Online Chemistry Tuition for ISC Class 11

Benefits in Online Chemistry Tuition for ISC Class 11

We enrol qualified and experienced ISC Class 11 Online Chemistry Tuition Tutors with pen tablet. The tutors have good command over subjects and have fluent communication skills

One to one teacher to student ratio ensures personal attention to the student

Regular Assignments are given and their evaluation is done timely

Questions complementing school curriculum are given for practice and solved along with students

Regular Doubts Resolution – Doubts of the students are cleared before moving on to the next concepts

Recording after the live class is provided in a folder for revision purpose so that student can go through concepts again if they are not able to understand in the live class

Focus is on clearing the basics of the student as once the basics are cleared they can build upon the basics to solve higher order problems

Personal Attention to the Student for focused learning – Personal attention is given to the student as teacher asks questions regularly during the live class thus enabling the teacher to understand the comprehension level of the student

Free Live Demo offered before Parent and student decides to go for regular classes

Syllabus in Online Chemistry Tuition for ISC Class 11

Section A: Physical Chemistry

• Some Basic Concepts of Chemistry & Stoichiometry
  • Importance, scope, and measurement of chemistry (accuracy, precision, significant figures, SI units).
  • Laws of chemical combination (Mass conservation, Definite proportions, Multiple proportions, Reciprocal proportions, and Gay Lussac’s Law).
  • Dalton’s atomic theory, concept of elements, atoms, and molecules.
  • Atomic, isotopic, and molecular masses.
  • Mole concept, molar mass, and Avogadro’s number.
  • Percentage composition, empirical formulas, and molecular formulas.
  • Stoichiometry and calculations based on chemical reactions (mass-mass, mass-volume, volume-volume relationships, and limiting reagents).
  • Volumetric calculations: concentration terms like normality, molarity, molality, mole fraction, and equivalent weight of acids, bases, and salts.
• Structure of Atom
  • Discovery of subatomic particles (electrons, protons, neutrons), atomic number, isotopes, and isobars.
  • Early atomic models (Thomson and Rutherford) and their limitations.
  • Bohr’s atomic model, its expressions, and limitations.
  • Dual nature of matter and light (de Broglie’s equation) and Heisenberg’s uncertainty principle.
  • Quantum mechanical model: concept of shells, subshells, orbitals, and Schrödinger wave equation
  • Quantum numbers (principal, azimuthal, magnetic, and spin).
  • Shapes of s, p and d orbitals.
  • Rules for filling electrons in orbitals: Aufbau principle, Pauli’s exclusion principle, Hund’s rule, and electronic configurations of elements.
• Classification of Elements and Periodicity in Properties
  • Significance of classification and history (Mendeleev’s periodic law and its limitations).
  • Modern periodic law and the present form of the periodic table.
  • Types of elements
  • Periodic trends in physical and chemical properties: atomic and ionic radii, ionization enthalpy, electron gain enthalpy, electronegativity, and valency.
• Chemical Bonding and Molecular Structure
  • Valence electrons, ionic/electrovalent bond, covalent bond, and bond parameters (bond length, bond angle, bond enthalpy, bond order).
  • Born-Haber cycle and lattice energy.
  • Lewis structures, formal charge, and polar character of covalent bonds (dipole moment).
  • Valence Shell Electron Pair Repulsion (VSEPR) theory and the geometry of simple molecules.
  • Valence bond theory, orbital overlap, and the concept of hybridization
  • Molecular Orbital Theory (MOT): homonuclear diatomic molecules (bonding, anti-bonding, energy level diagrams, and magnetic properties).
  • Coordinate/dative covalent bond and Hydrogen bonding (intermolecular and intramolecular forces).
• States of Matter: Gases and Liquids
  • Three states of matter, types of intermolecular forces, and thermal energy.
  • Gas laws: Boyle’s law, Charles’s law, Gay Lussac’s law, Avogadro’s law, and Dalton’s law of partial pressures.
  • Ideal gas equation, empirical derivation, and universal gas constant
  • Kinetic molecular theory of gases (assumptions and kinetic gas equation).
  • Real gases: deviation from ideal behavior, liquefaction of gases, critical temperature, and the Van der Waals equation.
  • Liquid state properties: qualitative description of vapor pressure, viscosity, and surface tension.
• Chemical Thermodynamics
  • System concepts: open, closed, isolated systems; surroundings, boundaries, state functions, intensive and extensive properties.
  • First Law of Thermodynamics: internal energy, heat , work, enthalpy , and heat capacity (specific heat).
  • Thermochemistry: Hess’s law of constant heat summation.
  • Enthalpy changes in reactions: bond dissociation, combustion, formation, atomization, sublimation, phase transition, ionization, solution, and dilution.
  • Second and Third Laws of Thermodynamics (elementary ideas).
  • Spontaneity of reactions: entropy , Gibbs free energy change, and criteria for equilibrium.
• Chemical & Ionic Equilibrium
  • Chemical Equilibrium: Reversible reactions, dynamic equilibrium, law of mass action, equilibrium constants and factors affecting equilibrium (Le Chatelier’s principle applied to physical and chemical systems).
  • Ionic Equilibrium: Electrolytes (strong and weak) and non-electrolytes; ionization of polybasic acids, acid strength, and degree of ionization.
  • Concepts of acids and bases (Arrhenius, Brønsted-Lowry, and Lewis theories).
  • Ionic product of water, pH scale, pH indicators, and the common ion effect.
  • Buffer solutions, Henderson equation, hydrolysis of salts, solubility, and solubility product
• Redox Reactions
  • Classical concept of oxidation and reduction (electron transfer description).
  • Redox reactions and rules for assigning oxidation numbers.
  • Balancing of redox reactions (oxidation number method and ion-electron/half-reaction method).
  • Applications of redox reactions.

