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AIS Science
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8 Science
EPI Skills
Lesson 1 - Scientific Questions
Lesson 2 - Variables
Lesson 3 - Drawing Tables
Lesson 4 - Drawing Graphs
Lesson 5 - Carrying out an Investigation
Lesson 6 & 7- EPI Section 1
Lesson 8 & 9 - EPI Section 2
Lesson 10, 11, 12 & 13 - EPI Section 3
Body Systems 1
Digestive System
L1 - A Balanced Diet
L2 - Enzyme Activity
L3 - Enzymes and Temperature
L4 - Enzymes and pH
L5 - Human Teeth
L6, 7 & 8 - Digestive System
Circulatory System
L1 - The Heart
L2 - Heart Rate
L3 - Blood Vessels
L4 - Circulatory System
L5 - Coronary Heart Disease
L6 - Blood
L7-8 - Defence Against Pathogens
L9 - Vaccinations
Respiratory System
L1 - Respiration
L2-3 - Respiration Experiments
L4 - Lung Structure
L5 - Gas Exchange
L6 - Breathing
L7 - Breathing and Exercise
L8 - Smoking
Energy
Forces & Energy
L1 - Work & Energy
L2 - Energy Transformation
L3 - Calculating PE and KE
L4 - Efficiency & Power
L5 - Energy for Electricity 1
L6 - Energy for Electricity 2
L7 - Energy Resources 1
Electricity
L1 - Static Electricity
L2 - Electric Charge
L3 - Current in a Simple Circuit
L4 - Potential Difference
L5 - Resistance
L6 - Series and Parallel Circuits
Heat
L1 - Moving Particles
L2 - Thermal Conduction
L3 - Convection
L4 - Thermal Radiation
L5 - Liquids & Vapours
Sound
L1 - Transverse & Longitudinal Waves
L2 - Sound Waves
L3 - Characteristics of Sound Waves
Light
L1 - Light Rays and Waves
L2 - Reflection
L3 - Refraction
L4 - Seeing Colour
Matter
L1 - Solids, Liquids & Gases
L2 - Changes of State
L3 - Melting & Boiling Points
L4 - Chemical & Physical Change
L5 - Elements & Compounds 1
L6 - Elements & Compounds 2
L7 - The Atom
L8 - Isotopes
L9 - Arranging Electrons
L10-12 - Ionic
L13-15 - Molecular Covalent
EPI Skills 2
9 Science
Atomic Structure and Bonding
L1 - Solids, Liquids and Gases
L2 - States of Matter
L3 - Energy in Changes of State
L4 - Rate of Diffusion
L5 - Elements, Mixtures & Compounds
L6 - The Atom
L7 - Isotopes
L8 - Arranging Electrons
L9 - Ionic
L10 - Metallic
L11 - Molecular Covalent
L12 - Giant Covalent
L13 - 15 - Separation Techniques
Homework and Assessments
Light
L1 - Reflection
L2 & 3 - Refraction
L4 - Total Internal Reflection
L5 & 6 - Lenses
Human Systems
Digestive System
L1 - A Balanced Diet
L2 - Food Tests
L3 - Enzyme Activity
L4 - Enzymes and Temperature
L5 - Enzymes and pH
L6 - Human Teeth
L7, 8 & 9 - Digestive System
L10 - Deficiencies
Circulatory System
L1 - The Heart
L2 - Heart Rate
L3 - Blood Vessels
L4 - Circulatory System
L5 - Coronary Heart Disease
L6 - Blood
L7-8 - Defence Against Pathogens
L9 - Vaccinations
Respiratory System
L1 - Types of Respiration
L2 & 3 - Respiration Experiments
L4 - Lung Structure
L5 - Gas Exchange
L6 - Breathing
L7 - Breathing and Exercise
L8 - Smoking
Radioactivity
L1 - The Nuclear Atom
L2 - Types of Emission
L3 - Deflection of Ionising Radiation
L4 - Radioactive Decay
L5 - Detection and Uses
L6 - Radioactivity Revision
Electricity
L1 - Static Electricity
L2 - Electric Charge
L3 - Electric Fields
L4 - Current in a Simple Circuit
L5 - Potential Difference
L6 - Resistance 1
L7 - Resistance 2
L8 - Factors Affecting Resistance
L9 - Series and Parallel Circuits 1
L10 & 11 - Series and Parallel Circuits 2
L12 - Living with Electricity
Energy
Forces and Energy
L1 - Work & Energy
L2 - Energy Transformation
L3 - Calculating PE and KE
L4 - Efficiency & Power
L5 - Energy for Electricity 1
L6 - Energy for Electricity 2
L7 - Energy Resources
Heat Energy
L1 - Moving Particles
L2 - Temperature 1
L3 - Temperature 2
L4 - Expanding Solids & Liquids
L5 - Heating Gases
L6 - Thermal Conduction
L7 - Convection
L8 - Thermal Radiation
L9 - Liquids & Vapours
L10 - Specific Heat Capacity
Rates of Reaction
L1 - Energy Level Diagrams
L2 - Rate of Reaction
L3 - Factors Affecting Rate
L5 - Practically Determining Rate
Homework and Assessments
Stoichiometry
