| Subject | chemistry | Medium | ENGLISH |
|---|---|---|---|
| Faculty | NV Sir | Status | AVAILABLE |
| Category | COMPLETE COURSE | Lecture | 96 |
| Target | XI XII XIII | Books | QUESTION BANK ATTACHED |
| You May Pay in Installments through Credit Card | |||
| Product Type | Prices | Validity | |
|---|---|---|---|
| USB | 6000 10%OFF 5400 | 2 year |
| Lecture# | Description | Duration |
|---|---|---|
| 01 | Dobereiner's triad, Newland’s octave law, lother meyer curve, Mendeleev's periodic table. Moseley's periodic table | 31 Minutes |
| 02 | Periodicity, blocks in periodic table, diagonal relationship, naming of element z > 100, Determination of period & block, Ionic radius | 37 Minutes |
| 03 | Covalent radius, vanderwaal radius, effective nuclear charge, shielding effect/screening effect, slater’s law | 34 Minutes |
| 04 | Factor affecting atomic radius. trend of atomic radius exception of atomic radius, lanthanide contraction. | 40 Minutes |
| 05 | Ionisation energy, Factors affective IE, Trend in I.E. | 27 Minutes |
| 06 | Exceptions in ionisation energy,Comparison of IE1 & IE2,Application of IE ionisation energy | 40 Minutes |
| 07 | Electron affinity, electron gain enthalpy, factor affecting electron affinity, | 41 Minutes |
| 08 | Second electron gain enthalpy,Electronegativity, Pauling scale, mulliken scale, Hanny smith of formula. | 44 Minutes |
| 09 | Nature of XOH Acidic, basic, neutral and amphoteric oxide, Nature of oxide, Hydroxide and oxyacids, Inert pair effect |
50 Minutes |
| Lecture# | Description | Duration |
|---|---|---|
| 01 | Chemical bond, ionic bond, lattice energy, born haber cycle, Hess law | 46 Minutes |
| 02 | Properties of ionic compound, Hydration & Hydration energy. Solubility in water. | 39 Minutes |
| 03 | Factors affecting Hydration Energy, Solubility order, Covalent bond, Lewis concept. | 38 Minutes |
| 04 | Lewis structure, Exception of Lewis rule, Hypovalent, Hypervalent, odd electron species, coordinate bond formation, lewis acid & base. | 42 Minutes |
| 05 | Formal charge, Resonance | 46 Minutes |
| 06 | Valence bond theory (VBT) ,axial & Lateral overlapping,ðž‚ bond, Π bond, ð›… bond | 49 Minutes |
| 07 | Hybridisation-sp, sp2, sp3, sp3d, sp3d2, sp3d3 | 48 Minutes |
| 08 | Steric number rule for hybridisation, Valence shell electron pair repulsion theory VSEPR | 48 Minutes |
| 09 | Examples of sp & sp2 Hybridisation | 41 Minutes |
| 10 | Fullerenes, diamond, Compounds of phosphorus & sulphur. | 53 Minutes |
| 11 | Compounds of silicon, Silica, orthosilicate, pyrosilicate, chain silicate, cyclic silicate, double chain silicate |
50 Minutes |
| 12 | Silicons, equivalent and nonequivalent hybrid orbitals bent rule | 42 Minutes |
| 13 | Examples of sp3d, sp3d2 & sp3d3 Hybridisation, Drago’s rule. | 40 Minutes |
| 14 | Molecular orbital theory (MOT), linear combination of atomic orbital (LCAO) | 46 Minutes |
| 15 | MOT examples , s-p mixing ,O2, F2, H2, N2, Ne2 | 1 hrs |
| 16 | HOMO & LUMO,GERADE & UNGERADE,Dipole moment & ionic character in ionic compound | 37 Minutes |
| 17 | Application of dipole moment % ionic character by dipole moment fazan, rule, covalent character in ionic compound | 57 Minutes |
| 18 | Application of fajan's rule, Banana bonding in diborane. | 50 Minutes |
| 19 | Back bonding in BF3 examples of back bonding | 44 Minutes |
| 20 | Bond angle comparison bond length & bond strength comparison. | 37 Minutes |
| 21 | pðš· - dðš· bonding, pðš· - pðš· bonding Solubility due to hydrolysis of BF3, SiCl4, PCl3, compound, Interhalogen |
