Course Curriculum

• Some Basic Concepts of Chemistry

  • Matter and Its Classification
    27 minutes
  • Laws of Chemical Combinations and Dalton’s Atomic Theory
    28 minutes
  • Discussion of ICE-1
    9 minutes
  • Some Basic Concepts of Chemistry: Home Assignment – 01
  • Discussion of HA-1
    8 minutes
  • Mole concept, Calculation of Number of Atoms and Molecules
    23 minutes
  • % by Mass, Average Atomic Mass & Avogadro’s Hypothesis.
    12 minutes
  • Boards Level Practice Questions On Mole Concept, Avogadro’s Hypothesis, % By Mass And Average Atomic Mass
    44 minutes
  • Empirical and Molecular Formula
    17 minutes
  • Discussion of ICE-2
    28 minutes
  • Some Basic Concepts of Chemistry: Home Assignment – 02
  • Discussion of HA-2
    24 minutes
  • Stoichiometry and Stoichiometric Calculations
    18 minutes
  • Limiting and Excess Reagent
    19 minutes
  • Discussion of ICE-3
    5 minutes
  • Some Basic Concepts of Chemistry: Home Assignment – 03
  • Discussion of HA-3
    25 minutes
  • Concentration Terms Used in Solutions
    28 minutes
  • Practice Questions on Concentration Terms
    40 minutes
  • Discussion of ICE-4
    15 minutes
  • Some Basic Concepts of Chemistry: Home Assignment – 04
  • Discussion of HA-4
    15 minutes

• Structure of Atom

  • Discovery of Fundamental Particles and Atomic Models
    35 minutes
  • Radioactivity, Moseley X ray Experiment, Definition Related to Atomic Species
    18 minutes
  • Discussion of ICE-1
    17 minutes
  • ICE-1 & HA-1
  • Discussion of HA-1
    25 minutes
  • Nuclear Stability, Dual Nature of Electromagnetic Radiation, Maxwell Wave Theory
    17 minutes
  • Applications and Drawbacks of Wave Theory, Planck’s Quantum theory
    15 minutes
  • Black Body Radiation and Photoelectric Effect
    15 minutes
  • Discussion of ICE-2
    48 minutes
  • ICE-2 & HA-2
  • Discussion of HA-2(Part-1)
    30 minutes
  • Discussion of HA-2(Part-2)
    28 minutes
  • Spectrum, Emission and Absorption Spectra
    10 minutes
  • Hydrogen spectrum and various types of spectral series
    27 minutes
  • Number of spectral lines, concept of limiting line and Bohr’s angular momentum theory
    18 minutes
  • Calculation of energy and velocity of electron, radius of orbit and limitations of bohr’s theory
    25 minutes
  • Discussion of ICE-3
    30 minutes
  • ICE-3 & HA-3
  • Discussion of HA-3(Part-1)
    40 minutes
  • Discussion of HA-3(Part-2)
    33 minutes
  • De broglie wavelength and Heisenberg uncertainity principle
    14 minutes
  • Discussion of ICE-4
    20 minutes
  • ICE-4 & HA-4
  • Discussion of HA-4
    30 minutes
  • Schrodinger wave equation and Quantum numbers-Part 1
    22 minutes
  • Quantum numbers-Part 2
    19 minutes
  • Shapes of orbitals, nodes and nodal planes.
    11 minutes
  • Discussion of ICE-5
    39 minutes
  • ICE-5 & HA-5
  • Discussion of HA-5
    18 minutes
  • Aufbau rule and electronic configuration.
    17 minutes
  • Pauli’s exclusion principle, Hund’s rule and stability of half filled and full filled orbitals.
    23 minutes
  • Discussion of ICE-6
    24 minutes
  • ICE-6 & HA-6
  • Discussion of HA-6
    27 minutes
  • Radial distribution curves.
    9 minutes