L1: Ionic Compounds
L2: Covalent Compounds
L3: Constructing and Balancing Equations
L4: Reacting Masses
L5: Reacting Masses 2
L6: Reacting Masses 3
L7: Stoichiometric Gas Volumes
L8: Solution Stoichiometry
10 Science
C9 Periodic Trends
C9 Group 1
C9 Group VII
10SPP Science
Atomic Structure and Bonding
L1 - Solids, Liquids and Gases
L2 - States of Matter
L3 - Energy in Changes of State
L4 - Rate of Diffusion
L5 - Elements, Mixtures & Compounds
L6 - The Atom
L7 - Isotopes
L8 - Arranging Electrons
L9 - Ionic
L10 - Metallic
L11 - Molecular Covalent
L12 - Giant Covalent
L13 - 15 - Separation Techniques
Homework and Assessments
Organic Chemistry
L1 - Intro to Organic Chemistry
L2 - Alkanes
L3 - Halogenoalkanes
L4 - Alkenes
L5 - Polymerisation
L6 - Alcohols
Light
L1 - Reflection
L2 & 3 - Refraction
L4 - Total Internal Reflection
L5 & 6 - Lenses
Radioactivity
L1 - The Nuclear Atom
L2 - Types of Emission
L3 - Deflection of Ionising Radiation
L4 - Radioactive Decay
L5 - Detection and Uses
L6 - Radioactivity Revision
Electricity
L1 - Static Electricity
L2 - Electric Charge
L3 - Electric Fields
L4 - Current in a Simple Circuit
L5 - Potential Difference
L6 - Resistance 1
L7 - Resistance 2
L8 - Factors Affecting Resistance
L9 - Series and Parallel Circuits 1
L10 & 11 - Series and Parallel Circuits 2
L12 - Living with Electricity
Energy
Forces & Energy
L1 - Work & Energy
L2 - Energy Transformation
L3 - Calculating PE and KE
L4 - Efficiency & Power
L5 - Energy for Electricity 1
L6 - Energy for Electricity 2
L7 - Energy Resources
Thermal Physics
L1 - Moving Particles
L2 - Temperature 1
L3 - Temperature 2
L4 - Expanding Solids & Liquids
L5 - Heating Gases
L6 - Thermal Conduction
L7 - Convection
L8 - Thermal Radiation
L9 - Liquids & Vapours
L10 - Specific Heat Capacity
Rates of Reaction
L1 Energy Level Diagrams
L2 Rate of Reaction
L3 Factors Affecting Rate
L4 Practically Determining Rate
Measurement
L1 - Length & Time
L2 - A System of Units
L3 - Measuring Length & Time
L4 - Volume & Density
L5 - Measuring Volume & Density
L6 - More About Mass & Density
Stoichiometry
L1: Ionic Compounds
L2: Covalent Compounds
L3: Constructing and Balancing Equations
L4: Reacting Masses
L5: Reacting Masses 2
L6: Reacting Masses 3
L7: Stoichiometric Gas Volumes
L8: Solution Stoichiometry
IB DP Chemistry
Course Documents
Course Structure
Internal Assessment
Draft IA 2 - Rate of Reaction
Exploration
Research Question
Background Information
Method
Examples of IA's
Draft IA 3 - Calculating Kc
RQ, Background Information
Method, Risk Assessment
Calculations
Analysis
Evaluation
Additional Helpful Documents
Examples of IA's
Advanced Chemical Techniques
L1 - Colorimetry
L2 - Chromatography
L3 - Polarimetry
L4 - UV-Visible Spectrophotometry
IB DP SL Topics
1. Stoichiometric Relationships
1.1 The Particulate Nature of Matter
1.2 The Mole Concept
2. Atomic Structure
3. Periodicity
4. Chemical Bonding and Structure
5. Energetics/Thermochemistry
6. Chemical Kinetics
L1 - Reaction Kinetics
L2 - Factors Affecting Rate
L3 - Energy Level Diagrams
L4 - Catalysts and Energy Level Diagrams
L5 - Maxwell-Boltzmann Distribution
L6 - Practically Determining Rate
Homework and Assessments
7. Equilibria
L1 - Reversible Reactions
L2 - Open Closed & Isolated Systems
L3 - Equilibrium Constants
L4 - Le Chetalier's Principle
8. Acids and Bases
L1 - Theories of Acids & Bases
L2 - Properties of Acids & Bases
L3 - Reactivity of Metals and Acids
L4 - pH Scale
L5 - Strong and Weak Acids & Bases
L6 - Acid Deposition
9. Redox Processes
L1 - Intro to Redox
L2 - Redox Reactions
L3 - Activity Series
L4 - Feasibility of Redox Reactions
L5 - 7 - Redox Titrations
L8 - The Winkler Method
L9 - Galvanic Cells
L10 - Cell Diagrams
L11 - Electrolytic Cells
10. Organic Chemistry
L1-2 - Intro to Organic Chemistry
L3 - Structural Isomerism
L4 - Alkanes
L5 - Free Radical Substitution
L6 - Alkenes & Alkynes
L7 - Reactions of Hydrocarbons
L8 - Addition Polymerisation
L9 - Alcohols
