction: An SN2 Reaction


6.6 A Mechanism for the SN2 Reaction


6.7 Transition State Theory: Free-Energy Diagrams


6.8 The Stereochemistry of SN2 Reactions


6.9 The Reaction of tert-Butyl Chloride with Water: An SN1 Reaction


6.10 A Mechanism for the SN1 Reaction


6.11 Carbocations


6.12 The Stereochemistry of SN1 Reactions


6.13 Factors Affecting the Rates of SN1 and SN2 Reactions


6.14 Organic Synthesis: Functional Group Transformations Using SN2 Reactions


6.15 Elimination Reactions of Alkyl Halides


6.16 The E2 Reaction


6.17 The E1 Reaction


6.18 HOW TO Determine Whether Substitution or Elimination is Favored


6.19 Overall Summary


7 Alkenes and Alkynes I Properties and Synthesis. Elimination Reactions of Alkyl Halides  


7.1 Introduction


7.2 The (E )–(Z ) System for Designating Alkene Diastereomers


7.3 Relative Stabilities of Alkenes


7.4 Cycloalkenes


7.5 Synthesis of Alkenes via Elimination Reactions


7.6 Dehydrohalogenation of Alkyl Halides


7.7 Acid-Catalyzed Dehydration of Alcohols


7.8 Carbocation Stability and the Occurrence of Molecular Rearrangements


7.9 The Acidity of Terminal Alkynes


7.10 Synthesis of Alkynes by Elimination Reactions


7.11 Terminal Alkynes can be Converted to Nucleophiles for Carbon–Carbon Bond Formation


7.12 Hydrogenation of Alkenes


7.13 Hydrogenation: The Function of the Catalyst


7.14 Hydrogenation of Alkynes


7.15 An Introduction to Organic Synthesis


8 Alkenes and Alkynes II Addition Reactions


8.1 Addition Reactions of Alkenes


8.2 Electrophilic Addition of Hydrogen Halides to Alkenes: Mechanism and Markovnikov’s Rule


8.3 Stereochemistry of the Ionic Addition to an Alkene


8.4 Addition of Water to Alkenes: Acid-Catalyzed Hydration


8.5 Alcohols from Alkenes through Oxymercuration– Demercuration: Markovnikov Addition


8.6 Alcohols from Alkenes through Hydroboration–Oxidation: Anti-Markovnikov Syn Hydration


8.7 Hydroboration: Synthesis of Alkylboranes


8.8 Oxidation and Hydrolysis of Alkylboranes


8.9 Summary of Alkene Hydration Methods


8.10 Protonolysis of Alkylboranes


8.11 Electrophilic Addition of Bromine and Chlorine to Alkenes


8.12 Stereospecific Reactions


8.13 Halohydrin Formation


8.14 Oxidation of Alkenes: Syn 1,2-Dihydroxylation


8.15 Oxidative Cleavage of Alkenes


8.16 Electrophilic Addition of Bromine and Chlorine to Alkynes


8.17 Addition of Hydrogen Halides to Alkynes


8.19 HOW TO Plan a Synthesis: Some Approaches and Examples


8.18 Oxidative Cleavage of Alkynes


8.20 Dimerization of Alkene


8.21 Prins Reaction


9 Radical Reactions


9.1 Introduction: How Radicals Form and How they React


9.2 Homolytic Bond Dissociation Energies (DH °)


9.3 Reactions of Alkanes with Halogens


9.4 Chlorination of Methane: Mechanism of Reaction


9.5 Halogenation of Higher Alkanes


9.6 Reactions that Generate Tetrahedral Chirality Centers


9.7 Allylic Substitution and Allylic Radicals


9.8 Benzylic Substitution and Benzylic Radicals


9.9 Radical Addition to Alkenes: The Anti-Markovnikov Addition of Hydrogen Bromide


9.10 Other Important Radical Reactions


10 Alcohols and Ethers Synthesis and Reactions


10.1 Structure and Nomenclature


10.2 Physical Properties of Alcohols and Ethers


10.3 Synthesis of Alcohols from Alkenes


