Video Lectures 11+12 Chemistry JEE Main level
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Description
This Package includes video Lectures of duration 290 hrs
The details of the topics are as follows:
PHYSICAL CHEMISTRY
1). Introduction to Science : 3 hrs 10 min 49 sec
- 1.Scientific Method, Definition, Laws, Theory : 37 min 31 sec
- 2. Scientific Notation, Method to do Measurement : 38 min 57 sec
- 3. Accuracy, Precision & Error : 43 min 17 sec
- 4. Scientific Figure : 39 min 03 sec
- 5. Unit & Dimension & its use : 30 min 59 sec
2). Introduction to Chemistry : 5 hrs 58 min 47 sec
- 1. Definition of chemistry, atom, Molecule, Element & Compounds : 43 min 17 sec
- 2. Element & Atom’s properties : 43 min 18 sec
- 3. Naming of Inorganic Compounds 1 : 52 min 44 sec
- 4. Naming of Inorganic Compounds 2 : 57 min 01 sec
- 5. Naming of Inorganic Compounds 3 : 38 min 50 sec
- 6. Law of Conservation of atom & mass, Balancing of reaction : 49 min 06 sec
- 7. law of definite, Multiple & reciprocal Proportion : 47 min 26 sec
- 8. Electronic Configuration : 27 min 01 sec
3). Mole Concept : 4 hrs 16 min 01 sec
- 1. Avogadro’s No. : 3o min 47 sec
- 2. Mole & Number : 28 min 11 sec
- 3. Atomic, Molecular Weight : 26 min 03 sec
- 4. Ionic weight, Avg. Atomic Weight : 15 min 20 sec
- 5. Molar weight : 27 min 16 sec
- 6. Molar Volume & Gas Analysis : 30 min 02 sec
- 7. Gas Analysis : 17 min 46 sec
- 8. Empirical Formula Determination : 26 min 26 sec
- 9. Problems on Mole Concept : 54 min 41 sec
4). Stoichiometry : 2 hrs 44 min 41 sec
- 1. Introduction & POAC : 29 min 58 sec
- 2. Mole Stoichiometric relationship : 29 min 29 sec
- 3. Successive reaction & Limiting reagent : 25 min 40 sec
- 4. Gas Stoichiometry : 29 min 47 sec
- 5. Important Types of Reactions : 25 min 18 sec
- 6. Problems on Stoichiometry : 24 min 27 sec
5). Acid base Salt, Oxidation & Reduction 5 hrs 52 min 04 sec
- 1. Acid Base defintion : 23 min 50 sec
- 2. Acidity & Basicity : 32 min 14 sec
- 3. Acidic Strength : 29 min 57 sec
- 4. Acidic Strength : 23 min 46 sec
- 5. Conjugate Acid-Base pair, Basic Strength : 48 min 11 sec
- 6. Oxidation & Reduction : 50 min 43 sec
- 7. Calculation of Oxidation Number : 46 min 09 sec
- 8. O.A. & R.A., Balancing by Oxidation Number Method : 61 min 35 sec
- 9. Balancing by Ion Electron Method : 35 min 36 sec
6). Equivalent weight & n factor, Volumetric Analysis : 2 hrs 49 min 22 sec
- 1. n factor & Eq. Wt. Concept : 46 min 59 sec
- 2. Gm Eq. Concept : 35 min 08 sec
- 3. Volumetric Analysis- % terms, Mole fraction, Molality : 43 min 01 sec
- 4. Volumetric analysis- Molarity, Normality, Problems : 44 min 12 sec
7). Titration : 4 hrs 24 min 18 sec
- 1. Acid Base Titration : 49 min 33 sec
- 2. Acid Base Titration, Indicator : 56 min 11 sec
- 3. Redox Titration : 58 min 02 sec
- 4. Redox Titration, volume Strength of H2O2 : 50 min 38 sec
