General Organic Chemistry (part 1) for 11th standard

Introduction 1 lecture 13:47 Introduction to this course We get idea of proper sequence to be followed Introduction 1 lecture 13:47 Introduction to this course We get idea of proper sequence to be followed Introduction to this course We get idea of proper sequence to be followed Introduction to this course We get idea of proper sequence to be followed Introduction to this course We get idea of proper sequence to be followed Introduction to this course We get idea of proper sequence to be followed We get idea of proper sequence to be followed We get idea of proper sequence to be followed Concept of Hybridisation. 10 lectures 03:53:38 Methane molecule ( SP3 Hybridisation) To start with SP3 hybridised carbon in Methane is necessary. Applications of SP3 Hybridised carbon This will give an idea of tricky questions based on SP3 hybrised carbon Ammonia molecule (SP3 hybridisation) Lone pair of electrons on nitrogen makes a difference. Water molecule (SP3 Hybridisation) Two lone pairs of electrons on oxygen atom further affects geometry Ethene molecule formation ( SP2 hybridisation ). Carbon atom has capacity to follow SP2 hybridisation Ethyne molecule ( SP hybridisation ) Carbon atom undergoes SP hybridisation. Applications of Hybridisation (part 1 ) Useful for Advanced study of NEET , JEE, MHTCET Applications of Hybridisation ( part 2 ) Useful for Advanced level Exams like NEET, JEE, MHTCET. Applications of Hybridisation, (part 3 ) Applications will develop skills for advanced study of NEET, JEE, MHTCET Applications of Hybridisation ( part 4 ) This lecture will help advanced study Concept of Hybridisation. 10 lectures 03:53:38 Methane molecule ( SP3 Hybridisation) To start with SP3 hybridised carbon in Methane is necessary. Applications of SP3 Hybridised carbon This will give an idea of tricky questions based on SP3 hybrised carbon Ammonia molecule (SP3 hybridisation) Lone pair of electrons on nitrogen makes a difference. Water molecule (SP3 Hybridisation) Two lone pairs of electrons on oxygen atom further affects geometry Ethene molecule formation ( SP2 hybridisation ). Carbon atom has capacity to follow SP2 hybridisation Ethyne molecule ( SP hybridisation ) Carbon atom undergoes SP hybridisation. Applications of Hybridisation (part 1 ) Useful for Advanced study of NEET , JEE, MHTCET Applications of Hybridisation ( part 2 ) Useful for Advanced level Exams like NEET, JEE, MHTCET. Applications of Hybridisation, (part 3 ) Applications will develop skills for advanced study of NEET, JEE, MHTCET Applications of Hybridisation ( part 4 ) This lecture will help advanced study Methane molecule ( SP3 Hybridisation) To start with SP3 hybridised carbon in Methane is necessary. Methane molecule ( SP3 Hybridisation) To start with SP3 hybridised carbon in Methane is necessary. Methane molecule ( SP3 Hybridisation) To start with SP3 hybridised carbon in Methane is necessary. Methane molecule ( SP3 Hybridisation) To start with SP3 hybridised carbon in Methane is necessary. To start with SP3 hybridised carbon in Methane is necessary. To start with SP3 hybridised carbon in Methane is necessary. Applications of SP3 Hybridised carbon This will give an idea of tricky questions based on SP3 hybrised carbon Applications of SP3 Hybridised carbon This will give an idea of tricky questions based on SP3 hybrised carbon Applications of SP3 Hybridised carbon This will give an idea of tricky questions based on SP3 hybrised carbon Applications of SP3 Hybridised carbon This will give an idea of tricky questions based on SP3 hybrised carbon This will give an idea of tricky questions based on SP3 hybrised carbon This will give an idea of tricky questions based on SP3 hybrised carbon Ammonia molecule (SP3 hybridisation) Lone pair of electrons on nitrogen makes a difference. Ammonia molecule (SP3 hybridisation) Lone pair of electrons on nitrogen makes a difference. Ammonia molecule (SP3 hybridisation) Lone pair of electrons on nitrogen makes a difference. Ammonia molecule (SP3 hybridisation) Lone pair of electrons on nitrogen makes a difference. Lone pair of electrons on nitrogen makes a difference. Lone pair of electrons on nitrogen makes a difference. Water molecule (SP3 Hybridisation) Two lone pairs of electrons on oxygen atom further affects geometry Water molecule (SP3 Hybridisation) Two lone pairs of electrons on oxygen atom further affects geometry Water molecule (SP3 Hybridisation) Two lone pairs of electrons on oxygen atom further affects geometry Water molecule (SP3 Hybridisation) Two lone pairs of electrons on oxygen atom further affects geometry Two lone pairs of electrons on oxygen atom further affects geometry Two lone pairs of electrons on oxygen atom further affects geometry Ethene molecule formation ( SP2 hybridisation ). Carbon atom has capacity to follow SP2 hybridisation Ethene molecule formation ( SP2 hybridisation ). Carbon atom has capacity to follow SP2 hybridisation Ethene