Description of AP Chemistry:

Chemistry is a central Science subject. It is one of the most essential subject for medical study. Chemistry is also integral subject for Engineering Studies
Also one can not understand this post modern world without understanding chemistry.

Advanced Placement Chemistry (AP Chemistry or AP Chem) is a course and examination offered by the College Board as a part of the Advanced Placement Program to give American and Canadian high school students the opportunity to demonstrate their abilities and earn college-level credit. It has the distinction of having the lowest known test participation rate, with 49.5% of AP Chemistry students taking the exam in one study.[1] Another, smaller, study found that 52.7% of students enrolled in AP Chemistry took their course’s AP test.

AP Chemistry is a course geared toward students with interests in chemical and physical sciences, as well as any of the biological sciences. The course aims to prepare students to take the exam toward the end of the academic year. The topics include atomic theory, chemical bonding, phases of matter, solutions, types of reactions, chemical equilibrium, reaction kinetics, electrochemistry, and thermodynamics.

 

AP Chemistry Course Outline:

Unit 1: Atomic Structure and Properties

Topic 1.1: Moles and Molar Mass

Topic 1.2: Mass Spectroscopy of Elements

Topic 1.3: Elemental Composition of Pure Substances

Topic 1.4: Composition of Mixtures

Topic 1.5: Atomic Structure and Electron Configuration

Topic 1.6: Photoelectron Spectroscopy

Topic 1.7: Periodic Trends

Topic 1.8: Valence Electrons and Ionic Compounds

Unit 2: Molecular and Ionic Compound Structure and Properties

Topic 2.1:  Types of Chemical Bonds

Topic 2.2: Intramolecular Force and Potential Energy

Topic 2.3: Structure of Ionic Solids

Topic 2.4: Structure of Metals and Alloys

Topic 2.5: Lewis Diagrams

Topic 2.6: Resonance and Formal Charge

Topic 2.7: VSEPR and Bond Hybridization 

Unit 3: Intermolecular Forces and Properties

Topic 3.1: Intermolecular Forces

Topic 3.2: Properties of Solids

Topic 3.3: Solids, Liquids, and Gases

Topic 3.4: Ideal Gas Law

Topic 3.5: Kinetic Molecular Theory

Topic 3.6: Deviation from Ideal Gas Law 

Topic 3.7: Solutions and Mixtures

Topic 3.8: Representations of Solutions 

Topic 3.9: Separation of Solutions and Mixtures Chromatography

Topic 3.10: Solubility

Topic 3.11: Spectroscopy and the Electromagnetic Spectrum

Topic 3.12: Photoelectric Effect

Topic 3.13: Beer-Lambert Law

Unit 4: Chemical Reactions

Topic 4.1: Introduction for Reactions

Topic 4.2: Net Ionic Equations

Topic 4.3: Representations of Reactions

Topic 4.4: Physical and Chemical Changes

Topic 4.5: Stoichiometry

Topic 4.6: Introduction to Titration

Topic 4.7: Types of Chemical Reactions

Topic 4.8: Introduction to Acid-Base Reactions

Topic 4.9: Oxidation-Reduction (Redox) Reactions

Unit 5: Kinetics

Topic 5.1: Reaction Rates

Topic 5.2: Introduction to Rate Law

Topic 5.3: Concentration Changes Over Time

Topic 5.4: Elementary Reactions

Topic 5.5: Collision Model

Topic 5.6: Reaction Energy Profile

Topic 5.7: Introduction to Reaction Mechanisms 

Topic 5.8: Reaction Mechanism and Rate Law

Topic 5.9: Steady-State Approximation

Topic 5.10: Multistep Reaction Energy Profile 

Topic 5.11: Catalysis

Unit 6: Thermodynamics

Topic 6.1: Endothermic and Exothermic Processes

Topic 6.2: Energy Diagrams

Topic 6.3: Heat Transfer and Thermal Equilibrium

Topic 6.4: Heat Capacity and Calorimetry

Topic 6.5: Energy of Phase Changes

Topic 6.6: Introduction to Enthalpy of Reaction

Topic 6.7: Bond Enthalpies

Topic 6.8: Enthalpy of Formation

Topic 6.9: Hess’s Law

Unit 7: Equilibrium

Topic 7.1: Introduction to Equilibrium

Topic 7.2: Direction of Reversible Reactions

Topic 7.3: Reaction Quotient and Equilibrium Constant

Topic 7.4: Calculating the Equilibrium Constant

Topic 7.5: Magnitude of the Equilibrium Constant

Topic 7.6: Properties of the Equilibrium Constant

Topic 7.7: Calculating Equilibrium Concentrations

Topic 7.8: Representations of Equilibrium

Topic 7.9: Introduction to Le Châtelier’s Principle

Topic 7.10: Reaction Quotient and Le Châtelier’s Principle

Topic 7.11: Introduction to Solubility Equilibria 

Topic 7.12: Common-Ion Effect

Topic 7.13: pH and Solubility

Topic 7.14: Free Energy of Dissolution

Unit 8: Acids and Bases

Topic 8.1: Introduction to Acids and Bases

Topic 8.2: pH and pOH of Strong Acids and Bases

Topic 8.3: Weak Acid and Base Equilibria 

Topic 8.4: Acid-Base Reactions and Buffers

Topic 8.5: Acid-Base Titrations

Topic 8.6: Molecular Structure of Acids and Bases

Topic 8.7: pH and pKa

Topic 8.8: Properties of Buffers

Topic 8.9: Henderson-Hasselbalch Equation

Topic 8.10: Buffer Capacity

Unit 9: Applications of Thermodynamics

Topic 9.1: Introduction to Entropy

Topic 9.2: Absolute Entropy and Entropy Change

Topic 9.3: Gibbs Free Energy and Thermodynamic Favorability

Topic 9.4: Thermodynamic and Kinetic Control

Topic 9.5: Free Energy and Equilibrium

Topic 9.6: Coupled Reactions

Topic 9.7: Galvanic (Voltaic) and Electrolytic Cells

Topic 9.8: Cell Potential and Free Energy

Topic 9.9: Cell Potential Under Nonstandard Conditions

Topic 9.10: Electrolysis and Faraday’s Law

 

Click here to Get AP Chemistry Course Outline in PDF Format from Official Website.

 

So, Concept Academia is providing best content with all topics covered, past papers with solution.