- 5. Redox Titration, Iodometry, Oleum, Bleaching Powder : 49 min 32 sec
8). Gaseous State : 6 hrs 24 min 31 sec
- 1. Introduction & Boyle’s law : 1 hr 07 min 55 sec
- 2. Manometer, Laws of Ideal gas : 50 min 22 sec
- 3. Ideal Gas Equation : 47 min 05 sec
- 4. MBVD curve : 40 min 52 sec
- 5. Diffusion & Effusion : 39 min 39 sec
- 6. Real Gas Analysis : 51 min 21 sec
- 7. Compressibility factor : 49 min 21 sec
- 8. Liquification of gas & Joule Thomson Coefficient : 37 min 53 sec
9). Thermodynamics & Thermochemistry : 10 hrs 57 min 10 sec
- 1. Zeroth Law of Thermodynamics : 55 min 36 sec
- 2. 1st law – System, Properties, State : 40 min 10 sec
- 3.1st Law, Process, Internal energy, Work : 43 min 39 sec
- 4. Work done in Irreversible process, Isobaric Process : 45 min 15 sec
- 5. Isochoric Process & problems TD : 42 min 27 sec
- 6. Isothermal irreversible Process, Problems on TD : 46 min 04 sec
- 7. Adiabatic Process : 49 min 10 sec
- 8. Thermochemistry & Enthalpy : 38 min 44 sec
- 9. Hess’s Law, Krichoff’s Law : 42 min 50 sec
- 10. Enthalpy of Formation, combustion : 39 min 41 sec
- 11.Enthalpy of Hydrogenation, Hydration, lattice energy : 40 min 09 sec
- 12. Enthapy of Neutralisation, atomisation, Bond Energy : 46 min 51 sec
- 13. 2nd Law, Entropy-positional : 40 min 12 sec
- 14. TD Entropy, 3rd Law, Entropy change in a reaction : 44 min 54 sec
- 15. Gibb’s free energy : 42 min 58 sec
10). Atomic Structure : 12 hrs 44 min 38 sec
- 1. Introduction, Cathode rays & Anode rays : 41 min 46 sec
- 2. J.J. Thomson Model, Millikan Oil Drop Experiment : 38 min 11 sec
- 3. Rutherford Experiment : 51 min 33 sec
- 4. Quantam Mechanics, BlackBody Radiation Experiment : 41 min 05 sec
- 5. Photoelectric Effect : 46 min 45 sec
- 6. Problems on Photoelectric Effect : 35 min 16 sec
- 7. Debroglie wavelength, Spectrum : 44 min 49 sec
- 8. Bohr Theroy : 47 min 17 sec
- 9. H – Spectrum : 49 min 03 sec
- 10. A Problems on Bohr’s Theory : 40 min 11 sec
- 11. Quantum Mechanical Model for Atomic Structure : 47 min 44 sec
- 12. Schrodinger wave equation : 53 min 54 sec
- 13. No. of Orbitals & Quantum no. : 45 min 05 sec
- 14. Orbital Curve, RPD curve, Defintion of Node : 45 min 53 sec
- 15. Calculation of Node, Orbital Picture : 43 min 05 sec
- 16. Multielectron system, Electronic configration : 56 min 14 sec
- 17. Stability of Elec. Configuration : 36 min 38 sec
11). Chemical Equilibrium : 4 hrs 46 min 15 sec
- 1. Introduction, Eqb constant & Eqb Postion : 51 min 36 sec
- 2. Types of Eqb Constant, Reaction Quotient : 44 min 56 sec
- 3. Range of Eqb Constant : 43 min 57 sec
- 4. Problems on Chemical Eqb : 41 min 37 sec
- 5. Problems on Chemical Eqb : 41 min 58 sec
- 6. Le-chatelier Principle : 42 miin 30 sec
- 7. Le-Chatelier Principle : 35 min 24 sec
- 8. Eqb & 2nd Law of TD : 26 min 32 sec
12). Ionic Equilibrium : 9 hrs 9 min 13 sec