L10 - Reactions of Alcohols
L11 - Production of Esters
L12 - Halogenoalkanes
L13 - Benzene
11. Measurement and Data Processing
L1 - Uncertainties and Errors
L2 - Graphical Techniques
L3 - Index of Hydrogen Deficiency
L4 - Mass Spectrometry
L5 - NMR
L6 - Infra-Red Spectroscopy
IB DP HL Topics
12. Atomic Structure
13. The Transition Metals
L1 - Origins of Variable Oxidation States
L2 - Complex Ions
L3 - Coloured Complexes
L4 - Properties of Transition Metals
14. Chemical Bonding and Structure
15. Energetics/Thermochemistry
16. Chemical Kinetics
The Rate Equation
Rate Equation Calculations
17. Equilibrium
L1 - Relationships
L2 - Free Energy and Equilibrium
18. Acids and Bases
L1 - Lewis Theory
L2 - pH of Weak Acids
L3 - pH of Weak Bases
L4 - pH of Water at Different Temperatures
L5-6 - pH Curves
L7 - Buffers
L8 - Salt Hydrolysis
L9 - Hydrated Metal Ions
19. Redox Processes
L1 - Reduction Potentials
L2 - Nernst Equation
L3 - Electrolysis of Aqueous Solutions
L4 - Electroplating
L5 - Quantitative Aspects of Electrolysis
20. Organic Chemistry
L1 - Nucleophillic Substitution
L2 - Electrophilic Addition
L3 - Electrophilic Substitution
L4 - Reduction
L5 - Synthetic Routes
L6 - E/Z Isomerism
L7 - Optical Isomerism
21. Measurement and Analysis
L1 - HL NMR
L2 - NMR Practice
L3 - X-Ray Crystallography
L4 - Structural Determination
Option Choices
A. Materials
B. Biochemistry
SL Lessons
L1 - Intro to Biochemistry
L2 - Amino Acids
L3 - Proteins
L4 - Roles of Proteins
L5 - Analysis of Proteins
L6 - Triglycerides
L7 - Phospholipids, Steroids and Health
L8 - Carbohydrates
L9 - Vitamins
L10 - Biochemistry and the Environment
Past Papers
HL Lessons
L1 - Proteins and Enzymes HL
L2 - Enzyme Inhibition
L3 - Buffer Systems
L4 - Nucleic Acids
L5 - Biological Pigments 1
L6 - Biological Pigments 2 - Porphyrins
L7 - Stereochemistry in Biomolecules
Past Papers
C. Energy
D. Medicinal Chemistry
HSC Chemistry
Year 11
Module 1 - Atomic Structure and Properties of Matter
Part 1 - Atomic Structure
L1 - The History of the Atom
L2 - Fundamental Particles
Module 2 - Stoichiometric Relationships
L1-3 - Balancing Equations
L4 - The Mole
L5-7 - Reacting Masses
L8-9 - Empirical & Molecular Formula
L10-12 - Reacting Volumes
L13-14 - Reacting Gases
L15 - Complex Calculations
Module 3
Redox
L1 - Intro to Redox
L2 - Redox Reactions
L3 - Activity Series
L4 - Feasibility of Redox Reactions
L5 - 7 - Redox Titrations
L8 - The Winkler Method
L9 - Galvanic Cells
L10 - Cell Diagrams
L11 - Electrolytic Cells
L11 - Electrolytic Cells
Kinetics
L1 - Reaction Kinetics
L2 - Factors Affecting Rate
L3 - Energy Level Diagrams
L4 - Catalysts and Energy Level Diagrams
L5 - Maxwell-Boltzmann Distribution
L6 - Practically Determining Rate
Homework and Assessments
Module 4
Energetics
L1+L2 - Calorimetry
L3 - Enthalpy of Combustion
L4 - Enthalpy of Combustion
L5 - Mean Bond Enthalpies
Year 12
Module 5 - Equilibrium and Acid Reactions
Reversible Reactions
Energy Level Diagrams
Open Closed & Isolated Systems
Le Chetalier's Principle
Module 6 - Acid/Base Reactions
L1 - Theories of Acids & Bases
L2 - Properties of Acids & Bases
L3 - Reactivity of Metals and Acids
L4 - pH Scale
L5 - Strong and Weak Acids & Bases
L6 - pH of Weak Acids
L7 - pH of Weak Bases
L8 - pH of Water at Different Temperatures
L9-10 - pH Curves
L11 - Buffers
L12 - Salt Hydrolysis
L13 - Enthalpy of Neutralisation
Module 7 - Organic Chemistry
L1-2 - Intro to Organic Chemistry
L3 - Structural Isomerism
L4 - Alkanes
L5 - Alkenes & Alkynes
L6 - Halogenoalkanes
L7 - Investigating the properties of a homologous series
L8 - Handling & Environmental Impacts of Hydrocarbons
L9 - Economic, Social and Environmental Impacts of Hydrocarbons
L10-11 - Reactions of Hydrocarbons
L12 - 13 - Alcohols
L14 - Enthalpy of Combustion of Alcohols
L15 - Reactions of Alcohols
L16 - Production of Alcohol
L17 - Alcohols as Fuels
L18 - Structure of Organic Acids & Bases
L19 - Production of Esters
L20 - Investigating Organic Acids & Bases
