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Welcome to AP Chemistry Masterclass
Available in
days
days
after you enroll
Unit 0: Chemistry Foundations
Available in
days
days
after you enroll
- π» SI Units Conversion
- π» Scientific Notation
- π» Counting Significant Figures (Sig Figs)
- π» Sig Fig Rules for Multiplication and Division
- π» Sig Fig Rules for Addition and Subtraction
- π» Temperature Conversions
- π» Density
- π» Classification of Matter (Pure Substance, Element, Compound, Mixture, Homogeneous, Heterogeneous)
- π» Chemical vs Physical Properties
- π» Chemical vs Physical Changes
- π» Periodic Table Overview (Group, Period, Metal, Nonmetal, Transition Metals)
- π» Naming Molecular Compounds
- π» Naming Main Group Ionic Compounds
- π» Naming Ionic Compounds with Transition Metals
- π» Naming Ionic Compounds with Polyatomic Ions
- π» Naming Binary Acids
- π» Naming Oxyacids
Unit 1: Atomic Structure and Properties
Available in
days
days
after you enroll
- π― Unit 1 Skills Checklist
- π Unit 1 Notes
- π» Calculating Molar Mass
- π» Grams and Moles Conversion
- π» Grams, Moles, and Particles Conversion
- π» Calculating Mole Fraction
- β [Progress Check] 1.1: Moles and Molar Mass
- π» Calculating Average Atomic Mass Given Percent Abundance
- π» Calculating Percent Abundance of Isotopes
- β [Progress Check] 1.2: Mass Spectroscopy of Elements
- π» Mass Percent of Elements in Compounds
- π» Empirical Formula
- π» Empirical Formula to Molecular Formula
- π» Combustion Analysis
- π» Determining the Formula of a Hydrate
- β [Progress Check] 1.3: Elemental Composition of Pure Substances
- β [Progress Check] 1.4: Composition of Mixtures
- π» Number of Protons, Neutrons, and Electrons
- π» Electron Configuration
- π» Aufbau's Principle, Hund's Rule, and Paul Exclusion Principle
- π» Ground or Excited State
- π» Effective Nuclear Charge
- β [Progress Check] 1.5: Atomic Structure and Electron Configuration
- π» Photoelectron Spectrum (PES)
- β [Progress Check] 1.6: Photoelectron Spectroscopy
- π» Ionization Energy
- π» Atomic Radius
- π» Ionic Radius
- π» Electron Affinity
- π» Periodic Trends Summary
- β [Progress Check] 1.7: Periodic Trends
- π» How to Count Valence Electrons
- π» Charge of Ions
- β [Progress Check] 1.8: Valence Electrons and Ionic Compounds
- π Practice Test
- π Progress Check Answers
- π Free Response Questions (FRQ)
Unit 2: Molecular and Ionic Compound Structure and Properties
Available in
days
days
after you enroll
- π― Unit 2 Skills Checklist
- π Unit 2 Notes
- π» Types of Bonds (Ionic, Nonpolar Covalent, Polar Covalent)
- π» Bond Polarity
- β [Progress Check] 2.1: Types of Chemical Bonds
- π» Potential Energy Diagrams
- π» Lattice Energy
- β [Progress Check] 2.2: Intramolecular Force and Potential Energy
- π» Ionic Compound Structure and Properties
- β [Progress Check] 2.3: Structure of Ionic Solids
- π» Metallic Bonding and Alloys
- β [Progress Check] 2.4: Structure of Metals and Alloys
- π» Drawing Lewis Structures of Molecular Compounds
- π» Exceptions to Octet Rule
- β [Progress Check] 2.5: Lewis Diagrams
- π» Resonance Structures
- π» Bond Order
- π» Formal Charge and Most Stable Structure
- β [Progress Check] 2.6: Resonance and Formal Charge
- π» VSEPR: Electron Geometry and Molecular Geometry
- π» Polar and Nonpolar Molecules
- π» Hybridization
- π» Sigma and Pi Bonds
- β [Progress Check] 2.7: VSEPR and Bond Hybridization
- π Practice Exams
- π Progress Check Answers
- π Free Response Questions (FRQ)
Unit 3: Intermolecular Forces and Properties
Available in
days
days
after you enroll
- π― Unit 3 Skills Checklist
- π Unit 3 Notes
- π» Intermolecular Forces: London Dispersion, Dipole Dipole, Hydrogen Bond
- π» Intermolecular Force Trends and Relationships
- π» Which Substance Has a Higher Boiling Point?