- 1. Electrlyte, Dissociation of H2O, Nature of Solution : 46 min 31 sec
- 2. PH scale, Log & Antilog : 40 min 36 sec
- 3. PH of Strong Acid,Base Solution : 51 min 32 sec
- 4. PH of Weak Acid, Base solution : 41 min 36 sec
- 5. PH of mixture of Acids, Bases : 45 min 52 sec
- 6. PH of Polybasic acids : 40 min 36 sec
- 7. PH of Salt Solution 1 : 43 min 24 sec
- 8. PH of salt solution 2 : 52 min 31 sec
- 9. common ion effect, Buffer solution : 48 min 54 sec
- 10. Buffer Capicity : 45 min 35 sec
- 11. Solubility Equilibrium : 47 min 48 sec
- 12. Precipitation of Solid, Qualitative analysis of cation : 44 min 12 sec
13). Solid State : 6 hrs 13 min 03 sec
- 1. Crystalline & Amorphous Solid : 50 min 38 sec
- 2. Bravius lattice & Important Terms of solid state : 48 min 27 sec
- 3. Tpye of Cubic crystal & Closest packed St. : 1 hr 08 min 39 sec
- 4. Tetrahedral & Octahedral Void : 38 min 10 sec
- 5. Tpye of Voids & Radius Ratio : 44 min 53 sec
- 6. Type of ionic solid : 59 min 41 sec
- 7. Defect in Solid : 47 min 54 sec
14). Solution & its Colligative properties : 5 hrs 02 min 34 sec
- 1. Condtion of solution formation, TD of Solution, Henary’s Law : 55 miin 07 sec
- 2. Colligative Properties, Raoult’s Law : 49 min 14 sec
- 3. Relative lowring of V.P. & Problems : 45 min 06 sec
- 4. Non ideal solution, Azeotropic Solution : 46 min 09 sec
- 5. Elevation in B.P., Depression in F.P. : 47 min 36 sec
- 6. Osmotic Pressure, Abnormal C.P. & Van’t Hoff Factor : 59 min 19 sec
15). Chemical Kinetics : 5 hrs 39 min 19 sec
- 1. Rate of reaction : 36 min 55 sec
- 2. Differential Rate Law : 37 min 52 sec
- 3. Integrated Rate Law : 56 min 25 sec
- 4. Integrated Rate problems : 52 min 56 sec
- 5. Pseudo order Reaction : 40 min 26 sec
- 6. Reaction Mechanism : 46 min 58 sec
- 7. Collision Model : 33 min 48 sec
- 8. Arhenius Equation : 33 min 50 sec
16). Electrochemistry : 6 hrs 36 min 18 sec
- 1. Introduction & Galvanic cell : 32 min 40 sec
- 2. Cell Notation & Cell Reaction : 35 min 19 sec
- 3. Electrode & Cell Potential : 38 min 16 sec
- 4. Electrochemical series : 38 min 46 sec
- 5. The Nernst Equation : 39 min 16 sec
- 6. Concentration cell, Battery, Corrosion : 52 min 04 sec
- 7. Electrolysis : 19 min 43 sec
- 8. Faraday Law : 45 min 39 sec
- 9. Resistance & Conductance : 40 min 40 sec
- 10. Molar & Eq. Conductance, Kohlraush’s Law : 29 min 12 sec
- 11. Problems on Resistance & Conductance : 24 min 38 sec
17). Surface Chemistry : 6 hrs 41 min 17 sec
- 1. Introduction & Surface tension & surface energy : 32 min 57 sec
- 2. Adsorption : 46 min 52 sec
- 3. Factors affecting Adsorption : 39 min 15 sec
- 4. Catalysis : 33 min 45 sec
- 5. Type of Catalysis & Enzyme Catalysis : 40 min 46 sec
- 6. Colloidal Solution : 56 min 49 sec
- 7. Type of Colloidal Solution : 42 min 47 sec
- 8. Properties of Colloidal Solution : 50 min 06 sec
- 9. Protective Colloids : 58 min 03 sec
ORGANIC CHEMISTRY
