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TN State Board 12th Chemistry Tuition

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What will you learn in this course?
    • Promote understanding of basic facts and concepts in chemistry while retaining the excitement of chemistry.
    • Make students capable of studying chemistry in academic and professional courses (such as medicine, engineering, technology) at tertiary level.
    • Expose the students to various emerging new areas of chemistry and apprise them with their relevance in future studies and their application in various spheres of chemical sciences and technology.
    • Equip students to face various challenges related to health, nutrition, environment, population, weather, industries and agriculture.
    • Develop problem solving skills in students.
    • Expose the students to different processes used in industries and their technological applications.
    • Apprise students with the interface of chemistry with other disciplines of science such as physics, biology, geology, engineering etc.
    • Acquaint students with different aspects of chemistry used in daily life.
    • Develop an interest in students to study chemistry as a discipline.
    • Integrate life skills and values in the context of chemistry
₹ 12000
Course Teacher
Course Information
₹ 12000

* Exclusive of 18% GST

    • Assignments every week
    • 200+ MCQs
    • Courseware prepared by experts
    • Assessments to give you the level of improvement

Class 12th Chemistry becomes a mystical journey for kids who rack their brains to comprehend ideas, from equations to explanations. We assist students in making the mysterious magic by breaking down topics into easy-to-understand bite size chunks so that they may grasp subject material. They give SCERT Solutions for Tamilnadu State Board 12th Chemistry in a chapter-wise format and help students understand the concepts in each area.


The courses have been created based on Class 12th Tamilnadu State Board Board Exam pattern.Make the most of your practise time by using questions tailored to your specific requirements. The subject experts deliver live lectures in this course. A thorough curriculum with study materials prepared by subject experts is provided. You may also take part in the live doubt sessions, as well as one-on-one doubt solutions. 

Course Features

120 hours of Live Classes
200+ MCQ Test Series
Live Doubt Resolution
Individual Attention

Course Structure

Units Topics
I Metallurgy
II p-Block elements – I
III P block elements – II
IV Transition and inner transition metals
V Coordination Compounds
VI Solid State
VII Chemical Kinetics
VIII Ionic Equilibrium
IX Electrochemistry
X Surface Chemistry
XI Alcohols, phenols, and ethers
XII Aldehydes, Ketones and Carboxylic acids
XIII Hydrocarbons
XIV Biomolecules
XV Chemistry in everyday life

Course Lessons

Occurrence of metals; Concentration of ores; Extraction of crude metal; Thermodynamic principle of metallurgy; Electrochemical principle of metallurgy and applications: Electrolytic extraction of Aluminium, electrochemical series; extraction based on oxidation and reduction; application of metals (Al, Zn, Fe, Cu, Au)

Occurrence, electronic configurations, oxidation states, general trends in physical and chemical properties of the elements in the period and group; Anomalous properties of the first element of each group; Boron and Aluminium: occurrence, preparation, physical and chemical properties and uses; structure, properties and uses of borax, boric acid, boron trifluoride; Reactions with acids and alkalies; Structure, properties and uses of aluminium chloride and alums; Carbon and Silicon: Anomalous behaviour of carbon; Tendency for catenation; Structure, properties and uses of allotropes of carbon; Structure, properties and uses of oxides of carbon; Structure, properties and uses of silicon tetrachloride, silicones, silicate and zeolites; Nitrogen and Phosphorus: Occurrence, Properties and uses of Nitrogen; Preparation, properties, structure and uses of ammonia and nitric acid; Structure of oxides and oxoacids of nitrogen; Allotrophic forms of phosphorus; Properties and uses of phosphorus; Preparation, properties, structure and uses of phosphine and phosphorus halides(PCI3, PCl5); Structure of oxides and oxoacids of phosphorus.

Oxygen and Sulphur: preparation, properties, structure and uses of oxygen and ozone, Allotropic forms of sulphur, preparation, properties, structure, and uses of sulphur dioxide and sulphuric acid. Halogens: Occurrence, preparation, properties, and uses of chlorine and hydrochloric acid; Trends in the physical and chemical properties of hydrogen halides; Structures of inter-halogen compounds, oxides, and oxoacids of halogens; Noble gases: Occurrence, trends in physical & chemical properties and uses

Position in the periodic table; Electronic configuration; General trend in properties of 3d series elements; Characteristics of transition metals; Oxides and oxo anions of transition metals; Potassium dichromate& potassium permanganate: structure, shape, oxidizing nature in acidic, basic, and neutral medium, use in redox titration, the structure of chromate, dichromate, manganite and permanganate ion; f-block elements: position of f-block elements in the periodic table, electronic configuration, atomic and ionic radii, oxidation states: Lanthanide contraction and its consequences; Actinides: oxidation states and comparison with lanthanides

Definition of coordination compounds: coordination entity, Central metal atom/ion, Ligands, Coordination number, Coordination sphere, Coordination polyhedron, the Oxidation number of the central atom, Homoleptic and heteroleptic complexes; Differences with double salt; IUPAC Nomenclature of coordination compounds; Isomerism in co-ordination compounds: structural and stereoisomerism; Theories of co-ordination compounds: Werner’s theory, Valence Bond Theory, Crystal field theory; Stability and applications of co-ordination compounds.

