Science

Chemistry 11

Chemistry 11

Science
Last updated 11/2022

Course Description

Chemistry is the branch of science that deals with the principles of atoms, molecule’s structure, elements of properties, states of matter and change, chemical bonding and reactions, hybridization and environmental chemistry. In this course, students will also learn about thermodynamics, principles of organic chemistry, fundamental principles and theories of chemistry.

What you’ll learn

Some Basic Concepts of Chemistry
Structure of Atom-Chemistry
Classification of Elements and Periodicity in Properties
Chemical Bonding and Molecular Structure
States of Matter
Thermodynamics - Chemistry
Equilibrium
Redox Reactions
Hydrogen
The s-Block Elements
The p-Block Elements
Organic Chemistry Some Basic Principles
Hydrocarbons
Environmental Chemistry

1.1: Introduction

01:01

2.1: Learning Objectives

00:45

3.1: Importance of Chemistry

00:50

4.1: States of Matter

01:57

5.1: Classification of Matter

01:50

6.1: Properties of Matter

01:45

7.1: Properties of Matter and their Measurements

01:48

8.1: Uncertainty in Measurement

03:22

9.1: Laws of Chemical Combinations

01:27

10.1: Dalton’s Atomic Theory

00:36

11.1: Atomic and Molecular Masses

02:37

12.1: Mole Concept and Molar Masses

01:41

13.1: Percentage Composition

01:34

14.1: Stoichiometry and Stoichiometric Calculations

00:47

15.1: Reactions in Solutions

00:47

16.1: Summary

00:43

1.1: Introduction

00:50

2.1: Learning Objectives

00:55

3.1: Sub-Atomic Particles

00:40

4.1: Discovery of Electron

01:31

5.1: Charge to Mass Ratio of Electron

01:35

6.1: Charge and Mass of Electron

00:34

7.1: Discovery of Protons and Neutrons

01:44

8.1: Atomic Models

00:35

9.1: Thomson Model of Atom

00:53

10.1: Rutherford’s Nuclear Model of Atom

02:25

11.1: Atomic Number and Mass Number

01:03

12.1: Developments Leading to the Bohr’s Model of Atom

00:40

13.1: Wave Nature of Electromagnetic Radiation

01:44

14.1: Particle Nature of Electromagnetic Radiation

01:25

15.1: Photoelectric Effect

01:39

16.1: Atomic Spectra

00:50

17.1: Atomic Spectra

01:08

18.1: Line Spectrum of Hydrogen

01:23

19.1: Bohr’s Model for Hydrogen Atom

01:37

20.1: Bohr’s Theory for Hydrogen Atom

02:28

21.1: Towards Quantum Mechanical Model of the Atom

01:51

22.1: Quantum Mechanical Model of Atom

01:04

23.1: Orbits and Orbitals

00:23

24.1: Quantum Numbers

02:01

25.1: Shapes of Atomic Orbitals

02:19

26.1: Energies of Atomic Orbitals

00:58

27.1: Filling of Orbitals in Atom

01:10

28.1: Electronic Configuration of Atoms

01:15

29.1: Summary

04:33

1.1: Introduction - Classification of Elements and Periodicity in Properties

2.1: Learning Objectives

00:48

3.1: Need to Classify Elements

00:37

4.1: Genesis of Periodic Classification

00:24

5.1: Dobereiner’s Triads

01:09

6.1: Newland’s Octaves

01:07

7.1: Lothar Meyer Atomic Volume Curve

00:53

8.1: Mendeleev Periodic Table

02:20

9.1: Modern Periodic Table

01:16

10.1: Nomenclature of Elements with Atomic Numbers 00

00:35

11.1: Electronic Configurations in Periods

02:55

12.1: Groupwise Electronic Configurations

01:58

13.1: s-, p-, d- and f- Block Elements

02:08

14.1: Metals, Non-metals and Metalloids

00:59

15.1: Periodic Trends in Physical Properties

01:56

16.1: Periodic Trends in Chemical Properties