1. Introduction & Nomenclature : 12 hrs 19 min 04 sec
- 1. Introduction & Development of Organic Chemistry : 44 min 32 sec
- 2. Alkane : 59 min 48 sec
- 3. Alkane : 31 min 20 sec
- 4. Alkyl Group & Types of Hydrogen : 1 hr 08 min 17 sec
- 5. Alkene : 54 min 25 sec
- 6. Alkenyl : 31 min 56 sec
- 7. Alkyne & Alkynyl : 47 min 16 sec
- 8. Cycloalkane : 43 min 50 sec
- 9. Cycloalkene : 34 min 56 sec
- 10. Acid & Aldhedye : 45 miin 23 sec
- 11. Ester & Acid Halides : 28 min 15 sec
- 12. Amide & Nitrile : 28 min 24 sec
- 13. Alchol & Sulphonic Acid : 37 min 47 sec
- 14. Isonitrile, Amine, NitroAlkane, Halo Compounds : 39 min 14 sec
- 15. Ketone, Anhydride & Ether : 33 min 54 sec
- 16. Polyfunctional group compounds : 41 min 25 sec
- 17. Aromatic Compounds : 31 min 24 sec
2. GOC 1 – Hybridisation, Resonance & Aromaticity, Uf factor : 8 hrs 49 min 32 sec
- 1. GOC 1 – Concept of Hybridisation : 44 min 35 sec
- 2. GOC 1 – SP3, SP2 Hybridisation : 44 min 37 sec
- 3. GOC 1 – SP Hybridisation, Relative study of SP3, SP2, SP orbitals : 46 min 13 sec
- 4. GOC 1 – Effect of Hybridisation on Bond Length, Planar Nature : 60 min 02 sec
- 5. GOC 1 – Concept of Resonance : 39 min 54 sec
- 6. GOC 1 – Doing Resonance : 39 miin 05 sec
- 7. GOC 1 – Resoance Hybrid, Cannonical St. , Resonance Energy : 18 min 37 sec
- 8. GOC 1 – Condition of Resonance : 44 min 16 sec
- 9. GOC 1 – Writing Cannonical St. : 40 min 50 sec
- 10. GOC 1 – Relative Stability of Cannonical St. : 37 min 50 sec
- 11. GOC 1 – Intoduction to aromaticity : 43 min 18 sec
- 12. GOC 1 – Introduction to aromaticity : 38 min 56 sec
- 13. GOC 1 – Unsatuaration Factor : 31 min 14 sec
3. GOC 2 – Substitutent Effect : 3 hrs 48 min 13 sec
- 1. GOC 2 – Substituent Effect, Hyperconjugation : 48 min 49 sec
- 2. GOC 2 – Substituent Effect, Hyperconjugation : 43 miin 48 sec
- 3. GOC 2 – Substituent Effect, Mesomeric Effect : 47 min 49 sec
- 4. GOC 2 – Substituent Effect, Inductive Effect : 45 min 57 sec
- 5. GOC 2 – Electromeric effect, Staric Effect, Relative M & I Effect : 41 min 48 sec
4. GOC 2 – Reactive Intermediate, Acid, Base, Electrophile, Nucleophile : 5 hrs 53 min
- 6. GOC 2 – Reactive Intermediate, Carbocation : 45 min 37 sec
- 7. GOC 2 – Reactive Intermediate, Carbocation Rearrangement : 41 min 54 sec
- 8. GOC 2 – Reactive Intermediate, Carbonium ion rearrangment : 41 min 52 sec
- 9. GOC 2 – Reactive Intermediate, Carbanion : 36 min 50 sec
- 10. GOC 2 – Reactive Intermediate, Free Radical : 47 min 19 sec
- 11. GOC 2 – Reactive Intermediate, Carbene & Nitrene : 41 min 58 sec
- 12. GOC 2 – Acid Base, Electrophile Nucleophile : 49 min 52 sec
- 13. GOC 2 – Acid Base, Electrophile Nucleophile : 47 min 35 sec
5. Isomerism : 11 hrs 51 min 09 sec
- 1. Structural Isomers : 38 min 56 sec
- 2. Tautomerism : 37 min 10 sec
- 3. Stability of Tautomers : 43 min 41 sec
- 4. Geometrical Isomerism : 41 min
