IB CHEMISTRY HL – 이건휘
SAMPLE
Sample 강의
2 Topics
Sample : S1.1.1_Elements Compounds and Mixtures
Sample : R1.1.1_Exothermic and Endothermic Reactions
ZOOM GROUP CLASS / 1:1 Q&A
Zoom Group Class
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한국기준 목 19:00-19:30 – 이건휘T
1:1 Q&A
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이건휘T – 1:1 Q&A
IB Chemistry 교재 다운로드
IB Chemistry 교재 다운로드
Structure 1 Models of the particulate nature of matter
Structure 1.1 Introduction to the particulate nature of matter
2 Topics
S1.1.1_Elements Compounds and Mixtures
S1.1.2_Kinetic Molecular Theory
Structure 1.2 The nuclear atom
3 Topics
S1.2.1_The Structure of Atoms
S1.2.2_Isotopes and Relative Atomic Mass
S1.2.3_Mass Spectrum (HL)
Structure 1.3 Electron configurations
5 Topics
S1.3.1_Light Spectrum
S1.3.2_The Hydrogen Atom Spectrum
S1.3.3_Electron Configurations (1)
S1.3.4_Electron Configurations (2)
S1.3.5_Ionization Energy (HL)
Structure 1.4 Counting particles by mass: The mole
4 Topics
S1.4.1_Avogadro Constant and Molar Mass
S1.4.2_Empirical and Molecular Formulas
S1.4.3_The Molar Concentration
S1.4.4_Avogadro’s law
Structure 1.5 Ideal gases
2 Topics
S1.5.1_Real Gas and Ideal Gas
S1.5.2_The Ideal Gas Law Equation
STRUCTURE 2 MODELS OF BONDING AND STRUCTURE
Structure 2.1 The ionic model
2 Topics
S2.1.1_The Ionic Model
S2.1.2_Properties of Ionic Compound
Structure 2.2 The covalent model
10 Topics
S2.2.1_The Covalent Bond
S2.2.2_How to Work Out Lewis Formulas
S2.2.3_VSEPR model
S2.2.4_Molecular Polarity
S2.2.5_Intermolecular Forces
S2.2.6_Solubility and Chromatography
S2.2.7_Covalent Network Structures
S2.2.8_The Expanded Octet and Formal Charge (HL)
S2.2.9_Hybridization (HL)
S2.2.10_Resonance and Benzene (HL)
Structure 2.3 The metallic model
2 Topics
S2.3.1_The Metallic Model
S2.3.2_Properties of Transition Metals (HL)
Structure 2.4 From models to materials
4 Topics
S2.4.1_Classifying Bonds
S2.4.2_Alloys
S2.4.3_Polymers
S2.4.4_Condensation Polymerization (HL)
STRUCTURE 3 CLASSIFICATION OF MATTER
Structure 3.1 The periodic table: Classification of elements
9 Topics
S3.1.1_The Periodic Table
S3.1.2_Periodicity (1)
S3.1.3_Periodicity (2)
S3.1.4_Group 1 and 17 Elements
S3.1.5_Oxides
S3.1.6_Oxidation State
S3.1.7_Exception to First Ionization Energy (HL)
S3.1.8_The Transition Elements (1) (HL)
S3.1.9_The Transition Elements (2) (HL)
Structure 3.2 Functional groups: Classification of organic compounds
9 Topics
S3.2.1_The Structures of Organic Molecules
S3.2.2_Homologous Series and Functional Group
S3.2.3_Naming Organic Molecules
S3.2.4_Structure Isomers
S3.2.5_Stereoisomers (HL)
S3.2.6_Mass Spectrometry (HL)
S3.2.7_IR Spectroscopy (HL)
S3.2.8_Proton NMR Spectroscopy (HL)
S3.2.9_Determining the Structure of a Molecule (HL)
REACTIVITY 1 WHAT DRIVES CHEMICAL REACTIONS?