L21 - Soaps & Detergents
L22 - Synthetic Routes
L23 - Addition Polymerisation
L24 - Condensation Polymerisation
Module 8 - Applying Chemical Ideas
Analysis of Organic Substances
L1 - Qualitative Tests on Organic Compounds
L2 - Mass Spectrometry
L3 - Infra-Red Spectroscopy
L4 - C-13 NMR Spectroscopy
L5 - H NMR
L6 - H NMR 2
L7 - H NMR Practice
Analysis of Inorganic Substances
L1 - Environmental Analysis
L2 - Cation Qualitative Ion Tests
L3 - Anion Qualitative Tests
L4 - Gravimetric Analysis
L5 - Precipitation Titrations
L6 - Colorimetry
L7 - UV-Visible Spectrophotometry
L8 - Atomic Absorption Spectroscopy
Chemical Synthesis & Design
Past Papers
Past Papers
AIS Science
Home
8 Science
EPI Skills
Lesson 1 - Scientific Questions
Lesson 2 - Variables
Lesson 3 - Drawing Tables
Lesson 4 - Drawing Graphs
Lesson 5 - Carrying out an Investigation
Lesson 6 & 7- EPI Section 1
Lesson 8 & 9 - EPI Section 2
Lesson 10, 11, 12 & 13 - EPI Section 3
Body Systems 1
Digestive System
L1 - A Balanced Diet
L2 - Enzyme Activity
L3 - Enzymes and Temperature
L4 - Enzymes and pH
L5 - Human Teeth
L6, 7 & 8 - Digestive System
Circulatory System
L1 - The Heart
L2 - Heart Rate
L3 - Blood Vessels
L4 - Circulatory System
L5 - Coronary Heart Disease
L6 - Blood
L7-8 - Defence Against Pathogens
L9 - Vaccinations
Respiratory System
L1 - Respiration
L2-3 - Respiration Experiments
L4 - Lung Structure
L5 - Gas Exchange
L6 - Breathing
L7 - Breathing and Exercise
L8 - Smoking
Energy
Forces & Energy
L1 - Work & Energy
L2 - Energy Transformation
L3 - Calculating PE and KE
L4 - Efficiency & Power
L5 - Energy for Electricity 1
L6 - Energy for Electricity 2
L7 - Energy Resources 1
Electricity
L1 - Static Electricity
L2 - Electric Charge
L3 - Current in a Simple Circuit
L4 - Potential Difference
L5 - Resistance
L6 - Series and Parallel Circuits
Heat
L1 - Moving Particles
L2 - Thermal Conduction
L3 - Convection
L4 - Thermal Radiation
L5 - Liquids & Vapours
Sound
L1 - Transverse & Longitudinal Waves
L2 - Sound Waves
L3 - Characteristics of Sound Waves
Light
L1 - Light Rays and Waves
L2 - Reflection
L3 - Refraction
L4 - Seeing Colour
Matter
L1 - Solids, Liquids & Gases
L2 - Changes of State
L3 - Melting & Boiling Points
L4 - Chemical & Physical Change
L5 - Elements & Compounds 1
L6 - Elements & Compounds 2
L7 - The Atom
L8 - Isotopes
L9 - Arranging Electrons
L10-12 - Ionic
L13-15 - Molecular Covalent
EPI Skills 2
9 Science
Atomic Structure and Bonding
L1 - Solids, Liquids and Gases
L2 - States of Matter
L3 - Energy in Changes of State
L4 - Rate of Diffusion
L5 - Elements, Mixtures & Compounds
L6 - The Atom
L7 - Isotopes
L8 - Arranging Electrons
L9 - Ionic
L10 - Metallic
L11 - Molecular Covalent
L12 - Giant Covalent
L13 - 15 - Separation Techniques
Homework and Assessments
Light
L1 - Reflection
L2 & 3 - Refraction
L4 - Total Internal Reflection
L5 & 6 - Lenses
Human Systems
Digestive System
L1 - A Balanced Diet
L2 - Food Tests
L3 - Enzyme Activity
L4 - Enzymes and Temperature
L5 - Enzymes and pH
L6 - Human Teeth
L7, 8 & 9 - Digestive System
L10 - Deficiencies
Circulatory System
L1 - The Heart
L2 - Heart Rate
L3 - Blood Vessels
L4 - Circulatory System
L5 - Coronary Heart Disease
L6 - Blood
L7-8 - Defence Against Pathogens
L9 - Vaccinations
Respiratory System
L1 - Types of Respiration
L2 & 3 - Respiration Experiments
L4 - Lung Structure
L5 - Gas Exchange
L6 - Breathing
L7 - Breathing and Exercise
L8 - Smoking
Radioactivity
L1 - The Nuclear Atom
L2 - Types of Emission
L3 - Deflection of Ionising Radiation
L4 - Radioactive Decay
L5 - Detection and Uses
L6 - Radioactivity Revision
Electricity
L1 - Static Electricity
L2 - Electric Charge
L3 - Electric Fields
L4 - Current in a Simple Circuit
L5 - Potential Difference
L6 - Resistance 1
L7 - Resistance 2
L8 - Factors Affecting Resistance
L9 - Series and Parallel Circuits 1
L10 & 11 - Series and Parallel Circuits 2
L12 - Living with Electricity
Energy
Forces and Energy
L1 - Work & Energy