- π» Which Substance Has a Higher Vapor Pressure?
- β [Progress Check] 3.1: Intermolecular Forces
- π» Types of Solids: Ionic, Molecular, Network, and Metallic
- π» Properties of Solids of Ionic, Molecular, Network, and Metallic Solids
- π» Lattice Energy of Ionic Solids
- β [Progress Check] 3.2: Properties of Solids
- π» Phase Diagram (Not Required)
- β [Progress Check] 3.3: Solids, Liquids, and Gases
- π» Pressure Unit Conversions
- π» Reading Gas Manometer
- π» Gas Law Relationships
- π» Boyle's Law
- π» Charles' Law
- π» Gay-Lussac's Law
- π» Avogadro's Law
- π» Ideal Gas Law
- π» Combined Gas Law
- π» Gas Density and Molar Mass Problems
- π» Standard Temperature and Pressure (STP)
- π» Gas Density and Molar Mass at STP
- π» Dalton's Law of Partial Pressure
- β [Progress Check] 3.4: Ideal Gas Law
- π» Factors Affecting Gas Velocity
- π» Average Kinetic Energy (Temperature) vs Molecular Velocity
- π» Calculating Root Mean Square Velocity (Not Required)
- π» Maxwell-Boltzmann Distribution
- π» Graham's Law of Gas Effusion & Diffusion
- β [Progress Check] 3.5: Kinetic Molecular Theory
- π» Real Gas vs Ideal Gas
- β [Progress Check] 3.6: Deviation from Ideal Gas Law
- π» Molarity
- π» Calculating the Concentration of Ions
- π» Dilution
- β [Progress Check] 3.7: Solutions and Mixtures
- π» Representation of Solutions
- β [Progress Check] 3.8: Representation of Solutions
- π» Solubility Curve
- β [Progress Check] 3.9: Separation of Solutions and Mixtures Chromatography
- π» Solubility: Likes Dissolves Likes
- β [Progress Check] 3.10: Solubility
- π» Microwave, Infrared, Ultraviolet, and Visible Light
- β [Progress Check] 3.11: Spectroscopy and the Electromagnetic Spectrum
- π» Relationship between Wavelength, Frequency, and Energy
- π» Wavelength and Frequency Problems
- π» Energy Problems
- π» Photoelectric Effect
- β [Progress Check] 3.12: Photoelectric Effect
- π» Beer's Law
- β [Progress Check] 3.13: Beer-Lambert Law
- π Practice Exams
- π Progress Check Answers
- π Free Response Questions (FRQ)
- π Stoichiometry FRQ
Unit 4: Chemical Reactions
Available in
days
days
after you enroll
- π― Unit 4 Skills Checklist
- π Unit 4 Notes
- π» Physical Change vs Chemical Change
- β [Progress Check] 4.1: Introduction for Reactions
- π» Balancing Chemical Reactions
- π» Molecular, Complete Ionic, and Net Ionic Reactions
- β [Progress Check] 4.2: Net Ionic Equations
- π» Reaction Particle Diagrams
- β [Progress Check] 4.3: Representations of Reactions
- π» Bonds vs Intermolecular Force Changes in Reactions
- β [Progress Check] 4.4: Physical and Chemical Changes
- π» Gram to Gram Stoichiometry
- π» Determining Limiting Reactant
- π» Calculating Amount of Excess Reactant Remaining
- π» Actual Yield, Theoretical Yield, and Percent Yield
- π» Gas Stoichiometry
- π» Solutions and Molarity Stoichiometry
- β [Progress Check] 4.5: Stoichiometry
- π» Titration Calculations
- β [Progress Check] 4.6: Introduction to Titration
- π» Types of Reactions
- π» Precipitation Reactions
- π» Oxidation Number
- π» Identifying Which Substance is Oxidized or Reduced