Reactivity 1.1 Measuring enthalpy changes
2 Topics
R1.1.1_Exothermic and Endothermic Reactions
R1.1.2_Measuring Enthalpy Changes
Reactivity 1.2 Energy cycles in reactions
4 Topics
R1.2.1_Bond Enthalpy
R1.2.2_Hess’s Law
R1.2.3_Various Standard Enthalpy Changes (HL)
R1.2.4_Energy Cycles for Ionic Compound (HL)
Reactivity 1.3 Energy from fuels
3 Topics
R1.3.1_Combustion Reactions
R1.3.2_Fossil Fuels
R1.3.3_Renewable Energy Sources
Reactivity 1.4 Entropy and spontaneity (HL)
3 Topics
R1.4.1_Entropy (HL)
R1.4.2_Gibbs Energy and Spontaneity (HL)
R1.4.3_Gibbs Energy and Equilibrium (1) (HL)
REACTIVITY 2 HOW MUCH, HOW FAST AND HOW FAR?
Reactivity 2.1 How much? The amount of chemical change
3 Topics
R2.1.1_The Meaning of Chemical Equations (1)
R2.1.2_The Meaning of Chemical Equations (2)
R2.1.3_Yield and Atom Economy
Reactivity 2.2 How fast? The rate of chemical change
8 Topics
R2.2.1_Defining the Rate of Reaction
R2.2.2_Factors Affecting Reaction Rate (1)
R2.2.3_Factors Affecting Reaction Rate (2)
R2.2.4_The Rate Equation (1) (HL)
R2.2.5_The Rate Equation (2) (HL)
R2.2.6_Mechanism of Reactions (1) (HL)
R2.2.7_Mechanism of Reactions (2) (HL)
R2.2.8_The Arrhenius Equation (HL)
Reactivity 2.3 How far? The extent of chemical change
5 Topics
R2.3.1_Dynamic Equilibrium
R2.3.2_Le Chatelier’s Principle
R2.3.3_Equilibrium Constant
R2.3.4_Applying the Equilibrium Law (HL)
R2.3.5_Gibbs Energy and Equilibrium (2) (HL)
REACTIVITY 3 WHAT ARE THE MECHANISMS OF CHEMICAL CHANGE?
Reactivity 3.1 Proton transfer reactions
10 Topics
R3.1.1_Theories of Acid and Base
R3.1.2_Conjugate Acid-base Pairs
R3.1.3_The pH Scale
R3.1.4_Strong and Weak Acids and Bases
R3.1.5_The Dissociation of Water
R3.1.6_Neutralization and Titration Curve
R3.1.7_Ionization Constant (HL)
R3.1.8_More pH Curves (HL)
R3.1.9_Indicator (HL)
R3.1.10_Buffer Solutions (HL)
Reactivity 3.2 Electron transfer reactions
11 Topics
R3.2.1_Redox Reactions
R3.2.2_Redox Reactions of Metals and Halogens
R3.2.3_Electrochemical Cell (1)
R3.2.4_Electrochemical Cell (2)
R3.2.5_Electrochemical Cell (3)
R3.2.6_Redox Reaction of Organic Compound (1)
R3.2.7_Redox Reaction of Organic Compound (2)
R3.2.8_Standard Cell Potential (1) (HL)
R3.2.9_Standard Cell Potential (2) (HL)
R3.2.10_Electrolysis of Aqueous Solutions (1) (HL)
R3.2.11_Electrolysis of Aqueous Solutions (2) (HL)
Reactivity 3.3 Electron sharing reactions
1 Topic
R3.3.1_Radicals and Substitution Reaction
Reactivity 3.4 Electron-pair sharing reactions
6 Topics
R3.4.1_Nucleophilic Substitution
R3.4.2_Addition Reaction
R3.4.3_Lewis Acid and Base (HL)
R3.4.4_Nucleophilic Substitution Mechanism (HL)
R3.4.5_Electrophilic Addition Mechanism (HL)
R3.4.6_Electrophilic Substitution (HL)
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Sample : S1.1.1_Elements Compounds and Mixtures
IB CHEMISTRY HL – 이건휘
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Sample : S1.1.1_Elements Compounds and Mixtures
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