- 5. E-Z Nomenclature, Properties of G.I. : 43 min 43 sec
- 6. No. of G.I., Interconversion of G.I. : 48 min 09 sec
- 7. Optical Isomerism & its conditions : 50 min 28 sec
- 8. Different types of Projections, R-S configuration : 57 min 37 sec
- 9. Relationship between optical isomers : 45 min 47 sec
- 10. Dissymmetry in a Molecule : 44 min 09 sec
- 11. Enantiomers, Mesomers, Diastereomers : 39 min 16 sec
- 12. No. of Optical isomers, Stereoisomers : 44 min 58 sec
- 13. measurement of optical Activity : 38 miin 12
- 1. No. of Isomers : 35 min 20 sec
- 15. Conformational Isomers : 51 min 47 sec
- 16. Conformers of Propane, Butane, Cyclohexane & Problems : 44 min 04 sec
6. Reaction Mechanism : 9 hrs 56 min 43 sec
- 1. Introduction, Types of Organic Reactions : 35 min 47 sec
- 2. Nucleophilic Substitution reaction : 40 min 40 sec
- 3. SN1 & SN2 reaction, SNi Pathway : 53 min
- 4. Reactivity in SN1 & SN2 path : 36 min 02 sec
- 5. Elimination Reaction : 43 min 09 sec
- 6. E1 & E2 reaction, Isotopic Effect : 46 min 02 sec
- 7. Orientation in Elimination reaction : 45 min 06 sec
- 8. Elimination vs Substitution : 33 miin 58 sec
- 9. Addtion Reaction : 51 min 27 sec
- 10. Electrophilic Aromatic Substitution Reaction : 49 min 24 sec
- 11. Orientation in Electrophilic Aromatic Substitution : 53 min 22 sec
- 12. Reactivity in Electrophilic Aromatic Substitution Reaction : 30 min 01 sec
- 13. Nucleophilic Aromatic Substitution : 44 min 42 sec
- 14. Benzyne Pathway : 23 min 31 sec
7. Hydrocarbon: Alkane, Alkene, Alkyne : 13 hrs 02 min 42 sec
- 1. Hydrocarbon – Alkane Preparation : 49 min 16 sec
- 2. Hydrocarbon – Alkane Preparation & Selective Hydrogenation : 30 min 04 sec
- 3. Hydrocarbon – Alkane Preparation : 40 min 10 sec
- 4. Hydrocarbon – Alkane Preparation : 37 min 57 sec
- 5. Hydrocarbon – Alkane Preparation : 31 min 58 sec
- 6. Hydrocarbon – Alkane Properties : 55 min 30 sec
- 7. Hydrocarbon – Alkane Properties & Problems : 39 min 34 sec
- 8. Hydrocarbon – Alkene Preparation : 45 min 12 sec
- 9. Hydrocarbon – Alkene Preparation : 36 min 04 sec
- 10. Hydrocarbon – Alkene Properties : 53 min 33 sec
- 11. Hydrocarbon – Alkene Properties : 40 min 18 sec
- 12. Hydrocarbon – Alkene Properties : 42 min 19 sec
- 13. Hydrocarbon – Alkene Properties & Ozonolysis : 40 min 57 sec
- 14. Hydrocarbon – Alkene Properties, Oxidation, Substitution : 38 min 08 sec
- 15. Hydrocarbon – Alkyne preparation : 36 min 37 sec
- 16. Hydrocarbon – Alkyne Properties : 47 min 56 sec
- 17. Hydrocarbon – Alkyne Properties : 46 min 53 sec
- 18. Aromatic Compounds – Benzene : 41 min 34 sec
- 19. Aromatic Compounds – Aromatic Hydrocarbon : 29 min 40 sec
8). Alkyl Halides : 2 hrs 25 min 28 sec
- 1. Preparation : 38 min 18 sec
- 2. Properties : 48 min 52 sec
- 3. Halofrom Reaction : 28 min 33 sec
- 4. Griginard Reagent : 29 min 42 sec
9). Alcohol & ether : 2 hrs 43 min 19 sec