• Classification of elements & periodicity in properties

  • Moseley periodic law, nomenclature of elements with atomic number greater than 100.
    18 minutes
  • Prediction of block, group and period of an element.
    21 minutes
  • ICE-1 & HA-1
  • Basics of periodic table.
    14 minutes
  • Types of radii and calculation of radii
    12 minutes
  • Trends in atomic and ionic radii for different cases
    13 minutes
  • Factors affecting atomic and ionic radii
    17 minutes
  • Ionisation energy/Ionisation potential
    12 minutes
  • Factors affecting ionisation energy
    15 minutes
  • Discussion of ICE-2(Part-1)
    22 minutes
  • Discussion of ICE-2(Part-2)
    35 minutes
  • Discussion of HA-2(Part-1)
    10 minutes
  • ICE-2 & HA-2
  • Electron gain enthalpy and electron affinity
    20 minutes
  • Discussion of HA-2(Part-2)
    35 minutes
  • Factors affecting electron affinity.
    6 minutes
  • Electronegativity and its calculation on different scales.
    16 minutes
  • Factors affecting electronegativity.
    12 minutes
  • Applications of electronegativity.
    13 minutes
  • Discussion of ICE-3
    32 minutes
  • ICE-3 & HA-3
  • Discussion of HA-3(Part-1)
    19 minutes
  • Discussion of HA-3(Part-2)
    28 minutes
  • Miscellaneous trends, typical elements and diagonal relationship
    11 minutes
  • Discussion of ICE-4
    9 minutes
  • ICE-4 & HA-4
  • Miscellaneous trends, typical elements and diagonal relationship.

• Chemical bonding and Molecular structure

  • Kossel-Lewis approach and types of bonds
    24 minutes
  • Characteristics of ionic and covalent compounds, bond pair, lone pair & limitations of octet rule
    22 minutes
  • Rules for writing lewis dot structures, formal charge
    17 minutes
  • Discussion of ICE-1 (Part-1)
    20 minutes
  • Discussion of ICE-1 (Part-2)
    25 minutes
  • ICE-1 & HA-1.
  • Dipole moment and its applications
    27 minutes
  • Discussion of HA-1 (Part-1)
    21 minutes
  • Discussion of HA-1 (Part-2)
    17 minutes
  • Discussion of ICE-2 (Part-1)
    36 minutes
  • Discussion of ICE-2 (Part-2)
    19 minutes
  • Discussion of HA-2 (Part-1)
    15 minutes
  • Resonance and resonating structures.
    24 minutes
  • Examples of resonance.
    21 minutes
  • ICE-2 & HA-2.
  • Discussion of HA-2 (Part-2).
    26 minutes
  • VSEPR theory- Part 1.
    16 minutes
  • Discussion of HA-2 (Part-3).
    30 minutes
  • VSEPR theory-Part 2.
    15 minutes
  • Discussion of ICE-3 (Part-1).
    13 minutes
  • VBT, orbital overlap concept and types of covalent bonds.
    35 minutes
  • Discussion of ICE-3 (Part-2).
    38 minutes
  • Discussion of ICE-3 (Part-3).
    14 minutes
  • ICE-3 & HA-3.
  • Hybridisation and formation of sigma and pie bonds in ethane, ethene and ethyne.
    21 minutes
  • Shape, geometry and hybridisation of different compounds.
    25 minutes
  • Short trick to find out hybridisation and isostructural species.
    17 minutes
  • Structures & some important common names, structures of compounds containing multiple central atoms.
    23 minutes
  • Discussion of ICE-4 (Part-1).
    20 minutes
  • Discussion of ICE-4 (Part-2).
  • Discussion of ICE-4 (Part-3).
    17 minutes
  • Discussion of ICE-4 (Part-4).
    32 minutes
  • Discussion of HA-4 (Part-1).
    24 minutes
  • Discussion of HA-4 (Part-2).
    18 minutes
  • ICE-4 & HA-4.
  • Limitations of VBT and hybridisation
    7 minutes
  • Bond angle and relation between bond angle and %s.
    18 minutes
  • Molecular orbital theory(MOT)
    27 minutes
  • Practice questions on MOT
    21 minutes
  • Applications of MOT
    15 minutes
  • Discussion of ICE-5 (Part-1).
    19 minutes
  • Discussion of ICE-5 (Part-2).
    11 minutes
  • Discussion of ICE-5 (Part-3).
    30 minutes
  • Discussion of ICE-5 (Part-4).
    12 minutes
  • ICE-5 & HA-5
  • Discussion of HA-5 (Part-1).
    27 minutes
  • Discussion of HA-5 (Part-2).
    16 minutes
  • Discussion of HA-5 (Part-3).
    5 minutes
  • Hydrogen Bonding and its Types
    14 minutes
  • Consequences of H Bonding
    15 minutes
  • Discussion of ICE-6 & HA-6.
    23 minutes
  • ICE-6 & HA-6.