L2 - Energy Transformation
L3 - Calculating PE and KE
L4 - Efficiency & Power
L5 - Energy for Electricity 1
L6 - Energy for Electricity 2
L7 - Energy Resources
Heat Energy
L1 - Moving Particles
L2 - Temperature 1
L3 - Temperature 2
L4 - Expanding Solids & Liquids
L5 - Heating Gases
L6 - Thermal Conduction
L7 - Convection
L8 - Thermal Radiation
L9 - Liquids & Vapours
L10 - Specific Heat Capacity
Rates of Reaction
L1 - Energy Level Diagrams
L2 - Rate of Reaction
L3 - Factors Affecting Rate
L5 - Practically Determining Rate
Homework and Assessments
Stoichiometry
L1: Ionic Compounds
L2: Covalent Compounds
L3: Constructing and Balancing Equations
L4: Reacting Masses
L5: Reacting Masses 2
L6: Reacting Masses 3
L7: Stoichiometric Gas Volumes
L8: Solution Stoichiometry
10 Science
C9 Periodic Trends
C9 Group 1
C9 Group VII
10SPP Science
Atomic Structure and Bonding
L1 - Solids, Liquids and Gases
L2 - States of Matter
L3 - Energy in Changes of State
L4 - Rate of Diffusion
L5 - Elements, Mixtures & Compounds
L6 - The Atom
L7 - Isotopes
L8 - Arranging Electrons
L9 - Ionic
L10 - Metallic
L11 - Molecular Covalent
L12 - Giant Covalent
L13 - 15 - Separation Techniques
Homework and Assessments
Organic Chemistry
L1 - Intro to Organic Chemistry
L2 - Alkanes
L3 - Halogenoalkanes
L4 - Alkenes
L5 - Polymerisation
L6 - Alcohols
Light
L1 - Reflection
L2 & 3 - Refraction
L4 - Total Internal Reflection
L5 & 6 - Lenses
Radioactivity
L1 - The Nuclear Atom
L2 - Types of Emission
L3 - Deflection of Ionising Radiation
L4 - Radioactive Decay
L5 - Detection and Uses
L6 - Radioactivity Revision
Electricity
L1 - Static Electricity
L2 - Electric Charge
L3 - Electric Fields
L4 - Current in a Simple Circuit
L5 - Potential Difference
L6 - Resistance 1
L7 - Resistance 2
L8 - Factors Affecting Resistance
L9 - Series and Parallel Circuits 1
L10 & 11 - Series and Parallel Circuits 2
L12 - Living with Electricity
Energy
Forces & Energy
L1 - Work & Energy
L2 - Energy Transformation
L3 - Calculating PE and KE
L4 - Efficiency & Power
L5 - Energy for Electricity 1
L6 - Energy for Electricity 2
L7 - Energy Resources
Thermal Physics
L1 - Moving Particles
L2 - Temperature 1
L3 - Temperature 2
L4 - Expanding Solids & Liquids
L5 - Heating Gases
L6 - Thermal Conduction
L7 - Convection
L8 - Thermal Radiation
L9 - Liquids & Vapours
L10 - Specific Heat Capacity
Rates of Reaction
L1 Energy Level Diagrams
L2 Rate of Reaction
L3 Factors Affecting Rate
L4 Practically Determining Rate
Measurement
L1 - Length & Time
L2 - A System of Units
L3 - Measuring Length & Time
L4 - Volume & Density
L5 - Measuring Volume & Density
L6 - More About Mass & Density
Stoichiometry
L1: Ionic Compounds
L2: Covalent Compounds
L3: Constructing and Balancing Equations
L4: Reacting Masses
L5: Reacting Masses 2
L6: Reacting Masses 3
L7: Stoichiometric Gas Volumes
L8: Solution Stoichiometry
IB DP Chemistry
Course Documents
Course Structure
Internal Assessment
Draft IA 2 - Rate of Reaction
Exploration
Research Question
Background Information
Method
Examples of IA's
Draft IA 3 - Calculating Kc
RQ, Background Information
Method, Risk Assessment
Calculations
Analysis
Evaluation
Additional Helpful Documents
Examples of IA's
Advanced Chemical Techniques
L1 - Colorimetry
L2 - Chromatography
L3 - Polarimetry
L4 - UV-Visible Spectrophotometry
IB DP SL Topics
1. Stoichiometric Relationships
1.1 The Particulate Nature of Matter
1.2 The Mole Concept
2. Atomic Structure
3. Periodicity
4. Chemical Bonding and Structure
5. Energetics/Thermochemistry
6. Chemical Kinetics
L1 - Reaction Kinetics
L2 - Factors Affecting Rate
L3 - Energy Level Diagrams
L4 - Catalysts and Energy Level Diagrams
L5 - Maxwell-Boltzmann Distribution
L6 - Practically Determining Rate
Homework and Assessments
7. Equilibria
L1 - Reversible Reactions
L2 - Open Closed & Isolated Systems
L3 - Equilibrium Constants
L4 - Le Chetalier's Principle
8. Acids and Bases
L1 - Theories of Acids & Bases
L2 - Properties of Acids & Bases