- 1. Preparation : 35 min 25 sec
- 2. Physical Properties & oxidation of Alcohol : 29 min 41 sec
- 3. Hydrates, Acetal, Ketal : 37 min 47 sec
- 4. Tests of Alchol : 26 min 56 sec
- 5. Ether Prepration & its Properties : 33 min 26 sec
10). Aldehyde & Ketone : 3 hrs 54 min 32 sec
- 1. Preparation : 33 min 21 sec
- 2. Physical Properties, Beckmann Rearrangement, Witting Reaction : 46 min 18 sec
- 3. Schmidt Reaction, Bayer Villegar Oxidation : 22 min 37 sec
- 4. Aldol Condensation Reaction : 39 min 50 sec
- 5. Cannizzaro reaction : 32 min 28 sec
- 6. Reformasky reaction, Tischenko reaction : 19 min 58 sec
- 7. Aldehyde & Ketone Tests : 39 min 57 sec
11). Carboxylic acid & its derivatives : 2 hrs 58 sec
- 1. Carboxylic Acid & its derivatives preparation : 31 min 38 sec
- 2. Chemical Reactions of acids : 31 min 24 sec
- 3. Arndt eistert, Curtius, HVZ, Hoffmann reaction : 38 min 25 sec
- 4. Acid derivatives : 19 min 30 sec
12). Nitrogen containing compounds : 1 hrs 25 min 46 sec
- 1. Alkyl Nitrites, Nitro Alkane : 27 min 33 sec
- 2. Alkane Nitrile & Isonitrile : 20 min 34 sec
- 3. Amine Preparation : 24 min 42 sec
- 4. Properties of Amines : 12 min 55 sec
13). Aromatic Compounds : 3 hrs 57 min 35 sec
- 1. Benzene : 41 min 34 sec
- 2. Aromatic Hydrocarbon : 29 min 40 sec
- 3. Aryl Halides : 18 min 04 sec
- 4. Phenol : 40 min 14 sec
- 5. Aromatic Aldehyde : 39 miin 02 sec
- 6. Aniline : 32 min 10 sec
- 7. Phenyl Diazonium Salts : 36 min 49 sec
14). Biomolecules : 6 hrs 17 min 31 sec
- 1. Introduction & Types of Carbohydrates : 47 min 23 sec
- 2. D-Glucose & D-Fructose : 52 min 29 sec
- 3. Sucrose, Maltose, Lactose : 31 min 32 sec
- 4. Starch, Cellulose, Glycogen : 27 min 40 sec
- 5. Reducing Sugar, Mutarotation, Osazone Formation : 40 min 35 sec
- 6. Amino Acids : 48 min 13 sec
- 7. Peptides : 46 min 46 sec
- 8. Proteins : 18 min 24 sec
- 9. Enzyme & Vitamins : 29 min 48 sec
- 10. Nucleic Acid : 36 min 37 sec
15). Polymer Chemistry & Practical Organic Chemistry : 4 hrs 13 min 27 sec
- 1. Polymerisation Addition Reaction : 32 min 02 sec
- 2. Coordination addition, condensation Reaction : 23 min 51 sec
- 3. Division of Polymer : 41 min 38 sec
- 4. Examples of Polymer : 31 min 32 sec
- 5. Examples of Polymer : 31 min 21 sec
- 6. POC Qualitative Analysis : 23 min 16 sec
- 7. POC Qualitative Analysis : 20 min 26 sec
- 8. POC Quantitative Analysis : 29 min 33 sec
- 9. POC Quantitative Analysis : 14 min 45 sec
INORGANIC CHEMISTRY
1). Chemical Bonding : 22 hrs 35 min 48 sec
- 1. Introduction, definition, Concept & Type of Bonding : 53 min 17 sec
- 2. Ionic Bonding, covalnet bonding : 50 min 42 sec
- 3. Ionic Character in Covalent Bonding, Electronegativity : 34 min 47 sec
- 4. Dipole Moment : 42 min 10 sec
- 5. Fajan’s Rule : 34 min 12 sec
- 6. Model for Covalent Compound, V.B.T. – Lewis St. Model : 55 min 50 sec
- 7. Lewis Structure Model : 45 min 35 sec
