Video Lectures 11+12 Chemistry NEET level
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Description
This Package includes video Lectures of duration 266 hrs 34 min 56 sec
(JEE MAIN SOLUTION of Duration about 50 hrs duration is free with this package)
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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