00:59

17.1: Periodic Trends and Chemical Reactivity

00:48

18.1: Summary

02:28

1.1: Introduction - Chemical Bonding and Molecular Structure

00:52

2.1: Learning Objectives-Chemical Bonding and Molecular Structure

00:49

3.1: Kossel - Lewis Approach to Chemical Bonding

01:10

4.1: Lewis Representation of Simple Molecules

00:53

5.1: Covalent Bond-Chemical Bonding and Molecular Structure

01:55

6.1: Formal Charge

01:04

7.1: Limitations of the Octet Theory

01:56

8.1: Ionic Bond or Electrovalent Bond

01:39

9.1: Bond Parameters

02:47

10.1: Polar and non polar bonds

02:07

11.1: VSEPR Theory

02:23

12.1: Valence Bond Theory

02:00

13.1: Hybridisation

00:36

14.1: Types of Hybridisation

03:36

15.1: MO Theory

00:59

16.1: Sigma and Pi MO Theory

02:32

17.1: Bond Order

01:37

18.1: Hydrogen Bonding

01:06

19.1: Summary-Chemical Bonding and Molecular Structure

02:38

1.1: Introduction

00:30

2.1: Learning Objectives

00:44

3.1: Intermolecular Forces

00:37

4.1: Dispersion Forces or London Forces

00:57

5.1: Dipole - Dipole Forces

00:31

6.1: Dipole – Induced Dipole Forces

00:28

7.1: Hydrogen Bond

01:05

8.1: Thermal Energy

00:42

9.1: The Gaseous State

00:42

10.1: The Gas Laws

03:43

11.1: Ideal Gas Equation

02:30

12.1: Kinetic Molecular Theory of Gases

01:33

13.1: Behaviour of Real Gases

02:09

14.1: Liquefaction of Gases

00:50

15.1: Liquid State

00:30

16.1: Vapour Pressure

01:23

17.1: Surface Tension

00:52

18.1: Viscosity

01:57

19.1: Summary

02:42

1.1: Introduction

00:56

2.1: Learning Objectives

01:23

3.1: System and Surroundings

00:47

4.1: Types of System

01:18

5.1: State of the System

01:24

6.1: Internal Energy as a State Function

02:31

7.1: First Law of Thermodynamics

01:11

8.1: Work and Enthalpy

01:46

9.1: Heat Capacity

01:23

10.1: Measurement of ∆U and ∆H Calorimetry

02:11

11.1: Enthalpy Change of Reactions

02:44

12.1: Hess’s Law of Constant Heat Summation

00:35

13.1: Born - Haber Cycle

01:41

14.1: Spontaneity

01:27

15.1: Second Law of Thermodynamics

01:02

16.1: Gibbs Energy Change, Spontaneity and Equilibrium

02:03

17.1: Summary - Thermodynamics - Chemistry

03:10

1.1: Introduction

00:53

2.1: Learning Objectives

01:20

3.1: Equilibrium State

00:58

4.1: Equilibrium in Physical Processes

00:28

5.1: Solid - Liquid Equilibrium

01:06

6.1: Liquid - Vapour Equilibrium

01:52

7.1: Solid - Vapour Equilibrium

00:40

8.1: Equlibrium involving Dissolution of Solids in Liquids

01:23

9.1: Equilibrium involving Dissolution of Gases in Liquidsz

01:35

10.1: General Characteristics of Equilibria Involving Physical Processes

00:48

11.1: Equilibrium in Chemical Processes

02:22

12.1: Law of Chemical Equilibrium and Equilibrium Constant

01:33

13.1: Homogeneous Equilibria

02:08

14.1: Heterogeneous Equilibria

00:50

15.1: Applications of Equilibrium Constants

03:03

16.1: Relationship between K, Q and G

02:31

17.1: Factors Affecting Equilibria

00:34

18.1: Ionic Equilibrium in Solution

01:13

19.1: Concept of Acids and Bases

02:26

20.1: Ionization of Acids and Bases

01:24

21.1: Ionization of Water

01:27

22.1: pH Scalez

01:25

23.1: Ionization of Weak Electrolytes

01:59

24.1: Factors Affecting Acid Strength

01:22

25.1: Common Ion Effect

01:43

26.1: Hydrolysis of Salts

01:38

27.1: Buffer Solutions