10.4 Reactions of Alcohols


10.5 Alcohols as Acids


10.6 Conversion of Alcohols into Alkyl Halides


10.7 Alkyl Halides from the Reaction of Alcohols with Hydrogen Halides


10.8 Alkyl Halides from the Reaction of Alcohols with PBr3 or SOCl2


10.9 Tosylates, Mesylates, and Triflates: Leaving Group Derivatives of Alcohols


10.10 Rearrangements


10.11 Synthesis of Ethers


10.12 Reactions of Ethers


10.13 Epoxides


10.14 Reactions of Epoxides


10.15 Anti 1,2-Dihydroxylation of Alkenes via Epoxides


10.16 Crown Ethers


11 Alcohols from Carbonyl Compounds


11.1 Structure of the Carbonyl Group


11.2 Oxidation–Reduction Reactions in Organic Chemistry


11.3 Alcohols by Reduction of Carbonyl Compounds


11.4 Oxidation of Alcohols


11.5 Organometallic Compounds


11.6 Preparation of Organolithium and Organomagnesium Compounds


11.7 Reactions of Organolithium and Organomagnesium Compounds


11.8 Alcohols from Grignard Reagents


11.9 Lithium Dialkylcuprates: The Corey–Posner, Whitesides–House Synthesis


12 Conjugated Unsaturated Systems


12.1 Introduction


12.2 Alkadienes and Polyunsaturated Hydrocarbons


12.3 1,3-Butadiene: Electron Delocalization


12.4 Electrophilic At tack on Conjugated Dienes: 1,4-Addition


12.5 The Diels–Alder Reaction: A 1,4-Cycloaddition Reaction of Dienes


13 Aromatic Compounds


13.1 The Discovery of Benzene


13.2 Nomenclature of Benzene Derivatives


13.3 Reactions of Benzene


13.4 The Kekulé Structure for Benzene


13.5 The Thermodynamic Stability of Benzene


13.6 Modern Theories of the Structure of Benzene


13.7 Hückel’s Rule: The 4n + 2 o Electron Rule


13.8 Other Aromatic Compounds


13.9 Heterocyclic Aromatic Compounds


14 Reactions of Aromatic Compounds  


14.1 Electrophilic Aromatic Substitution Reactions


14.2 A General Mechanism for Electrophilic Aromatic Substitution


14.3 Halogenation of Benzene


14.4 Nitration of Benzene


14.5 Sulfonation of Benzene


14.6 Friedel–Crafts Alkylation


14.7 Friedel–Crafts Acylation


14.8 Limitations of Friedel–Crafts Reactions


14.9 Synthetic Applications of Friedel–Crafts Acylations: The Clemmensen and Wolff–Kishner Reductions


14.10 Substituents Can Affect Both the Reactivity of the Ring and the Orientation of the Incoming Group


14.11 How Substituents Affect Electrophilic Aromatic Substitution: A Closer Look


14.12 Reactions of the Side Chain of Alkylbenzenes


14.13 Alkenylbenzenes


14.14 Synthetic Applications


14.15 Allylic and Benzylic Halides in Nucleophilic Substitution Reactions


14.16 Reduction of Aromatic Compounds


15 Aldehydes and Ketones I. Nucleophilic Addition to the Carbonyl Group


15.1 Introduction


15.2 Nomenclature of Aldehydes and Ketones


15.3 Physical Properties


15.4 Synthesis of Aldehydes


15.5 Synthesis of Ketones


15.6 Nucleophilic Addition to the Carbon–Oxygen Double Bond


15.7 The Addition of Alcohols: Hemiacetals and Acetals


15.8 The Addition of Primary and Secondary Amines


15.9 The Addition of Hydrogen Cyanide: Cyanohydrins


15.10 The Addition of Ylides: The Wittig Reaction


15.11 Oxidation of Aldehydes


15.12 The Baeyer–Villiger Oxidation


15.13 Chemical Analyses for Aldehydes and Ketones


16 Aldehydes and Ketones II. Aldol Reactions


16.1 The Acidity of the ` Hydrogens of Carbonyl Compounds: Enolate Anions