- β [Progress Check] 4.7: Types of Reactions
- π» Acid Base Reactions
- π» Identifying Acid, Base, Conjugate Acid, and Conjugate Base
- π» Finding the Conjugate Acid of a Base
- π» Finding the Conjugate Base of an Acid
- π» Amphoteric Species
- β [Progress Check] 4.8: Introduction to Acid-Base Reactions
- π» Oxidation Numbers
- π» Identifying Which Substance is Oxidized and Reduced
- π» Balancing Redox Reactions in Acidic Conditions
- π» Balancing Redox Reactions in Basic Conditions
- β [Progress Check] 4.9: Oxidation-Reduction (Redox) Reactions
- π Practice Exams
- π Progress Check Answers
- π Free Response Questions (FRQ)
Unit 5: Kinetics
Available in
days
days
after you enroll
- π― Unit 5 Skills Checklist
- π Unit 5 Notes
- π» Factors Affecting Reaction Rates
- π» Calculating Rates of Reaction
- β [Progress Check] 5.1: Reaction Rates
- π» Determining the Reactant Order Using Initial Rate Method
- π» Units of Rate Constant
- π» Differential Rate Law Practice Problems
- β [Progress Check] 5.2: Introduction to Reaction Rates
- π» Integrated Rate Law
- π» Half Life
- β [Progress Check] 5.3: Concentration Changes Over Time
- π» Reaction Mechanisms, Elementary Steps, and Overall Rate law
- π» Molecularity
- β [Progress Check] 5.4: Elementary Reactions
- π» Collision Model
- β [Progress Check] 5.5: Collision Model
- π» Energy Diagram & Energy Profile
- β [Progress Check] 5.6: Reaction Energy Profile
- π» Reaction Mechanisms, Elementary Steps, and Overall Rate law
- π» Identifying Catalyst and Intermediates
- β [Progress Check] 5.7: Introduction to Reaction Mechanisms
- β [Progress Check] 5.8: Reaction Mechanism and Rate Law
- β [Progress Check] 5.9: Steady State Approximation
- π» Multistep reaction Energy Profile
- β [Progress Check] 5.10: Multistep Reaction Energy Profile
- π» Catalyst
- β [Progress Check] 5.11: Catalysis
- π Extra Practice Problems
- π Practice Exams
- π Progress Check Answers
- π Free Response Questions (FRQ)
Unit 6: Thermodynamics
Available in
days
days
after you enroll
- π― Unit 6 Skills Checklist
- π Unit 6 Notes
- π» Endothermic and Exothermic Reactions
- β [Progress Check] 6.1: Endothermic and Exothermic Processes
- π» Energy Diagrams
- β [Progress Check] 6.2: Energy Diagrams
- π» Heat Transfer and Thermoequilibrium
- β [Progress Check] 6.3: Heat Transfer and Thermal Equilibrium
- π» Specific Heat Capacity (q=mCβT)
- π» Object Object Heat Transfer Problems
- π» Coffee Cup Calorimetry
- β [Progress Check] 6.4: Heat Capacity and Calorimetry
- π» Heating and Cooling Curves
- β [Progress Check] 6.5: Energy of Phase Changes
- π» Heat Stoichiometry
- β [Progress Check] 6.6: Introduction to Enthalpy of Reactions
- π» Calculating βHΒ° with Bond Enthalpy
- β [Progress Check] 6.7: Bond Enthalpies
- π» Calculating βHΒ° with Heat of Formation
- β [Progress Check] 6.8: Enthalpy of Formation
- π» Calculating βHΒ° with Hess's Law
- β [Progress Check] 6.9: Hess's Law
- π Practice Exams
- π Progress Check Answers
- π Free Response Questions (FRQ)
Full Practice Exams
Available in
days
days
after you enroll
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