21 Minutes |
| 22 | Metallic bonding, H bonding, intermolecular H-bonding Intramolecular H bonding | 49 Minutes |
| 23 | Examples of h-bonding, van der waal forces( ion-dipole, dipole-dipole , ion-induced dipole, dipole-induced dipole, london dispersion forces) | 55 Minutes |
| 24 | Factors affecting van der waal forces , existence and nonexistence of molecules | 43 Minutes |
| Lecture# | Description | Duration |
|---|---|---|
| 01 | Member of boron family. Physical properties (radius, oxidation state, ionisation energy, electronegativity, density) Chemical properties (reactivity with air) Anomalous behaviour of B Diagonal relationship between B & Si. |
28 Minutes |
| 02 | Formation of boron, compounds of boron, B3O3, boric acid, borax bead test. | 27 Minutes |
| 03 | Diborane, borazine, boron nitride, back bonding in BF3. | 49 Minutes |
| 04 | Aluminium, Compounds, Al2O3, Al(OH)3, AlCl3 ,Carbon family, Inert Pair effect, order of ionisation energy, electronegativity, Atomic radius, Anomalous behaviour of carbon. | 38 Minutes |
| 05 | Allotropes of carbon, diamond, graphite, fullerene, reactivity with O2., H2O & X2. | 34 Minutes |
| 06 | Compound of carbon,Carbon monoxide,Carbon dioxide,Carbonic acid,Compounds of silicon,Silica | 27 Minutes |
| 07 | Ortho silicate,Pyrosilicate ,Cyclic silicate,Chain silicate,Double chain silicate,Sheet silicate,3D silicate,Silicates,Compounds of tin & & Lead | 29 Minutes |
| Lecture# | Description | Duration |
|---|---|---|
| 01 | Physical and chemical properties of alkali metal( ionisation energy, atomic radius , physical appearance, b.p. And m.p.) | 32 Minutes |
| 02 | Reaction of alkali metal with O2, h2O, halogen, carbon, reducing nature of alkali metal , solution in liquid ammonia, anomalous behaviour of lithium | 44 Minutes |
| 03 | Diagonal relationship between lithium and magnesium, compounds of sodium Na2O2, formation of NaOH | 29 Minutes |
| 04 | Properties of NaOH, , Na2CO3, sovay process , NaHCO3 | 22 Minutes |
| 05 | Microcosmic salt, compounds of potassium, solution in liq. Ammonia | 8 Minutes |
| 06 | Physical and chemical properties of alkaline earth metal( ionisation energy, atomic radius , physical appearance, b.p. And m.p.) | 38 Minutes |
| 07 | Hydride , hydroxide, oxide , nitride of alkaline earth metal | 20 Minutes |
| 08 | anomalous behaviour of berylium,Diagonal relationship between berylium and aluminium, compounds of Mg and Ca, gypsum and plaster of paris |
| Lecture# | Description | Duration |
|---|---|---|
| 01 | Types of ore, Methods of metallurgy, crushing grinding, concentration, gravity separation, magnetic separation, froth floatation. | 38 Minutes |
| 02 | Leaching, calcination, roasting, flux, slag, reduction with carbon, carbon monoxide, self reduction. Electrolytic reduction is fused / aqueous solution. | 40 Minutes |
| 03 | Reduction with Al, Mg, H2, Thermal decomposition, metal displacement reduction, metallurgy of Aq & Au, Macarthur forrest cyanide method, copper extraction. | 38 Minutes |
| 04 | Extraction of Pb, Zn, Hg, Sn, Fe, Al, bayer methode, Hall, serpeck, Hall-Heroult method. | 42 Minutes |
| 05 | Extraction of Mg, Dow process, Extraction of sodium purification method Liquidation, Distillation Vapour phase refining, poling process, Mond process, Van Arkel method, Electrolytic refining. | 46 Minutes |
| 06 |
Parting with Cl2, concentrated H2So4, Parke process, Thermodynamic of metallurgy Ellingham diagram.