- 8. Formal Charge : 46 min 08 sec
- 9. Formal Charge Rule : 44 min 08 sec
- 10. Resonance : 43 min 06 sec
- 11. Merits & Demerits of Lewis St. Model : 44 min 02 sec
- 12. Drawing Lewis St. : 30 min 28 sec
- 13. VSEPR 1 : 49 min 46 sec
- 14. VSEPR 2 : 50 min 50 sec
- 15. VSEPR 3 : 51 min 49 sec
- 16. VSEPR 4 : 33 min 07 sec
- 17. BackBonding : 38 min 20 sec
- 18. Bond Angle determination : 47 min 28 sec
- 19. Concept of Hybridisation : 44 min 35 sec
- 20. Sp3, Sp2 Hybridisation : 44 min 37 sec
- 21. SP hybridisation, Realtive study of SP, SP2, SP3 Hybridisation : 46 min 13 sec
- 22. Hybridsation involving D-orbitals : 39 min 10 sec
- 23. Hybridsation with D-orbitals, Limitaion of Hybridisation : 41 min 36 sec
- 24. Calculation of Hybridisation of Central Atom, Problems : 43 min 03 sec
- 25. Merits & demerits of VBT, Introduction to MOT : 33 min 35 sec
- 26. MO formation, Bond Order : 42 min 59 sec
- 27. MO with P-orbitals, B2, Magnetic Character : 43 min 37 sec
- 28. MO of Diatomic Species, Hetroatomic Species : 51 min 38 sec
- 29. Secondary Bondings : 38 min 51 sec
- 30. H Bonding : 37 min 45 sec
- 31. Metallic Bonding : 52 min 38 sec
2). Periodic Table : 6 hrs 41 min 57 sec
- 1. Development of P.T. : 43 min 43 sec
- 2. Mandeelev P.T. & Mosley, Modern P.T. : 43 min 35 sec
- 3. Modern P.T. & Periodic Properties : 26 min 56 sec
- 4. Atomic Volume & Radius : 52 miin 06 sec
- 5. Atomic Radius, Ionisation Energy : 28 min 32 sec
- 6. Ionisation Energy : 48 min 29 sec
- 7. Electron Affinity, Hydration Energy : 48 min 57 sec
- 8. Electronegativity, Lattice Energy : 46 miin 15 sec
- 9. Oxidising & Reducing Power, Nature of oxides : 38 min 20 sec
- 10. M.P., Density, Bond Energy, Digoanl relation, Inert Pair Effect : 24 min 57 sec
3). Hydrogen & its Compounds : 2 hrs 50 min 26 sec
- Preparation, properties & Type of Hydrogen : 57 miin 42 sec
- Compounds of Hydrogen, Hydrides, Water, Hydrates : 56 min 16 sec
- Hardness of Water, H2O2 : 56 min 28 sec
4). Alkali Metals, Alkaline Earth Metals : 4 hrs 49 min 50 sec
- IA 1 – elemental Properties of Alkali metals& its Compounds : 57 min 25 sec
- IA 2 – Na & its compounds : 1 hr 02 min 37 sec
- IA 3 – Na & its Compounds, Use of Na & K : 26 min 57 sec
- IIA 1 – Elemental Properties : 41 min 33 sec
- IIA 2 – Compounds of IIA Metals : 53 min 29 sec
- IIA 3 – Compounds of Ca : 47 min 46 sec
5). P Block – Boron Family, Carbon Family : 4 hrs 48 min 21 sec
- 1. Introduction to P – Block & IIIA – elemental properties : 51 min 23 sec
- 2. IIIA – General properties of compounds & B-compounds : 39 min 50 sec
- 3. IIIA – Boron compounds, Use of B and Al : 34 min 58 sec
- 4. IVA – Elemental Properties of C family : 46 min 06 sec
- 5. IVA – Allotoropes of C & compounds of C : 1 hr 07 min 38 sec
- 6. IVA – Compounds of Si : 48 min 23 sec
6). P Block- Nitrogen Family : 4 hrs 17 min 34 sec