Introduction to solid-state; Amorphous and crystalline solids; classification of crystalline solids; Unit Cell: Types of the unit cell in two dimensions and three dimensions; Calculation of no of atoms per unit cell in a cubic unit cell; Packing and packing efficiency in solids; Packing fraction in sc, fcc and bcc; Voids: types, location, and formation; Calculations involving unit cell dimensions; Imperfection in solids – types of point defects; Electrical and magnetic properties

Introduction of Kinetics; Rate of a reaction; order of a reaction; molecularity of a reaction; factors affecting reaction rate; Integrated rate equations (zero and first-order reactions only); half-life of reactions; pseudo-first-order reaction; concept of collision theory; Temperature dependence of reaction rate – activation energy and Arrhenius equation.

Acids, bases, and salts; Various concepts of acids and base; Arrhenius, Bronsted-Lowry and Lewis theory of acids and bases; Ionisation of water; The PH scale; Ionisation of week acids- Oswalt dilution law; Common ion effect; Buffer solution; Henderson- Hasselbalch equation; Salt hydrolysis; Solubility and Solubility product;

Introduction; Conductivity of electrolytic solutions; Resistivity, conductivity, equivalent conductivity, molar conductivity; measurement of the conductivity of ionic solutions; Variation of conductivity with concentration; Debye HuckelOnsagar equation; Kohlrausch’s law; Electrochemical Cells; IUPAC conventions for electrochemical cells Galvanic Cell; Measurement of Electrode Potential; Nernst Equation; Equilibrium constant from Nernst Equation; Electro-chemical cell and Gibbs Energy of Reaction; Electrolytic cells and electrolysis; Faraday’s law of electrolysis; Product of electrolysis; Batteries; Primary Batteries; Secondary Batteries; Fuel cells; Corrosion; Control of corrosion;

Introduction; absorption and adsorption; Types of adsorption; Applications of Adsorption; Adsorption isotherms; Catalysis; Characteristics of catalyst; Types of catalyst, theories of catalysis; Enzyme catalysis; Colloids. Classification, Preparation, and Purification of colloids; Properties of colloidal solution; Emulsions; Application of colloids and emulsions in day to day life;

Alcohols; Introduction; classification; nomenclature; Monohydric alcohol methods of preparation; Physical and chemical properties, mechanism of dehydration; (Saytzeff’s rule), oxidation, the acidity of alcohols; Methods of differentiation of primary, secondary and tertiary alcohols; Inter conversions of primary, secondary and tertiary alcohols; Commercially important alcohols; Manufacture of methanol, ethanol, and its uses; Dihydric alcohols and Trihydric alcohols; Ethylene glycol – preparation; Physical and chemical properties and uses; Phenols- classification, nomenclature occurrence; Methods of preparation Physical and chemical properties; Distinction test between alcohols and phenols; Uses of phenols; Ether classification, nomenclature; methods of preparation; physical and chemical properties and uses; Crown ethers

Carbonyl compounds; Introduction; structure of carbonyl group; nomenclature; aliphatic aldehydes and ketones; Methods of preparation; physical and chemical properties; order of reactivity of aldehydes and ketones; Nucleophilic addition reaction and mechanism; uses of aliphatic aldehydes and ketones; Aromatic aldehydes; Methods of preparation and; Chemical reactions; carboxylic acids; Introduction; Structure of carboxyl group; nomenclature; Aliphatic and aromatic carboxylic acids; Methods of preparation; Physical and Chemical properties; Acidity of carboxylic acids – effect of substituents (Concept of Kaand pKa); Test for carboxylic acids; uses of carboxylic acids; Acid derivatives; Acid chlorides, esters, acid anhydrides and acid amides: Nomenclature, order of reactivity of acid derivatives; Preparation, properties, and uses;

Nitro compounds: Nomenclature, isomerism, preparation, chemical reactions and uses; Amines: classification, nomenclature, structure; methods of preparations, physical properties, chemical properties, the basic character of amines (Kb and pKb); the distinction between primary, secondary, and tertiary amines; Diazonium salts: structure, preparation, physical and chemical properties; Cyanides and Isocyanides: nomenclature, preparation, properties and uses

Carbohydrates: Monosaccharides; preparation and cyclic structures; disaccharides cyclic structure; polysaccharides; sources and cyclic structures; Importance of carbohydrates; Proteins: amino acids, classification, Zwitter ions, isoelectric point, peptide bond, classification proteins; structure of proteins: denaturation of proteins; Enzymes: mechanism of enzyme action; Lipids: classification and biological functions; Vitamins: definition, classification, sources and deficiency diseases; Nucleic acids: definition: DNA & RNA, Nucleoside and nucleotides, ATP and its importance

Introduction; Medicinal chemistry: classification of drugs, drug-target interactions; different classes of drugs; Food chemistry: food additives, artificial sweeteners, food preservatives, antioxidants; Cleansing agents: Soaps and detergents – types, cleansing action, Polymer chemistry: classification based on source, structure, molecular forces; Types of polymerization, addition polymerization, and mechanism; Preparation of addition polymers (polyethylene, Teflon, polyacrylonitrile); Condensation polymers: preparation of polyamides (Nylon-6 & Nylon 6,6), polyesters (terylene), Bakelite, melamine, formaldehyde polymer; Copolymerisation: Rubber: natural rubber, vulcanization of rubber; Biodegradable polymers: PHBV, Nylon-2, Nylon-6; Commercially important polymers.


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