Chemistry
Grade 9
Structure of the Atom→The Periodic Table→Chemical Bonds→States of Matter→Elements and Compounds→Protons, Neutrons, and Electrons→Atomic Number and Mass Number→Elements and Chemical Symbols→Organization of the Periodic Table→Periods and Groups→Electron Configuration→Valence Electrons→Ions and Ionization→Cations and Anions→Ionic Bonding→Covalent Bonding→Metallic Bonding→Chemical Formulas→Molecular Weight and Molar Mass→Mole Concept→Avogadro's Number→Phase Changes and Energy→Melting, Boiling, and Sublimation→Pure Substances and Mixtures→Elements, Compounds, and Mixtures→Balancing Chemical Equations→Types of Chemical Reactions→Combustion Reactions→Synthesis Reactions→Decomposition Reactions→Single Displacement Reactions→Double Displacement Reactions→Acids and Bases→pH Scale→Neutralization Reactions→Oxidation-Reduction Reactions→Oxidation States→Exothermic Reactions→Endothermic Reactions→Activation Energy→Catalysts and Inhibitors→Le Chatelier's Principle→Solutions and Solubility→Stoichiometry Basics→Limiting Reactant→Percent Yield→
Grade 10
The Mole (n = m/M)→Chemical Reactions→Balancing Chemical Equations→Stoichiometry→Molar Mass→Atomic Structure and Subatomic Particles→Periodic Table and Electron Configuration→Isotopes and Isobars→Bohr Model and Quantum Mechanical Model→Polar and Nonpolar Covalent Bonds→Electronegativity and Bond Polarity→Lewis Dot Structures→VSEPR Theory and Molecular Geometry→Valence Shell Electron Pair Repulsion→Intermolecular Forces→Hydrogen Bonding→London Dispersion Forces→Phase Transitions→Ideal Gas Law→Avogadro's Number and Molar Mass→Molarity and Molality→Concentration Calculations→Dilution and Titration→Chemical Equations and Balancing→Types of Chemical Reactions→Oxidation-Reduction Reactions→Oxidation Numbers→Balancing Redox Equations→Stoichiometry and Mole Ratios→Limiting Reactants→Acids and Bases Properties→pH and pOH Scale→Acid-Base Neutralization→Buffers and Buffering Capacity→Thermochemistry and Enthalpy→Hess's Law→Specific Heat Capacity→Exothermic and Endothermic Reactions→Chemical Equilibrium and Equilibrium Constants→Le Chatelier's Principle→
Grade 11
Gas Laws→Acids and Bases→pH Calculation→Concentration & Molarity (M = n/V)→Chemical Equilibrium→Alkanes: Structure and Properties→Alkenes: Structure and Reactions→Alkynes: Structure and Properties→Aromatic Compounds and Benzene→Alcohols: Classification and Reactions→Aldehydes and Ketones→Carboxylic Acids and Derivatives→Amines and Amides→Substitution Reactions: SN1 and SN2→Elimination Reactions: E1 and E2→Addition Reactions and Mechanisms→Redox Reactions and Balancing→Oxidation-Reduction Potentials→Electrochemistry: Galvanic Cells→Electrolysis and Faraday's Laws→Thermodynamics: First Law→Entropy and Second Law→Gibbs Free Energy→Acid-Base Equilibrium→Buffer Solutions→Titration: Acid-Base Analysis→Reaction Kinetics and Rates→Rate Laws and Reaction Order→Activation Energy and Catalysts→Reaction Mechanisms→Coordination Compounds→Ligand Field Theory→Isomerism in Organic Compounds→Stereochemistry and Chirality→Optical Isomerism and Enantiomers→Polymer Chemistry→Condensation Polymers→Addition Polymers→Infrared Spectroscopy (IR)→UV-Visible Spectroscopy→Mass Spectrometry→NMR Spectroscopy→Nuclear Reactions and Decay→Organic Synthesis Strategies→Qualitative Analysis Tests→Quantitative Analysis and Gravimetry→Environmental Chemistry→Industrial Chemistry Processes→
Grade 12
Reaction Rates→Electrochemistry→Introduction to Organic Chemistry→Thermochemistry (Enthalpy)→Orbital Shapes and Angular Nodes→Periodic Table Trends→Ionization Energy→Electron Affinity→Electronegativity→Lewis Dot Structures→Molecular Geometry→Molecular Polarity→Laws of Thermodynamics→Enthalpy and Heat of Reaction→Entropy and Disorder→Reaction Kinetics→Rate Laws and Reaction Order→Equilibrium Constants (Kc and Kp)→Acid-Base Definitions (Arrhenius, Brønsted-Lowry)→pH and pOH Scale→Acid-Base Titration→Salt Hydrolysis→Redox Reactions→Oxidation and Reduction Rules→Electrochemistry and Galvanic Cells→Standard Electrode Potentials→Nernst Equation→Electrolysis→Kinetic Theory of Gases→Real Gas Equations (Van der Waals)→Solution Concentration Units→Colligative Properties→Organic Nomenclature→Nuclear Decay and Half-Life→
University — Year 1
Atomic Structure and Bohr Model→Quantum Numbers and Electron Orbitals→
Aufbau Principlesoon
Hund's Rulesoon
Pauli Exclusion Principlesoon
Electronegativity and Polaritysoon
Chemical Bonding Types→Molecular Geometry and Shapes→Hybridization and Orbital Mixing→Phase Diagrams→Gas Laws and Ideal Gas Equation→Dalton's Law of Partial Pressures→Graham's Law of Effusion→Chemical Equations and Stoichiometry→Molarity and Solution Concentration→Dilution and Concentration Calculations→Enthalpy and Heat of Reaction→Entropy and Disorder→Spontaneity and Equilibrium→Reaction Rates and Kinetics→Rate Laws and Reaction Orders→Collision Theory→Catalysts and Catalysis→Chemical Equilibrium Constant→Acid-Base Properties and pH→Titration and Acid-Base Analysis→Electrochemical Cells→Cell Potential and Nernst Equation→Faraday's Laws of Electrolysis→University — Year 2
Atomic Orbital Theory→Molecular Orbital Theory→Valence Bond Theory→Hybridization: sp, sp², sp³→Bond Polarity and Electronegativity→Acids, Bases, and Buffer Solutions→pH and pOH Calculations→Weak Acid and Weak Base Equilibria→Hydrolysis Reactions→
Half-Reactions and Cell Potentialssoon
Electrolysis and Faraday's Lawssoon
Enthalpy and Hess's Lawsoon
Solubility Product (Ksp) and Precipitationsoon
Reaction Kinetics and Rate Lawssoon
Rate Constants and Activation Energysoon
Arrhenius Equationsoon
Catalysis and Catalystssoon
Coordination Chemistry and Complex Ionssoon
Ligands and Coordination Numberssoon
Crystal Field Theorysoon
Transition Metals and Their Propertiessoon
Aromaticity and Benzenesoon
Organic Substitution Reactions (SN1, SN2)soon
Organic Elimination Reactions (E1, E2)soon
Organic Addition Reactionssoon
Nucleophiles and Electrophilessoon
UV-Vis Spectroscopysoon
IR Spectroscopy and Functional Groupssoon
Phase Diagrams and Phase Transitionssoon