molecule formation ( SP2 hybridisation ). Carbon atom has capacity to follow SP2 hybridisation Ethene molecule formation ( SP2 hybridisation ). Carbon atom has capacity to follow SP2 hybridisation Carbon atom has capacity to follow SP2 hybridisation Carbon atom has capacity to follow SP2 hybridisation Ethyne molecule ( SP hybridisation ) Carbon atom undergoes SP hybridisation. Ethyne molecule ( SP hybridisation ) Carbon atom undergoes SP hybridisation. Ethyne molecule ( SP hybridisation ) Carbon atom undergoes SP hybridisation. Ethyne molecule ( SP hybridisation ) Carbon atom undergoes SP hybridisation. Carbon atom undergoes SP hybridisation. Carbon atom undergoes SP hybridisation. Applications of Hybridisation (part 1 ) Useful for Advanced study of NEET , JEE, MHTCET Applications of Hybridisation (part 1 ) Useful for Advanced study of NEET , JEE, MHTCET Applications of Hybridisation (part 1 ) Useful for Advanced study of NEET , JEE, MHTCET Applications of Hybridisation (part 1 ) Useful for Advanced study of NEET , JEE, MHTCET Useful for Advanced study of NEET , JEE, MHTCET Useful for Advanced study of NEET , JEE, MHTCET Applications of Hybridisation ( part 2 ) Useful for Advanced level Exams like NEET, JEE, MHTCET. Applications of Hybridisation ( part 2 ) Useful for Advanced level Exams like NEET, JEE, MHTCET. Applications of Hybridisation ( part 2 ) Useful for Advanced level Exams like NEET, JEE, MHTCET. Applications of Hybridisation ( part 2 ) Useful for Advanced level Exams like NEET, JEE, MHTCET. Useful for Advanced level Exams like NEET, JEE, MHTCET. Useful for Advanced level Exams like NEET, JEE, MHTCET. Applications of Hybridisation, (part 3 ) Applications will develop skills for advanced study of NEET, JEE, MHTCET Applications of Hybridisation, (part 3 ) Applications will develop skills for advanced study of NEET, JEE, MHTCET Applications of Hybridisation, (part 3 ) Applications will develop skills for advanced study of NEET, JEE, MHTCET Applications of Hybridisation, (part 3 ) Applications will develop skills for advanced study of NEET, JEE, MHTCET Applications will develop skills for advanced study of NEET, JEE, MHTCET Applications will develop skills for advanced study of NEET, JEE, MHTCET Applications of Hybridisation ( part 4 ) This lecture will help advanced study Applications of Hybridisation ( part 4 ) This lecture will help advanced study Applications of Hybridisation ( part 4 ) This lecture will help advanced study Applications of Hybridisation ( part 4 ) This lecture will help advanced study This lecture will help advanced study This lecture will help advanced study Effects in Organic Chemistry 14 lectures 05:40:54 Inductive effect ( part 1 ) Inductive effect is based on permanent polarisation of covalent bond. This lecture will go into details of this effect. Inductive effect ( part 2 ) Applications of this effect will be discussed in this lecture. Inductive effect ( part 3 ) Advanced level applications will be covered in this lecture. Inductive effect ( part 4 ) Advanced & interesting points regarding this effect will be considered in this lecture. Electromeric effect ( part 1 ) Electromeric effect is due to delocalisation of pi-electrons in presence of a reagent. Electromeric effect ( part 2 ) Further detailed lecture on this effect. Electromeric effect ( part 3 ) Applications of this effect are discussed in this lecture. Resonance ( part 1 ) Study of Resonance in Organic chemistry is very important & it makes us understand the reaction mechanism in many reactions. Resonance ( part 2 ) Further details of this effect. Resonance ( part 3 ) Applications of Resonance. Hyperconjugation effect ( part 1 ) Knowledge of Hyperconjugation is necessary to explain stability of Carboniun ion, alkene which further helps learn chemistry. Hyperconjugation ( part 2 ) Further details of Hyperconjugation. Hyperconjugation ( part 3 ) Advanced level applications of Hyperconjugation Hyperconjugation ( part 4 ) Advanced level applications of Hyperconjugation. Effects in Organic Chemistry. 14 lectures 05:40:54 Inductive effect ( part 1 ) Inductive effect is based on permanent polarisation of covalent bond. This lecture will go into details of this effect. Inductive effect ( part 2 ) Applications of this effect will be discussed in this lecture. Inductive effect ( part 3 ) Advanced level applications will be covered in this lecture. Inductive effect ( part 4 ) Advanced & interesting points regarding this effect will be considered in this lecture. Electromeric effect ( part 1 ) Electromeric effect is due to delocalisation of pi-electrons in presence of a reagent. Electromeric effect ( part 2 ) Further detailed lecture on this effect. Electromeric effect ( part 3 ) Applications of this effect are discussed in this lecture. Resonance ( part 1 ) Study of Resonance in Organic chemistry is very important & it makes us understand the reaction mechanism in many reactions 's make our concepts more perfect. MCQ 1 ...