L3 - Reactivity of Metals and Acids
L4 - pH Scale
L5 - Strong and Weak Acids & Bases
L6 - Acid Deposition
9. Redox Processes
L1 - Intro to Redox
L2 - Redox Reactions
L3 - Activity Series
L4 - Feasibility of Redox Reactions
L5 - 7 - Redox Titrations
L8 - The Winkler Method
L9 - Galvanic Cells
L10 - Cell Diagrams
L11 - Electrolytic Cells
10. Organic Chemistry
L1-2 - Intro to Organic Chemistry
L3 - Structural Isomerism
L4 - Alkanes
L5 - Free Radical Substitution
L6 - Alkenes & Alkynes
L7 - Reactions of Hydrocarbons
L8 - Addition Polymerisation
L9 - Alcohols
L10 - Reactions of Alcohols
L11 - Production of Esters
L12 - Halogenoalkanes
L13 - Benzene
11. Measurement and Data Processing
L1 - Uncertainties and Errors
L2 - Graphical Techniques
L3 - Index of Hydrogen Deficiency
L4 - Mass Spectrometry
L5 - NMR
L6 - Infra-Red Spectroscopy
IB DP HL Topics
12. Atomic Structure
13. The Transition Metals
L1 - Origins of Variable Oxidation States
L2 - Complex Ions
L3 - Coloured Complexes
L4 - Properties of Transition Metals
14. Chemical Bonding and Structure
15. Energetics/Thermochemistry
16. Chemical Kinetics
The Rate Equation
Rate Equation Calculations
17. Equilibrium
L1 - Relationships
L2 - Free Energy and Equilibrium
18. Acids and Bases
L1 - Lewis Theory
L2 - pH of Weak Acids
L3 - pH of Weak Bases
L4 - pH of Water at Different Temperatures
L5-6 - pH Curves
L7 - Buffers
L8 - Salt Hydrolysis
L9 - Hydrated Metal Ions
19. Redox Processes
L1 - Reduction Potentials
L2 - Nernst Equation
L3 - Electrolysis of Aqueous Solutions
L4 - Electroplating
L5 - Quantitative Aspects of Electrolysis
20. Organic Chemistry
L1 - Nucleophillic Substitution
L2 - Electrophilic Addition
L3 - Electrophilic Substitution
L4 - Reduction
L5 - Synthetic Routes
L6 - E/Z Isomerism
L7 - Optical Isomerism
21. Measurement and Analysis
L1 - HL NMR
L2 - NMR Practice
L3 - X-Ray Crystallography
L4 - Structural Determination
Option Choices
A. Materials
B. Biochemistry
SL Lessons
L1 - Intro to Biochemistry
L2 - Amino Acids
L3 - Proteins
L4 - Roles of Proteins
L5 - Analysis of Proteins
L6 - Triglycerides
L7 - Phospholipids, Steroids and Health
L8 - Carbohydrates
L9 - Vitamins
L10 - Biochemistry and the Environment
Past Papers
HL Lessons
L1 - Proteins and Enzymes HL
L2 - Enzyme Inhibition
L3 - Buffer Systems
L4 - Nucleic Acids
L5 - Biological Pigments 1
L6 - Biological Pigments 2 - Porphyrins
L7 - Stereochemistry in Biomolecules
Past Papers
C. Energy
D. Medicinal Chemistry
HSC Chemistry
Year 11
Module 1 - Atomic Structure and Properties of Matter
Part 1 - Atomic Structure
L1 - The History of the Atom
L2 - Fundamental Particles
Module 2 - Stoichiometric Relationships
L1-3 - Balancing Equations
L4 - The Mole
L5-7 - Reacting Masses
L8-9 - Empirical & Molecular Formula
L10-12 - Reacting Volumes
L13-14 - Reacting Gases
L15 - Complex Calculations
Module 3
Redox
L1 - Intro to Redox
L2 - Redox Reactions
L3 - Activity Series
L4 - Feasibility of Redox Reactions
L5 - 7 - Redox Titrations
L8 - The Winkler Method
L9 - Galvanic Cells
L10 - Cell Diagrams
L11 - Electrolytic Cells
L11 - Electrolytic Cells
Kinetics
L1 - Reaction Kinetics
L2 - Factors Affecting Rate
L3 - Energy Level Diagrams
L4 - Catalysts and Energy Level Diagrams
L5 - Maxwell-Boltzmann Distribution
L6 - Practically Determining Rate
Homework and Assessments
Module 4
Energetics
L1+L2 - Calorimetry
L3 - Enthalpy of Combustion
L4 - Enthalpy of Combustion
L5 - Mean Bond Enthalpies
Year 12
Module 5 - Equilibrium and Acid Reactions
Reversible Reactions
Energy Level Diagrams
Open Closed & Isolated Systems
Le Chetalier's Principle
Module 6 - Acid/Base Reactions
L1 - Theories of Acids & Bases
L2 - Properties of Acids & Bases
L3 - Reactivity of Metals and Acids
L4 - pH Scale
L5 - Strong and Weak Acids & Bases
L6 - pH of Weak Acids
L7 - pH of Weak Bases
L8 - pH of Water at Different Temperatures
L9-10 - pH Curves
L11 - Buffers
L12 - Salt Hydrolysis
L13 - Enthalpy of Neutralisation
Module 7 - Organic Chemistry