• States of Matter

  • Types of Intermolecular Forces
    49 minutes
  • Thermal Energy v/s Molecular Interactions
    17 minutes
  • Units of pressure, volume and temperature
    11 minutes
  • Gas laws- Part 1
    27 minutes
  • Gas laws-Part 2
    7 minutes
  • Combined gas equation, ideal gas equation, relation between pressure and density of a gas
    11 minutes
  • Practice questions on gas laws and ideal gas equation
    22 minutes
  • Dalton’s law of partial pressure and its applications
    10 minutes
  • Discussion of ICE-1 (Part-1).
    24 minutes
  • Discussion of ICE-1 (Part-2).
    30 minutes
  • Discussion of HA-1 (Part-1).
    19 minutes
  • Discussion of HA-1 (Part-2).
    16 minutes
  • Discussion of HA-1 (Part-3).
    21 minutes
  • Discussion of HA-1 (Part-4).
    20 minutes
  • Practice questions on Dalton’s law.
    12 minutes
  • KTG, types of speeds and kinetic gas equation
    13 minutes
  • Discussion of ICE-2.
    44 minutes
  • Discussion of HA-2.
    29 minutes
  • Deviation from ideal gas behaviour, real gas equation and significance of vanderwaal parameters
    28 minutes
  • Practice questions on real gas equation
    12 minutes
  • Liquefaction of gases, critical constants and critical gas equation
    14 minutes
  • Discussion of ICE-3 (Part-1).
    20 minutes
  • Discussion of ICE-3 (Part-2) & Discussion of HA-3.
    18 minutes
  • Boiling point, vapour pressure and surface tension.
    13 minutes
  • Capillarity, viscosity and Newton’s law of viscosity.
    15 minutes
  • Discussion of ICE-4 & HA-4.
    26 minutes
  • ICE-1 & HA-1.
  • ICE-2 & HA-2.
  • ICE-3 & HA-3.
  • ICE-4 & HA-4.
  • ICE-5 & HA-5.

• Redox Reactions

  • Introduction to redox reaction
    59 minutes
  • Examples of Redox reaction
    14 minutes
  • Competitive Electron Transfer reactions
    25 minutes
  • Oxidation Number
    43 minutes
  • Applications of oxidation number
    14 minutes
  • Discussion of ICE-1 (Part-1).
    11 minutes
  • ICE-1 & HA-1.
  • Types of redox reactions- Part-1.
    25 minutes
  • Types of redox reactions- Part-2.
    33 minutes
  • Balancing of redox reactions.
    47 minutes
  • Discussion of ICE-1 (Part-2).
    19 minutes
  • Discussion of ICE-1 (Part-3).
    35 minutes
  • Balancing of Redox reactions by oxidation number method
    30 minutes
  • Discussion of ICE-2 (Part-1)
    18 minutes
  • Discussion of ICE-2 (Part-2)
    18 minutes
  • ICE-2 & HA-2

• Hydrogen

  • Introduction to hydrogen,similarities & differences of hydrogen with alkali metals and halogens
    44 minutes
  • Hydrides : Ionic, covalent and interstitial Hydrides
    43 minutes
  • Structure, Physical properties of Water and Ice
    15 minutes
  • Chemical Properties of Water
    33 minutes
  • Types of Hardness and methods to remove hardness
    50 minutes
  • Dihydrogen as a fuel,Heavy water
    17 minutes
  • Discussion of ICE-1 & HA-1.
    10 minutes
  • Discussion of ICE-2 & HA-2.
    30 minutes
  • Discussion of ICE-3 & HA-3.
    18 minutes
  • ICE-1 & HA-1.
  • ICE-2 & HA-2.
  • ICE-3 & HA-3.

