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 11th Chemistry : Boards
11th Chemistry : Boards
These courses are specially designed keeping in mind the target exam of students. Lesson wise planning and worksheets gives a smooth learning experience
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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 ICE1
9 minutes

Some Basic Concepts of Chemistry: Home Assignment – 01

Discussion of HA1
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 ICE2
28 minutes

Some Basic Concepts of Chemistry: Home Assignment – 02

Discussion of HA2
24 minutes

Stoichiometry and Stoichiometric Calculations
18 minutes

Limiting and Excess Reagent
19 minutes

Discussion of ICE3
5 minutes

Some Basic Concepts of Chemistry: Home Assignment – 03

Discussion of HA3
25 minutes

Concentration Terms Used in Solutions
28 minutes

Practice Questions on Concentration Terms
40 minutes

Discussion of ICE4
15 minutes

Some Basic Concepts of Chemistry: Home Assignment – 04

Discussion of HA4
15 minutes

Matter and Its Classification

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 ICE1
17 minutes

ICE1 & HA1

Discussion of HA1
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 ICE2
48 minutes

ICE2 & HA2

Discussion of HA2(Part1)
30 minutes

Discussion of HA2(Part2)
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 ICE3
30 minutes

ICE3 & HA3

Discussion of HA3(Part1)
40 minutes

Discussion of HA3(Part2)
33 minutes

De broglie wavelength and Heisenberg uncertainity principle
14 minutes

Discussion of ICE4
20 minutes

ICE4 & HA4

Discussion of HA4
30 minutes

Schrodinger wave equation and Quantum numbersPart 1
22 minutes

Quantum numbersPart 2
19 minutes

Shapes of orbitals, nodes and nodal planes.
11 minutes

Discussion of ICE5
39 minutes

ICE5 & HA5

Discussion of HA5
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 ICE6
24 minutes

ICE6 & HA6

Discussion of HA6
27 minutes

Radial distribution curves.
9 minutes

Discovery of Fundamental Particles and Atomic Models

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

ICE1 & HA1

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 ICE2(Part1)
22 minutes

Discussion of ICE2(Part2)
35 minutes

Discussion of HA2(Part1)
10 minutes

ICE2 & HA2

Electron gain enthalpy and electron affinity
20 minutes

Discussion of HA2(Part2)
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 ICE3
32 minutes

ICE3 & HA3

Discussion of HA3(Part1)
19 minutes

Discussion of HA3(Part2)
28 minutes

Miscellaneous trends, typical elements and diagonal relationship
11 minutes

Discussion of ICE4
9 minutes

ICE4 & HA4

Miscellaneous trends, typical elements and diagonal relationship.

Moseley periodic law, nomenclature of elements with atomic number greater than 100.

Chemical bonding and Molecular structure

KosselLewis 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 ICE1 (Part1)
20 minutes

Discussion of ICE1 (Part2)
25 minutes

ICE1 & HA1.

Dipole moment and its applications
27 minutes

Discussion of HA1 (Part1)
21 minutes

Discussion of HA1 (Part2)
17 minutes

Discussion of ICE2 (Part1)
36 minutes

Discussion of ICE2 (Part2)
19 minutes

Discussion of HA2 (Part1)
15 minutes

Resonance and resonating structures.
24 minutes

Examples of resonance.
21 minutes

ICE2 & HA2.

Discussion of HA2 (Part2).
26 minutes

VSEPR theory Part 1.
16 minutes

Discussion of HA2 (Part3).
30 minutes

VSEPR theoryPart 2.
15 minutes

Discussion of ICE3 (Part1).
13 minutes

VBT, orbital overlap concept and types of covalent bonds.
35 minutes

Discussion of ICE3 (Part2).
38 minutes

Discussion of ICE3 (Part3).
14 minutes

ICE3 & HA3.

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 ICE4 (Part1).
20 minutes

Discussion of ICE4 (Part2).

Discussion of ICE4 (Part3).
17 minutes

Discussion of ICE4 (Part4).
32 minutes

Discussion of HA4 (Part1).
24 minutes

Discussion of HA4 (Part2).
18 minutes

ICE4 & HA4.

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 ICE5 (Part1).
19 minutes

Discussion of ICE5 (Part2).
11 minutes

Discussion of ICE5 (Part3).
30 minutes

Discussion of ICE5 (Part4).
12 minutes

ICE5 & HA5

Discussion of HA5 (Part1).
27 minutes

Discussion of HA5 (Part2).
16 minutes

Discussion of HA5 (Part3).
5 minutes

Hydrogen Bonding and its Types
14 minutes

Consequences of H Bonding
15 minutes

Discussion of ICE6 & HA6.
23 minutes

ICE6 & HA6.