L1-2 - Intro to Organic Chemistry
L3 - Structural Isomerism
L4 - Alkanes
L5 - Alkenes & Alkynes
L6 - Halogenoalkanes
L7 - Investigating the properties of a homologous series
L8 - Handling & Environmental Impacts of Hydrocarbons
L9 - Economic, Social and Environmental Impacts of Hydrocarbons
L10-11 - Reactions of Hydrocarbons
L12 - 13 - Alcohols
L14 - Enthalpy of Combustion of Alcohols
L15 - Reactions of Alcohols
L16 - Production of Alcohol
L17 - Alcohols as Fuels
L18 - Structure of Organic Acids & Bases
L19 - Production of Esters
L20 - Investigating Organic Acids & Bases
L21 - Soaps & Detergents
L22 - Synthetic Routes
L23 - Addition Polymerisation
L24 - Condensation Polymerisation
Module 8 - Applying Chemical Ideas
Analysis of Organic Substances
L1 - Qualitative Tests on Organic Compounds
L2 - Mass Spectrometry
L3 - Infra-Red Spectroscopy
L4 - C-13 NMR Spectroscopy
L5 - H NMR
L6 - H NMR 2
L7 - H NMR Practice
Analysis of Inorganic Substances
L1 - Environmental Analysis
L2 - Cation Qualitative Ion Tests
L3 - Anion Qualitative Tests
L4 - Gravimetric Analysis
L5 - Precipitation Titrations
L6 - Colorimetry
L7 - UV-Visible Spectrophotometry
L8 - Atomic Absorption Spectroscopy
Chemical Synthesis & Design
Past Papers
Past Papers
More
Home
8 Science
EPI Skills
Lesson 1 - Scientific Questions
Lesson 2 - Variables
Lesson 3 - Drawing Tables
Lesson 4 - Drawing Graphs
Lesson 5 - Carrying out an Investigation
Lesson 6 & 7- EPI Section 1
Lesson 8 & 9 - EPI Section 2
Lesson 10, 11, 12 & 13 - EPI Section 3
Body Systems 1
Digestive System
L1 - A Balanced Diet
L2 - Enzyme Activity
L3 - Enzymes and Temperature
L4 - Enzymes and pH
L5 - Human Teeth
L6, 7 & 8 - Digestive System
Circulatory System
L1 - The Heart
L2 - Heart Rate
L3 - Blood Vessels
L4 - Circulatory System
L5 - Coronary Heart Disease
L6 - Blood
L7-8 - Defence Against Pathogens
L9 - Vaccinations
Respiratory System
L1 - Respiration
L2-3 - Respiration Experiments
L4 - Lung Structure
L5 - Gas Exchange
L6 - Breathing
L7 - Breathing and Exercise
L8 - Smoking
Energy
Forces & Energy
L1 - Work & Energy
L2 - Energy Transformation
L3 - Calculating PE and KE
L4 - Efficiency & Power
L5 - Energy for Electricity 1
L6 - Energy for Electricity 2
L7 - Energy Resources 1
Electricity
L1 - Static Electricity
L2 - Electric Charge
L3 - Current in a Simple Circuit
L4 - Potential Difference
L5 - Resistance
L6 - Series and Parallel Circuits
Heat
L1 - Moving Particles
L2 - Thermal Conduction
L3 - Convection
L4 - Thermal Radiation
L5 - Liquids & Vapours
Sound
L1 - Transverse & Longitudinal Waves
L2 - Sound Waves
L3 - Characteristics of Sound Waves
Light
L1 - Light Rays and Waves
L2 - Reflection
L3 - Refraction
L4 - Seeing Colour
Matter
L1 - Solids, Liquids & Gases
L2 - Changes of State
L3 - Melting & Boiling Points
L4 - Chemical & Physical Change
L5 - Elements & Compounds 1
L6 - Elements & Compounds 2
L7 - The Atom
L8 - Isotopes
L9 - Arranging Electrons
L10-12 - Ionic
L13-15 - Molecular Covalent
EPI Skills 2
9 Science
Atomic Structure and Bonding
L1 - Solids, Liquids and Gases
L2 - States of Matter
L3 - Energy in Changes of State
L4 - Rate of Diffusion
L5 - Elements, Mixtures & Compounds
L6 - The Atom
L7 - Isotopes
L8 - Arranging Electrons
L9 - Ionic
L10 - Metallic
L11 - Molecular Covalent
L12 - Giant Covalent
L13 - 15 - Separation Techniques
Homework and Assessments
Light
L1 - Reflection
L2 & 3 - Refraction
L4 - Total Internal Reflection
L5 & 6 - Lenses
Human Systems
Digestive System
L1 - A Balanced Diet
L2 - Food Tests
L3 - Enzyme Activity
L4 - Enzymes and Temperature
L5 - Enzymes and pH
L6 - Human Teeth
L7, 8 & 9 - Digestive System
L10 - Deficiencies
Circulatory System
L1 - The Heart
L2 - Heart Rate
L3 - Blood Vessels
L4 - Circulatory System
L5 - Coronary Heart Disease
L6 - Blood
L7-8 - Defence Against Pathogens
L9 - Vaccinations
Respiratory System
L1 - Types of Respiration
L2 & 3 - Respiration Experiments
L4 - Lung Structure
L5 - Gas Exchange
L6 - Breathing