• S-Block Elements

  • Introduction and General Properties of Alkali metals
    39 minutes
  • Physical Properties of alkali metals
    47 minutes
  • Chemical Properties and uses of alkali metals
    55 minutes
  • General properties of compounds of alkali metals
    30 minutes
  • Difference between Li and Alkali metals, Diagonal Relationship of Li & Mg
    31 minutes
  • Discussion of ICE-1
    23 minutes
  • Discussion of HA-1
    13 minutes
  • Introduction and general Properties of alkaline earth metals
    31 minutes
  • Physical Properties of alkaline earth metals-Part-1
    9 minutes
  • Physical Properties Of Alkaline earth metals-Part-2
    7 minutes
  • Chemical Properties of Alkaline earth metals
    32 minutes
  • General characteristics of compounds of alkaline earth metals
    51 minutes
  • Anomalous behaviour of Be ,Diagonal relationship of Be and Al
    16 minutes
  • ICE-1 & HA-1.
  • ICE-2 & HA-2.
  • ICE-3 & HA-3.
  • ICE-4 & HA-4.

• P-block elements

  • Introduction of P-block elements
    45 minutes
  • General Properties and Physical Properties of group-13
    40 minutes
  • Chemical Properties of Group-13
    33 minutes
  • Important trends and anomalous properties of Boron
    15 minutes
  • General Characteristics of compounds of Group-13
    30 minutes
  • General & Physical properties of Group-14
    28 minutes
  • Chemical properties of Group-14
    27 minutes
  • General characteristics of compounds of Group-14
    21 minutes
  • Allotropes of carbon
    16 minutes
  • ICE-1 & HA-1.
  • ICE-2 & HA-2.
  • ICE-3 & HA-3.
  • ICE-4 & HA-4.

• Thermodynamics.

  • Introduction of thermodynamics, types of systems, macroscopic properties.
    23 minutes
  • Types of thermodynamics processes, reversible & irreversible processes.
    15 minutes
  • General expression for work done, units of work done & sign convention.
    13 minutes
  • Zeroth law & first law of thermodynamics.
    9 minutes
  • ICE-1 & HA-1.
  • Enthalpy, heat capacity.
    17 minutes
  • Calculation of work done, change in internal energy & change in enthalpy.
    16 minutes
  • Boards level practice questions on work done, change in internal energy & change in enthalpy.
    16 minutes
  • ICE-2 & HA-2.
  • Thermochemistry & its importance, Hess’s law & various types of enthalpies.
    32 minutes
  • Practice questions on enthalpy calculations in thermochemistry.
    32 minutes
  • Calorimetry & calculations in calorimetry.
    7 minutes
  • Enthalpy of solution, Born Haber cycle.
    9 minutes
  • ICE-3 & HA-3.
  • Bond enthalpy & enthalpy of neutralisation.
    9 minutes
  • Practice questions on bond enthalpy & enthalpy of neutralisation.
    18 minutes
  • Limitations of first law, concept of spontaneity, entropy & second law.
    15 minutes
  • Practice questions on entropy calculations.
    15 minutes
  • Third law of thermodynamics, Gibbs free energy.
    14 minutes
  • Practice questions on gibbs free energy.
    15 minutes
  • ICE-4 & HA-4.

• Equilibrium

  • Introduction to equilibrium,Law of chemical equilibrium
    38 minutes
  • Important characteristics of Kc,Relationship b/w Kf, Kb &Kc
    17 minutes
  • Equilibrium constant for gaseous system
    21 minutes
  • Degree of dissociation
    39 minutes
  • Types of equilibrium & Applications of Equilibrium constant
    34 minutes
  • Relationship between Gibb’s Free energy, Q and K
    28 minutes
  • Factors affecting equilibrium
    50 minutes
  • Introduction to Ionic Equilibrium
    23 minutes
  • Calculation of pH and pOH, Ionic product of water
    25 minutes
  • Ionisation Constant for acids and bases
    13 minutes
  • Numericals based on calculation of pH, pOH, ionisation constants
    37 minutes
  • Relationship b/w Ka, kb and Kw
    23 minutes
  • Common Ion Effect and Numericals based on Common Ion Effect
    50 minutes
  • Numericals based on Ionic equilibrium
    25 minutes
  • Buffer Solutions
    20 minutes
  • Solubility and Solubility Product
    17 minutes