|
50 Minutes |
| Lecture# | Description | Duration |
|---|---|---|
| 01 | Simple salt, mixed salt, double salt, coordination compound, central atom, ligand, coordination number, oxidation number :- | 30 Minutes |
| 02 | Denticity, flexidentate, Ambidentate liquid | 24 Minutes |
| 03 | Coordination polyhedron, Naming of central atom, cationic ligand, neutral ligand, anionic ligand | 27 Minutes |
| 04 | Naming of anionic ligand , rules for naming of complex salt, formula of complex , naming of complex having bridging ligand | 1 hr 02 Minutes |
| 05 | Name of complex containing bridging ligand, reaction with AgNO3, reaction with BaCl2 electrical conductivity | 32 Minutes |
| 06 | Reaction with conc. H2SO4, Werner’s theory, Sidgwick EAN rule. | 23 Minutes |
| 07 | Valence bond Theory (VBT) | 40 Minutes |
| 08 | Crystal field theory for octahedral complex. | 37 Minutes |
| 09 | Crystal field theory (octahedral complex Examples) | 51 Minutes |
| 10 | Crystal field theory (octahedral complex Examples), CFT for square planar complex, CFT for tetrahedral complex, structural isomerism, ionisation, hydrate, ligand , linkage, coordination isomerism | 1 hr 05 Minutes |
| 11 | Examples of tetrahedral complex, factors affecting crystal field splitting energy | 54 Minutes |
| 12 | Stereoisomerism, geometrical & optical isomerism | 57 Minutes |
| 13 | Optical isomerism in octahedral complex & factors affecting splitting | 45 Minutes |
| 14 | Properties of coordination compound stability, magnetic nature, colour, d-d transition. | 53 Minutes |
| 15 | Charge transfer in brown ring, sodium nitroprusside, back bonding in metal carbonyl, Delta bond, synergic bonding, bonded organometallic compound,ferrocene, zeise salt. | 1 hr 01 Minute |
| Lecture# | Description | Duration |
|---|---|---|
| 01 | Physical properties of nitrogen family (atomic radius, Ionisation energy, Electronegativity, Oxidation state), Chemical properties (Hydride, Oxide, Halide) | 46 Minutes |
| 02 | Compounds of Nitrogen, N2, NH3, N2O, NO |
34 Minutes |
| 03 | Compounds of Nitrogen N2O3, N2O4, N2O5, HNO2, HNO3 allotropes of phosphorus (white, red, black) |
31 Minutes |
| 04 | Compounds of phosphorus, PH3, P4O6, P4O10, PCl3, PCl5 | 30 Minutes |
| 05 | Physical properties of oxygen family (atomic radius, Ionisation energy, Electronegativity, Oxidation state), Chemical properties (Hydride, Oxide, Halide), dioxygen, types of oxide(acidic,basic,neutral,amphoteric,mixed oxide), ozone ,hydrogen peroxide | 34 Minutes |
| 06 | Allotropes of sulphur, H2S, SO2, SO3, Hypo solution Na2S2O3 | 20 Minutes |
| Lecture# | Description | Duration |
|---|---|---|
| 01 | Properties of Halogen family members, Atomic radius,Ionisation,enthalpy,Electronegativity, Bond energy,Anomalous behaviour of fluorine | 27 Minutes |
| 02 | Properties of F2, Cl2, Br2, I2 Haloger acid HCl, HBr, HI | 28 Minutes |
| 03 | Properties of HF, CaOCl2, HOCl, HClO2, HClO3. Bleaching powder CaOCl2 | 32 Minutes |
| 04 | HClO4, Interhalogen Compounds & their Hydrolysis, Pseudo halide, Pseudo Halogen Noble gas |
22 Minutes |
| 05 | Properties (atomic radius, Mp, b.p. ionisation energy) of noble gas family Reaction with xenon with F2 & H2, addition compound, Hydrolysis reaction |
21 Minutes |
| Lecture# | Description | Duration |
|---|---|---|
| 01 | Transition metal, general configuration atomic radius, ionization energy. | 33 Minutes |
| 02 | Density, melting point, oxidation state, standard electrode potential, colour, magnetic properties, nature of oxide, interstitial compound, catalytic properties, alloy formation | 33 Minutes |
| 03 | Potassium dichromate, Potassium permanganate ,AgBr photography. | 39 Minutes |
| Lecture# | Description | Duration |
|---|---|---|
| 01 | Preliminary test, Dry Heating test, Flame test, Borax bead test, Charcoal cavity test. Cobalt nitrate test. | 35 Minutes |
| 02 | Group A anion, radial | 25 Minutes |
| 03 | ,s2- | 20 Minutes |
| 04 | starch / iodide test, Brown ring test, CH3 COO- | 25 Minutes |
| 05 | ,Iodometry test | 25 Minutes |
| 06 | Cl- , F- , Br- , I- | 59 Minutes |
| 07 | Nitrate,oxalate, borate ion | 36 Minutes |
| 08 | Group B anion Sulphate,phosphate,permanganate,chromate anion | 26 Minutes |
| 09 | Cation (basic radical) Zero group- Ist group- Pb+2 | 15 Minutes |
| 10 | Ist group - Ag+ , Hg+2 | 29 Minutes |
| 11 | II A group - IIA & IIB IIA - Cu+2 , Bi+3 , Pb+2 , Cd+2 , Hg+2 | 40 Minutes |
| 12 | III group - Al+3 , Fe+3 , Cr+3 IV group - Mn+2 | 30 Minutes |
| 13 | V group - Ba+2 , Sr+2 , Ca+2 VI group - Mg+2 | 26 Minutes |