- 1. VA – Elemental Properties of N family : 51 min 08 sec
- 2. VA – Compounds of N family : 42 miin 43 sec
- 3. VA – N & Its compounds : 45 miin 40 sec
- 4. VA – Oxides & Oxyacids of Nitrogen : 55 min 08 sec
- 5. VA – P & its compounds : 31 min 26 sec
- 6. VA – Oxides & Oxyacids of P : 31 min 27 sec
7). P Block – Oxygen Family : 3 hrs 07 min 38 sec
- VIA 1 – Elemental Properties of O-Family : 31 min 31 sec
- VIA 2 – compounds of VIA elements : 41 min 32 sec
- VIA 3 – Oxygen & Ozone : 43 min 32 sec
- VIA 4 – Sulphur & oxides of Sulphur : 36 min 43 sec
- VIA 5 – Sulphuric Acid : 25 min 18 sec
8). P Block – Halogen : 2 hrs 10 min 31 sec
- VIIA 1 – elemental properties of Halogen : 40 min 09 sec
- VIIA 2 – Compounds of Halogen : 49 min 19 sec
- VIIA 3 – Chlorine & its Compounds : 41 min 02 sec
9). P Block – Noble Gas : 1 hr 07 min 55 sec
- VIIIA 1 – Properties of Noble Gas : 33 min 43 sec
- VIIIA 2 – Compounds of Noble Gas : 34 min 11 sec
10). D Block : 3 hrs 47 min 22 sec
- 1. D block – Elemental Properties : 55 min 36 sec
- 2. D block – Elemental Properties : 1 hr 05 min 27 sec
- 3. D block – Elemental Properties : 53 min 40 sec
- 4. D Block – KMnO4 & K2Cr2O7 : 47 min 30 sec
11) F block : 1 hr 41 min 01 sec
- 1. F block – Lanthanoids : 52 miin 36 sec
- 2. F block – Actinoids : 48 min 25 sec
12). Metallurgy : 4 hrs 4 min 37 sec
- 1. Introduction, Concentration of ore : 49 min 41 sec
- 2. Roasting, Calcination, smelting : 41 min 33 sec
- 3. Refining of metal : 29 min 15 sec
- 4. Pyrometallurgy, electrometallurgy, Hydrometallurgy : 32 min 09 sec
- 5. Ellingham Diagram : 42 min 51 sec
- 6. Extraction of Cu & Fe : 22 min 18 sec
- 7. Extration of Al & Zn : 26 min 48 sec
13). Co-ordination compounds : 9 hrs 47 min 14 sec
- 1. Introduction of Complex Compound, Ligands : 42 min 04 sec
- 2. Classification of Ligands, Denticity : 35 min 16 sec
- 3. Nomenclature of Complex Compounds : 46 min 12 sec
- 4. Nomenclature of Complex Compounds 2 : 39 min 42 sec
- 5. Bonding in Complex Compound, Primary & Secondary Valency : 44 min 05 sec
- 6. Concept of EAN : 29 min 13 sec
- 7. VBT in Complex Compounds : 57 min 55 sec
- 8. Examples on VBT in complex compounds : 31 min 21 sec
- 9. CFT in Complex Compounds : 43 min 32 sec
- 10. CFT for Octahedral & Tetrahedral Complex : 34 min 53 sec
- 11. Colour & Stability of Complex Compounds : 27 min 59 sec
- 12. Structural Isomerism in Complex Compounds : 49 min 08 sec
- 13. Geometrical Isomerism in Complex Compounds : 43 min 16 sec
- 14. Optical Isomerism in Complex Compounds, use of Complex : 61 min 16 sec
- 15. Organometallic Compounds : 29 min 19 sec
14). Environmental Chemistry : 1 hr 35 min 22 sec
- 1. Introduction & Air Pollution : 35 min 39 sec
- 2. Air Pollution : 19 min 43 sec
- 3. Water Pollution : 23 miin 31 sec
- 4. Soil Pollution, Prevention of Pollution : 16 min 28 sec
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