• Organic Chemistry : Some Basic Principles and Techniques

  • Bonding & Structural representation of organic compounds
    34 minutes
  • ICE-1 & HA-1
  • 3-D Representation of Organic Compounds and Classification of Organic Compounds
    18 minutes
  • Homologous Series and Nomenclature of Organic Compounds- Part 1.
    50 minutes
  • Nomenclature of organic compounds- Part 2.
    30 minutes
  • Nomenclature of organic compounds- Part 3.
    20 minutes
  • Nomenclature of organic compounds- Part 4.
    22 minutes
  • Nomenclature of benzenoid compounds
    12 minutes
  • ICE-2 & HA-2.
  • Isomerism in Organic Compounds
    27 minutes
  • Types of fission in organic compounds
    25 minutes
  • Nucleophiles and Electrophiles
    9 minutes
  • Inductive Effect
    19 minutes
  • Electromeric Effect
    10 minutes
  • Resonance or Mesomeric Effect
    27 minutes
  • Hyperconjugation Effect
    16 minutes
  • ICE-3 & HA-3.
  • ICE-4 & HA-4.
  • Purification methods.
    14 minutes
  • Qualitative Analysis.
    12 minutes
  • ICE-5 & HA-5.
  • Quantitative Analysis.
    15 minutes
  • Practice questions on Quantitative Analysis.
    14 minutes
  • ICE-6 & HA-6.

• Hydrocarbons

  • Classification & Nomenclature of hydrocarbons
    16 minutes
  • Preparation of alkanes- Part-1
    31 minutes
  • Preparation of alkanes- Part-2
    39 minutes
  • Physical Properties of Alkanes
    17 minutes
  • Chemical properties of alkanes- Part-1
    17 minutes
  • Chemical properties of alkanes- Part-2
    26 minutes
  • Chemical properties of alkanes- Part-3
    6 minutes
  • Discussion of ICE-2 & HA-2.
    16 minutes
  • Conformations
    44 minutes
  • Relative Stability of Conformations
    7 minutes
  • Isomerism & Nomenclature of alkenes
    28 minutes
  • Preparation of Alkenes
    28 minutes
  • Physical Properties of Alkenes
    26 minutes
  • Chemical properties of alkenes- Part-1
    41 minutes
  • Chemical properties of alkenes- Part-2
    36 minutes
  • Chemical properties of alkenes- Part-3
    38 minutes
  • Nomenclature and isomerism of alkynes
    10 minutes
  • Preparation of alkynes
    8 minutes
  • Physical and chemical properties of alkynes- Part-1
    16 minutes
  • Chemical Properties of Alkynes- Part-2
    29 minutes
  • Nomenclature, Isomerism and Structure of Benzene
    13 minutes
  • Resonance of Benzene and Criteria for Aromaticity
    19 minutes
  • Preparation of Benzene
    6 minutes
  • Chemical Properties of Benzene- Part-1
    8 minutes
  • Chemical Properties of Benzene- Part-2
    38 minutes
  • Directive Influence of a Functional Group in Monosubstituted Benzene
    29 minutes
  • Discussion of ICE-3 & HA-3.
    26 minutes
  • Discussion of ICE-4 & HA-4.
    12 minutes
  • Discussion of ICE-5 & HA-5.
    26 minutes
  • ICE-1 & HA-1.
  • ICE-2 & HA-2.
  • ICE-3 & HA-3.
  • ICE-4 & HA-4.
  • ICE-5 & HA-5.

• Environmental Chemistry

  • Environmental Pollutant
    21 minutes
  • Greenhouse and Global Warming
    13 minutes
  • Acid Rain
    11 minutes
  • Photochemical Smog
    14 minutes
  • Ozone Depletion
    14 minutes
  • Water pollution
    21 minutes
  • Soil pollution
    23 minutes
  • Green chemistry
    9 minutes
  • ICE-1 & HA-1
  • ICE-2 & HA-2
  • ICE-3 & HA-3