KosselLewis approach and types of bonds

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 lawsPart 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 ICE1 (Part1).
24 minutes

Discussion of ICE1 (Part2).
30 minutes

Discussion of HA1 (Part1).
19 minutes

Discussion of HA1 (Part2).
16 minutes

Discussion of HA1 (Part3).
21 minutes

Discussion of HA1 (Part4).
20 minutes

Practice questions on Dalton’s law.
12 minutes

KTG, types of speeds and kinetic gas equation
13 minutes

Discussion of ICE2.
44 minutes

Discussion of HA2.
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 ICE3 (Part1).
20 minutes

Discussion of ICE3 (Part2) & Discussion of HA3.
18 minutes

Boiling point, vapour pressure and surface tension.
13 minutes

Capillarity, viscosity and Newton’s law of viscosity.
15 minutes

Discussion of ICE4 & HA4.
26 minutes

ICE1 & HA1.

ICE2 & HA2.

ICE3 & HA3.

ICE4 & HA4.

ICE5 & HA5.

Types of Intermolecular Forces

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 ICE1 (Part1).
11 minutes

ICE1 & HA1.

Types of redox reactions Part1.
25 minutes

Types of redox reactions Part2.
33 minutes

Balancing of redox reactions.
47 minutes

Discussion of ICE1 (Part2).
19 minutes

Discussion of ICE1 (Part3).
35 minutes

Balancing of Redox reactions by oxidation number method
30 minutes

Discussion of ICE2 (Part1)
18 minutes

Discussion of ICE2 (Part2)
18 minutes

ICE2 & HA2

Introduction to redox reaction

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 ICE1 & HA1.
10 minutes

Discussion of ICE2 & HA2.
30 minutes

Discussion of ICE3 & HA3.
18 minutes

ICE1 & HA1.

ICE2 & HA2.

ICE3 & HA3.

Introduction to hydrogen,similarities & differences of hydrogen with alkali metals and halogens

SBlock 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 ICE1
23 minutes

Discussion of HA1
13 minutes

Introduction and general Properties of alkaline earth metals
31 minutes

Physical Properties of alkaline earth metalsPart1
9 minutes

Physical Properties Of Alkaline earth metalsPart2
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

ICE1 & HA1.

ICE2 & HA2.

ICE3 & HA3.

ICE4 & HA4.

Introduction and General Properties of Alkali metals

Pblock elements

Introduction of Pblock elements
45 minutes

General Properties and Physical Properties of group13
40 minutes

Chemical Properties of Group13
33 minutes

Important trends and anomalous properties of Boron
15 minutes

General Characteristics of compounds of Group13
30 minutes

General & Physical properties of Group14
28 minutes

Chemical properties of Group14
27 minutes

General characteristics of compounds of Group14
21 minutes

Allotropes of carbon
16 minutes

ICE1 & HA1.

ICE2 & HA2.

ICE3 & HA3.

ICE4 & HA4.

Introduction of Pblock elements

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

ICE1 & HA1.

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

ICE2 & HA2.

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

ICE3 & HA3.

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

ICE4 & HA4.

Introduction of thermodynamics, types of systems, macroscopic properties.

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

Introduction to equilibrium,Law of chemical equilibrium

Organic Chemistry : Some Basic Principles and Techniques

Bonding & Structural representation of organic compounds
34 minutes

ICE1 & HA1

3D 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

ICE2 & HA2.

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

ICE3 & HA3.

ICE4 & HA4.

Purification methods.
14 minutes

Qualitative Analysis.
12 minutes

ICE5 & HA5.

Quantitative Analysis.
15 minutes

Practice questions on Quantitative Analysis.
14 minutes

ICE6 & HA6.

Bonding & Structural representation of organic compounds

Hydrocarbons

Classification & Nomenclature of hydrocarbons
16 minutes

Preparation of alkanes Part1
31 minutes

Preparation of alkanes Part2
39 minutes

Physical Properties of Alkanes
17 minutes

Chemical properties of alkanes Part1
17 minutes

Chemical properties of alkanes Part2
26 minutes

Chemical properties of alkanes Part3
6 minutes

Discussion of ICE2 & HA2.
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 Part1
41 minutes

Chemical properties of alkenes Part2
36 minutes

Chemical properties of alkenes Part3
38 minutes

Nomenclature and isomerism of alkynes
10 minutes

Preparation of alkynes
8 minutes

Physical and chemical properties of alkynes Part1
16 minutes

Chemical Properties of Alkynes Part2
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 Part1
8 minutes

Chemical Properties of Benzene Part2
38 minutes

Directive Influence of a Functional Group in Monosubstituted Benzene
29 minutes

Discussion of ICE3 & HA3.
26 minutes

Discussion of ICE4 & HA4.
12 minutes

Discussion of ICE5 & HA5.
26 minutes

ICE1 & HA1.

ICE2 & HA2.

ICE3 & HA3.

ICE4 & HA4.

ICE5 & HA5.

Classification & Nomenclature of hydrocarbons

Environmental Chemistry
Gas lawsPart 2
This is the fourth video in series of states of matter. In this video, we will discuss part2 of gas laws which will include gay lussac’s law and Avogadro’s law.
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