00:45

28.1: Solubility Equilibria of Sparingly Soluble Salts

01:31

29.1: Summary

03:27

1.1: Introduction-Redox Reactions

00:39

2.1: Learning Objectives-Redox Reactions

01:11

3.1: Classical View of Redox Reactions

00:50

4.1: Redox Reactions in terms of Electron Transfer

02:08

5.1: Oxidation half and Reduction half reactions

00:50

6.1: Competitive Electron Transfer Reactions

02:20

7.1: Oxidation Number

01:58

8.1: Stock Notation

00:49

9.1: Oxidation and Reduction in terms of Oxidation Number

01:05

10.1: Types of Redox Reactions

02:08

11.1: Balancing of Redox Reactions

00:30

12.1: Oxidation Number Method

01:09

13.1: Half Reaction Method

01:39

14.1: Application of Redox Reactions Redox Titrations

01:14

15.1: Redox Reactions and Electrode Processes

01:02

16.1: Electrochemical Cells

01:44

17.1: Electrode Potential

01:23

18.1: Summary-Redox Reactions

02:19

1.1: Introduction

01:13

2.1: Learning Objectives

00:56

3.1: Position of Hydrogen in the Periodic Table

01:55

4.1: Isotopes of Hydrogen

00:47

5.1: Laboratory Preparation of Dihydrogen

00:48

6.1: Commercial Production of Dihydrogen

01:53

7.1: Properties of Dihydrogen

01:58

8.1: Uses of Dihydrogen

01:04

9.1: Hydrides

03:21

10.1: Water and its Physical Properties

01:19

11.1: Structure of Water and Ice

01:31

12.1: Chemical Properties of Water

01:26

13.1: Hard and Soft Water

00:58

14.1: Temporary Hardness of Water

01:07

15.1: Permanent Hardness of Water

01:32

16.1: Preparation of Hydrogen peroxide

00:59

17.1: Preparation of Hydrogen peroxide-Hydrogen

01:07

18.1: Structure and Uses of Hydrogen peroxide

01:13

19.1: Heavy Water

00:45

20.1: Dihydarogen as a Fuel

00:58

21.1: Summary

02:46

1.1: Introduction

02:06

2.1: Learning Objectives

01:36

3.1: Physical properties of Alkali Metals

01:52

4.1: Chemical Properties of Alkali Metals

03:21

5.1: Uses of Alkali Metals

01:14

6.1: Compounds of Alkali Metals and Their General Characteristics

7.1: Properties of Lithium

02:47

8.1: Some Important Compounds of Sodium

9.1: Biological Importance of Sodium and Potassium

01:37

10.1: Some Important Compounds of Sodium

11.1: Physical properties of Alkaline Earth Metals

01:12

12.1: Chemical Properties of Alkaline Earth Metals

01:46

13.1: Uses of Alkaline Earth Metals

00:45

14.1: Compounds of Alkaline Earth Metals and Their General Characteristics

02:27

15.1: Anomalous Properties of Beryllium

01:25

16.1: Some Important Compounds of Calcium

03:33

17.1: Biological Importance of Magnesium and Calcium

00:29

1.1: Introduction

00:57

2.1: Learning Objectives

00:37

3.1: Group 5 Elements

03:34

4.1: Preparation of Dinitrogen

01:09

5.1: Preparation of Ammonia

01:06

6.1: Nitric Acid

01:30

7.1: Phosphorus – Allotropic Forms

01:08

8.1: Preparation of Phosphine

01:05

9.1: Anomalous Properties of Boron

00:58

10.1: Preparation of Ozone

01:20

11.1: Sulphur

00:53

12.1: Preparation Of Sulphur Dioxide -

01:32

13.1: Manufacture Of Sulphuric Acid

01:33

14.1: Group 7 Elements

02:35

15.1: Chlorine

01:53

16.1: Group 8 Elements

02:09

17.1: Summary - The p-Block Elements

01:07

1.1: Introduction

01:12

2.1: Learning Objectives

01:06

3.1: Tetravalency of Carbon

01:24

4.1: Shapes of Carbon Compounds

01:27

5.1: Structural Representations of Organic Compounds