16.2 Keto and Enol Tautomers


16.3 Reactions via Enols and Enolates


16.4 Aldol Reactions: Addition of Enolates and Enols to Aldehydes and Ketones


16.5 Crossed Aldol Condensations


16.6 Cyclizations via Aldol Condensation


16.7 Lithium Enolates


17 Carboxylic Acids and Their Derivatives


17.1 Introduction


17.2 Nomenclature and Physical Properties


17.3 Preparation of Carboxylic Acids


17.4 Acyl Substitution: Nucleophilic Addition–Elimination at the Acyl Carbon


17.5 Acyl Chlorides


17.6 Carboxylic Acid Anhydrides


17.7 Esters


17.8 Amides


17.9 Derivatives of Carbonic Acid


17.10 Decarboxylation of Carboxylic Acids


17.11 Chemical Tests for Acyl Compounds


17.12 Summary of the Reactions of Carboxylic Acids and Their Derivatives


18 Amines


18.1 Nomenclature


18.2 Physical Properties and Structure of Amines


18.3 Basicity of Amines: Amine Salts


18.4 Preparation of Amines


18.5 Reactions of Amines


18.6 Reactions of Amines with Nitrous Acid


18.7 Replacement Reactions of Arenediazonium Salts


18.8 Coupling Reactions of Arenediazonium Salts


18.9 Reactions of Amines with Sulfonyl Chlorides


18.10 Synthesis of Sulfa Drugs


18.11 Eliminations Involving Ammonium Compounds


18.12 The Cope Elimination


18.13 Summary of Preparations and Reactions of Amines


19 Phenols and Aryl Halides


19.1 Structure and Nomenclature of Phenols


19.2 Naturally Occurring Phenols


19.3 Physical Properties of Phenols


19.4 Synthesis of Phenols


19.5 Reactions of Phenols as Acids


19.6 Other Reactions of the O—H Group of Phenols


19.7 Cleavage of Alkyl Aryl Ethers


19.8 Reactions of the Benzene Ring of Phenols


19.9 The Claisen Rearrangement


19.10 Quinones


19.11 Aryl Halides and Nucleophilic Aromatic Substitution


20 Carbohydrates


20.1 Introduction


20.2 Monosaccharides


20.3 Mutarotation


20.4 Glycoside Formation


20.5 Other Reactions of Monosaccharides


20.6 Oxidation Reactions of Monosaccharides


20.7 Reduction of Monosaccharides: Alditols


20.8 Reactions of Monosaccharides with Phenylhydrazine: Osazones


20.9 Synthesis and Degradation of Monosaccharides


20.10 The d Family of Aldoses


20.11 Fischer’s Proof of the Configuration of d-(+)- Glucose


20.12 Disaccharides


20.13 Polysaccharides


20.14 Other Biologically Important Sugars


20.15 Sugars that Contain Nitrogen


20.16 Carbohydrate Antibiotics


21 Amino Acids and Proteins


21.1 Introduction


21.2 Amino Acids


21.3 Synthesis of `-Amino Acids


21.4 Polypeptides and Proteins


21.5 Primary Structure of Polypeptides and Proteins


21.6 Secondary, Tertiary, and Quaternary Structures of Proteins


22 Carbene and Carbenoids


22.1 Introduction


22.2 Existence of carbenes


22.3 Formation of Carbenes


22.4 Types of Carbenes


22.5 Reactions of Carbenes


22.6 Rearrangement in Carbenes


23 Reactions of Nitrene and Electron Deficient Oxygen


23.1 Migration to Electron Deficient Nitrogen


23.2 Nitrene Formation


23.3 Hofmann—Curtius—Lossen—Schmidt Group of Rearrangements


23.4 Curtius Reaction


23.5 Schmidt Reaction


23.6 Hofmann-Bromamide Reaction or Hofman Rearrangement


23.7 Beckmann Rearrangement


23.8 Stieglitz Rearrangement


Appendix


JEE Advanced Paper 2024 with Solutions


Glossary


Index


Index–QR Codes.