Section B: Inorganic Chemistry

• Hydrogen
  • Position of hydrogen in the periodic table, occurrence, isotopes, and preparation.
  • Hydrides: ionic, covalent, and interstitial/metallic.
  • Physical and chemical properties of water and heavy water
  • Hydrogen peroxide: preparation, structure, physical/chemical properties, and storage.
  • Hydrogen as a clean fuel (hydrogen economy).
• s-Block Elements (Alkali and Alkaline Earth Metals)
  • Group 1 (Alkali Metals) & Group 2 (Alkaline Earth Metals): general electronic configuration, occurrence, atomic/ionic radii, ionization enthalpy, and trends in chemical reactivity.
  • Anomalous behavior and diagonal relationships of the first elements (Lithium and Beryllium).
  • Industrial preparation, properties, and uses of important compounds: Sodium carbonate, Sodium chloride, Sodium hydroxide, Calcium oxide, and Calcium carbonate.
  • Biological importance of Magnesium, Calcium, Sodium, and Potassium.
• Some p-Block Elements
  • Group 13 Elements (Boron Family): Electronic configuration, occurrence, variation of physical properties, oxidation states, and chemical reactivity trends.
  • Boron compounds: preparation, properties, and structures of Borax, Boric acid, and Boron hydrides (Diboran).
  • Group 14 Elements (Carbon Family): Electronic configuration, variation of physical properties, oxidation states, catenation, and chemical reactivity trends.
  • Carbon and Silicon compounds: allotropes of carbon, structures and properties of oxides of carbon, silicon dioxide, silicon tetrachloride, silicones, silicates, and zeolites.

Section C: Organic Chemistry

Organic Chemistry: Some Basic Principles and Techniques

Tetravalence of carbon, shapes of organic molecules, and hybridization.

Classification and structural representations of organic compounds.

IUPAC nomenclature of aliphatic and aromatic organic compounds (including mono- and poly-functional groups).

Isomerism: structural isomerism (chain, position, functional, metamerism) and stereoisomerism (geometrical and optical).

Covalent bond fission: homolytic and heterolytic cleavage leading to free radicals, carbocations, and carbanions.

Types of attacking reagents: electrophiles and nucleophiles.

Electronic displacement effects in a covalent bond: inductive effect, electromeric effect, resonance (mesomeric effect), and hyperconjugation.

Purification techniques (distillation, crystallization, sublimation, chromatography) and qualitative/quantitative analysis (estimation of carbon, hydrogen, nitrogen, halogens, sulfur, and phosphorus).

Hydrocarbons

Alkanes: Nomenclature, isomerism, conformations of ethane (sawhorse and Newman projections), physical properties, and chemical reactions (free radical mechanism of halogenation, combustion, and pyrolysis/cracking).