01:58

6.1: Structural formulae of Organic Compounds

01:38

7.1: Three-Dimensional Representation of Organic Molecules

01:00

8.1: Classification of Organic Compounds

02:39

9.1: Functional Group and Homologous Series

00:47

10.1: Nomenclature of Organic Compounds

03:10

11.1: Nomenclature of polyfunctional groups

00:59

12.1: Isomerism

02:36

13.1: Types of Isomerism

01:19

14.1: Fundamental Concepts in Organic Reaction Mechanism

00:42

15.1: Fission of a Covalent Bond

01:21

16.1: Carbocations and Carbanions

02:41

17.1: Nucleophiles and Electrophiles

01:03

18.1: Electronic Displacement in Covalent Bond

00:16

19.1: Inductive effect

01:01

20.1: Electromeric effect

01:11

21.1: Resonance or Mesomeric effect

01:13

22.1: Hyperconjugation

00:41

23.1: Techniques of Purification of Organic Compounds

02:26

24.1: Simple and Fractional Distillation

02:33

25.1: Distillation Under Reduced Pressure and Steam Distillation

01:20

26.1: Chromatography

04:35

27.1: Quantitative Analysis of Organic Compounds

01:21

28.1: Test for Nitrogen, Sulphur and Halogens

02:04

29.1: Test for Carbon, Hydrogen and Phosphorus

01:20

30.1: Qualitative Analysis of Organic Compounds

01:48

31.1: Estimation of Nitrogen

01:45

32.1: Estimation of Halogens, Sulphur, Phosphorus, Oxygen

01:00

33.1: Summary

04:04

1.1: Introduction - Hydrocarbons

00:43

2.1: Learning Objectives - Hydrocarbons

01:11

3.1: Hydrocarbons and its classification

01:43

4.1: Alkanes

00:55

5.1: Nomenclature of Alkanes

01:47

6.1: Isomerism in Alkanes

00:28

7.1: Preparation of Alkanes

02:05

8.1: Physical Properties of Alkanes

01:35

9.1: Chemical Properties of Alkanes

02:36

10.1: Conformation of Alkanes

02:30

11.1: Alkenes

01:10

12.1: Nomenclature of Alkenes

01:06

13.1: Isomerism in Alkenes

01:34

14.1: Preparation of Alkenes

01:30

15.1: Physical Properties of Alkenes

00:32

16.1: Chemical Properties of Alkenes

04:15

17.1: Alkynes

01:18

18.1: Nomenclature of Alkynes

00:47

19.1: Isomerism in Alkynes

00:36

20.1: Preparation of Alkynes

00:38

21.1: Physical Properties of Alkynes

00:32

22.1: Chemical Properties of Alkynes

02:10

23.1: Aromatic Hydrocarbon

00:40

24.1: Structure of Benzene

01:32

25.1: Aromaticity

01:11

26.1: Preparation of Benzene

00:30

27.1: Physical Properties of Aromatic Hydrocarbons

00:33

28.1: Chemical Properties of Aromatic Hydrocarbons

02:25

29.1: Ortho, meta and para - directing groups

01:36

30.1: Carcinogenicity and Toxicity

00:28

31.1: Summary- Hydrocarbons

02:00

1.1: Introduction

00:56

2.1: Learning Objectives

00:50

3.1: Environmental Pollution

01:41

4.1: Atmospheric Pollution

00:54

5.1: Gaseous Air Pollutants

04:04

6.1: Greenhouse Effect

02:28

7.1: Acid Rain

01:18

8.1: Particulate Pollutants

01:39

9.1: Smog

02:27

10.1: Stratospheric Pollution

02:11

11.1: Water Pollution

01:18

12.1: Causes of Water Pollution

03:29

13.1: International Standards for Drinking Water

01:52

14.1: Soil Pollution

01:32

15.1: Industrial Wastes

01:26

16.1: Waste Management

01:30

17.1: Green Chemistry

01:09

18.1: Summary

03:06

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This course includes

Units 14
Lessons 302
Expiry Date Full lifetime access
Language English
Last Updated Nov 08 2022

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