Egypt (EN)

Egyptian National Curriculum - English

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Subjects

Chemistry G12

  • Overview
  • Chapters

Chemistry G12

  • 1: Transition Elements
    1.1: The First Transition Series
    1.1.1: Electron Configurations
    1.1.2: Electron Configurations of Transition Elements
    1.1.3: Oxidation States
    1.1.4: Transition Metals
    1.1.5: Physical Properties of Transition Metals
    1.1.6: Extracting Iron
    1.1.7: Steel
    1.1.8: Alloys
  • 2: Chemical Analysis
    2.1: Qualitative Chemical Analysis
    2.1.1: Chemical Analysis
    2.1.2: Determining Purity
    2.1.3: Tests for Anions
    2.1.4: Tests for Cations
    2.2: Quantitative Analysis
    2.2.1: Volumetric analysis
    2.2.2: Quantitative Analysis
    2.2.3: Molar Concentrations
    2.2.4: Titration Experiments
    2.2.5: Titration Calculations
    2.2.6: Water of Crystallization
    2.2.7: Precipitation Method
  • 3: Chemical Equilibrium
    3.1: Equilibrium System
    3.1.1: Reversible and Irreversible Reactions
    3.1.2: Dynamic Equilibrium
    3.2: Rate of Chemical Reaction
    3.2.1: Rate of chemical reaction
    3.2.2: Factors Affecting Rate
    3.2.3: Law of Mass Action
    3.2.4: Le Chatelier’s Principle
    3.3: Ionic Equilibrium
    3.3.1: Electrolyte solutions
    3.3.2: Hydronium ion
    3.3.3: Ostwald Law
    3.3.4: Hydronium and hydroxl Concentrations
    3.3.5: Ionization of Water
    3.3.6: The pH Scale
    3.3.7: Calculating pH
    3.3.8: Hydrolysis of salts solutions
    3.3.9: Solubility Products
  • 4: Electrochemistry
    4.1: Introduction
    4.1.1: Redox Reactions
    4.2: Galvanic Cells
    4.2.1: Electrochemical Cell Potential
    4.2.2: Salt bridge
    4.2.3: The Electromotive Series
    4.2.4: Galvanic cells and the production of electric energy
    4.2.5: Primary Galvanic Cells
    4.2.6: Secondary Galvanic Cells
    4.2.7: Corrosion
    4.2.8: Rusting
    4.3: Electrolytic Cells
    4.3.1: Faraday's laws
    4.3.2: Charge Transfer in Electrolysis
    4.3.3: Current and Charge
    4.3.4: Electrolysis of Molten Salts
    4.3.5: Uses of Electrolytic Cells
  • 5: Organic Chemistry
    5.1: The Difference between Organic and Inorganic Compounds
    5.1.1: Vital Force theory
    5.1.2: Hydrocarbons
    5.2: The Molecular and Structural Formula of Organic Compounds
    5.2.1: Molecular Formula
    5.2.2: Structural Formula
    5.2.3: Structural Isomerism
    5.3: Classification of Organic Compounds
    5.3.1: Properties of Alkanes
    5.3.2: Homologous Series
    5.3.3: Substitution Reactions of Alkanes
    5.3.4: Cracking of Hydrocarbons
    5.3.5: Properties of Alkenes
    5.3.6: Complete Combustion
    5.3.7: Addition Reactions of Alkenes
    5.3.8: Polymerization
    5.3.9: Properties of Benzene
    5.3.10: Reactions of Benzene
    5.3.11: Detergents
    5.4: Hydrocarbon Derivatives
    5.4.1: Properties of Alcohols
    5.4.2: Reactions of Alcohols
    5.4.3: Phenol
    5.4.4: Carboxylic Acids
    5.4.5: Esters

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