Alkenes: Nomenclature, structure of double bond (ethene), geometrical isomerism (cis-trans), methods of preparation, physical properties, and chemical reactions (electrophilic addition mechanism of hydrogen, halogens, water, hydrogen halides via Markovnikov’s rule and anti-Markovnikov/peroxide effect; ozonolysis and oxidation).

Alkynes: Nomenclature, structure of triple bond (ethyne), methods of preparation, physical properties, and chemical reactions (acidic character of terminal alkynes, addition reactions with hydrogen, halogens, hydrogen halides, and water).

Aromatic Hydrocarbons: General introduction, IUPAC nomenclature, Benzene structure, resonance, aromaticity (Hückel’s Rule).

Chemical properties of benzene: mechanisms of electrophilic substitution (nitration, sulfonation, halogenation, Friedel-Crafts alkylation, and acylation).

Directive influence of functional groups in monosubstituted benzene, carcinogenicity, and toxicity.

Environmental Chemistry

Green Chemistry: concepts, principles, and alternative tools for reducing environmental pollution in day-to-day life.

Environmental pollution: definitions and classification of pollutants.

Air pollution: tropospheric and stratospheric pollution; gaseous air pollutants (oxides of sulfur, nitrogen, carbon) and particulate pollutants.

Atmospheric chemical reactions: formation and effects of photochemical smog, classical smog, acid rain, greenhouse effect, and global warming.

Stratospheric chemistry: ozone layer depletion, its mechanism, and consequences.

Water pollution: major water pollutants, organic wastes, biochemical oxygen demand (BOD), chemical oxygen demand (COD), and eutrophication.

Soil pollution: industrial, agricultural, and domestic wastes.

Testimonials

⭐ Testimonial 1: Best Online Chemistry Tuition for ISC Class 11

Aditya Verma, Class 11 ISC, Pune
“The transition from Class 10 to ISC Class 11 Chemistry felt quite challenging because the syllabus became more detailed and concept-oriented. Topics such as Some Basic Concepts of Chemistry, Structure of Atom, and Chemical Bonding initially seemed difficult to understand. Thanks to these online Chemistry tuition classes for ISC Class 11, I gradually developed a strong conceptual foundation. The teacher explained every topic with practical examples, diagrams, and numerical applications, making Chemistry much easier and more interesting.”

⭐ Testimonial 2: Building Confidence in ISC Class 11 Chemistry

Mrs. Shalini Kapoor (Parent of Class 11 Student), Chandigarh
“We were searching for reliable online Chemistry tuition for ISC Class 11 because our daughter was finding it difficult to understand the theoretical and numerical aspects of the subject. unipolaris academy exceeded our expectations. The structured lessons, regular practice assignments, and personalised attention helped her gain clarity in Chemistry. Her confidence has improved significantly, and she now approaches both organic and physical Chemistry topics with much greater ease.”

⭐ Testimonial 3: Mastering ISC Class 11 Chemistry Concepts

Ananya Sen, Class 11 ISC, Hyderabad
“ISC Class 11 Chemistry includes many challenging topics such as Chemical Bonding, Redox Reactions, Equilibrium, and Organic Chemistry. These online Chemistry classes helped me understand the logic behind every concept instead of simply memorising reactions and formulas. The teachers focus on conceptual clarity, problem-solving skills, and exam-oriented preparation. As a result, I can now solve Chemistry questions confidently and score better in my school examinations.”

⭐ Testimonial 4: Quality Online Chemistry Tuition for ISC Students Worldwide

Mr. Vivek Malhotra (Parent), Singapore
“Finding experienced ISC Chemistry teachers while living abroad was not easy. unipolaris academy’s online Chemistry tuition for ISC Class 11 has been an excellent solution. The interactive live classes, recorded sessions, and regular performance tracking keep our son motivated and focused. The flexibility of online learning combined with expert guidance has significantly improved his understanding of Chemistry and increased his interest in the subject.”

⭐ Testimonial 5: Strong Foundation for Board Exams and Future Studies

Karan Bhatia, Class 11 ISC, Jaipur
“Joining these online Chemistry tuition classes for ISC Class 11 has been one of the best academic decisions I have made. The teachers helped me build a strong foundation in both theoretical concepts and numerical problem-solving. Regular tests, doubt-clearing sessions, and personalised feedback have improved my accuracy and confidence. The classes are helping me perform better in school while preparing me for future competitive examinations and higher studies in Science.”

Frequently Asked Questions (FAQs)