Search Key:- Author:M S Chouhan, ISBN: 9789357464598, Paperback:996 pages, Price:INR 1039, Publisher: Wiley Publication, Wiley Organic Chemistry for JEE 4th edition, Solomons Fryhle Snyder Organic Chemistry JEE book, MS Chouhan Organic Chemistry JEE Main Advanced, Organic Chemistry Wiley JEE Main Advanced latest edition, Wiley's Solomons Organic Chemistry NTA syllabus, Solomons Organic Chemistry JEE 2024 Wiley 4th edition, Organic Chemistry by MS Chouhan JEE preparation, Best organic chemistry book for JEE Main Advanced, JEE Organic Chemistry book by Solomons Fryhle Snyder, Wiley Organic Chemistry JEE Main Advanced 2024, Wiley JEE Organic Chemistry 4th edition English medium, Solomons Organic Chemistry JEE book latest syllabus, JEE Main Advanced organic chemistry book by MS Chouhan, Solomons Fryhle Organic Chemistry NTA JEE syllabus, Wiley Organic Chemistry book 4th edition for JEE, JEE Organic Chemistry by MS Chouhan latest edition, Solomons Organic Chemistry Wiley publication JEE, Best Wiley books for JEE Main Advanced organic chemistry, JEE Organic Chemistry Solomons Fryhle 4th edition 2024, MS Chouhan Organic Chemistry JEE Main Advanced Wiley.

Easy Return and Delivery Policy
Since EXAM360 SHOP (Open Store) is capable to deliver all Indian Pin-codes which covers 1.55 Lakhs Pin-codes throughout India. While adding any item to cart / purchasing anything through this website, users are requested to enter the valid address with Name, C/O, House Name/No., Area / Locality, City, District, Landmark, State, Pin-code, Mobile No, Email carefully. If any issues occurred due to invalid / incomplete address in such cases EXAM360 will not take any responsibility for the losses or damages.

We practice Easy Return / Exchange / Refund policy for Buyer Protection, So if you experience any difficulties like (Wrong Item delivered) with any of the product received, you can raise request under Return / Exchange Policy through the EXAM360 Customer support Portal i.e. https://support.exam360.in/ with valid details. Once our executive validate the case properly, we will take necessary steps as per the Policy Standard & we will be more than happy to help you to solve your issues ASAP.

While receiving the item from any of our courier partner, users are requested to check the packaging item properly, If you feel the item is delivering by the logistic partners in tampering conditions, we request our buyers not to accept the product & instantly make a call to the below mentioned HELPLINE Numbers. And, If you purchased an item that was not satisfactory, in such cases we will issue Return / Refund as per the current policy guidelines.

Selling Price & Shipping Fee: In Product details page we have clearly mentioned the Selling Price & Shipping Fees separately, So, when you click on "BUY NOW" You will be charges Selling Price + Shipping Fees. The Shipping fees may different for each products depends on the weight of the Product. The shipping cost includes the courier charges, packaging charges, transport charges, fuel charges and other charges. Sometimes the total payable amount may be different for Instamojo Payment Gateway. Buyers are requested to check before purchasing the products. After making the purchase we may not allow or consider users to modify.
- For more information about return policy CLICK HERE
- If you have questions about the product, please contact our dedicated Customer Support Team at ECG Portal.
Delivery Information
EXAM360 SHOP is capable to deliver All India Pin-codes by the govt. recognised courier partners with full security.
Generally the courier partner support delivery during business hours (9:00 - 20:00) Mon - Sat: Fedex, Trackon, Gati, Delhivery, Indian Post.

The actual delivery time may differ from the given Estimated timeline. For more information on delivery time and shipping charges, please refer to our dedicated support team through ECG Portal.

Note: Expected Delivery time may differ from the Estimated or Projected delivery time & it does not include holidays.
( )

5
4
3
2
1

No comments:

Post a Comment

How May I Help You ?
May I Help You?