L7 - Breathing and Exercise
L8 - Smoking
Radioactivity
L1 - The Nuclear Atom
L2 - Types of Emission
L3 - Deflection of Ionising Radiation
L4 - Radioactive Decay
L5 - Detection and Uses
L6 - Radioactivity Revision
Electricity
L1 - Static Electricity
L2 - Electric Charge
L3 - Electric Fields
L4 - Current in a Simple Circuit
L5 - Potential Difference
L6 - Resistance 1
L7 - Resistance 2
L8 - Factors Affecting Resistance
L9 - Series and Parallel Circuits 1
L10 & 11 - Series and Parallel Circuits 2
L12 - Living with Electricity
Energy
Forces and Energy
L1 - Work & Energy
L2 - Energy Transformation
L3 - Calculating PE and KE
L4 - Efficiency & Power
L5 - Energy for Electricity 1
L6 - Energy for Electricity 2
L7 - Energy Resources
Heat Energy
L1 - Moving Particles
L2 - Temperature 1
L3 - Temperature 2
L4 - Expanding Solids & Liquids
L5 - Heating Gases
L6 - Thermal Conduction
L7 - Convection
L8 - Thermal Radiation
L9 - Liquids & Vapours
L10 - Specific Heat Capacity
Rates of Reaction
L1 - Energy Level Diagrams
L2 - Rate of Reaction
L3 - Factors Affecting Rate
L5 - Practically Determining Rate
Homework and Assessments
Stoichiometry
L1: Ionic Compounds
L2: Covalent Compounds
L3: Constructing and Balancing Equations
L4: Reacting Masses
L5: Reacting Masses 2
L6: Reacting Masses 3
L7: Stoichiometric Gas Volumes
L8: Solution Stoichiometry
10 Science
C9 Periodic Trends
C9 Group 1
C9 Group VII
10SPP Science
Atomic Structure and Bonding
L1 - Solids, Liquids and Gases
L2 - States of Matter
L3 - Energy in Changes of State
L4 - Rate of Diffusion
L5 - Elements, Mixtures & Compounds
L6 - The Atom
L7 - Isotopes
L8 - Arranging Electrons
L9 - Ionic
L10 - Metallic
L11 - Molecular Covalent
L12 - Giant Covalent
L13 - 15 - Separation Techniques
Homework and Assessments
Organic Chemistry
L1 - Intro to Organic Chemistry
L2 - Alkanes
L3 - Halogenoalkanes
L4 - Alkenes
L5 - Polymerisation
L6 - Alcohols
Light
L1 - Reflection
L2 & 3 - Refraction
L4 - Total Internal Reflection
L5 & 6 - Lenses
Radioactivity
L1 - The Nuclear Atom
L2 - Types of Emission
L3 - Deflection of Ionising Radiation
L4 - Radioactive Decay
L5 - Detection and Uses
L6 - Radioactivity Revision
Electricity
L1 - Static Electricity
L2 - Electric Charge
L3 - Electric Fields
L4 - Current in a Simple Circuit
L5 - Potential Difference
L6 - Resistance 1
L7 - Resistance 2
L8 - Factors Affecting Resistance
L9 - Series and Parallel Circuits 1
L10 & 11 - Series and Parallel Circuits 2
L12 - Living with Electricity
Energy
Forces & Energy
L1 - Work & Energy
L2 - Energy Transformation
L3 - Calculating PE and KE
L4 - Efficiency & Power
L5 - Energy for Electricity 1
L6 - Energy for Electricity 2
L7 - Energy Resources
Thermal Physics
L1 - Moving Particles
L2 - Temperature 1
L3 - Temperature 2
L4 - Expanding Solids & Liquids
L5 - Heating Gases
L6 - Thermal Conduction
L7 - Convection
L8 - Thermal Radiation
L9 - Liquids & Vapours
L10 - Specific Heat Capacity
Rates of Reaction
L1 Energy Level Diagrams
L2 Rate of Reaction
L3 Factors Affecting Rate
L4 Practically Determining Rate
Measurement
L1 - Length & Time
L2 - A System of Units
L3 - Measuring Length & Time
L4 - Volume & Density
L5 - Measuring Volume & Density
L6 - More About Mass & Density
Stoichiometry
L1: Ionic Compounds
L2: Covalent Compounds
L3: Constructing and Balancing Equations
L4: Reacting Masses
L5: Reacting Masses 2
L6: Reacting Masses 3
L7: Stoichiometric Gas Volumes
L8: Solution Stoichiometry
IB DP Chemistry
Course Documents
Course Structure
Internal Assessment
Draft IA 2 - Rate of Reaction
Exploration
Research Question
Background Information
Method
Examples of IA's
Draft IA 3 - Calculating Kc
RQ, Background Information
Method, Risk Assessment
Calculations
Analysis
Evaluation
Additional Helpful Documents
Examples of IA's
Advanced Chemical Techniques
L1 - Colorimetry
L2 - Chromatography
L3 - Polarimetry
L4 - UV-Visible Spectrophotometry
IB DP SL Topics
1. Stoichiometric Relationships
1.1 The Particulate Nature of Matter
1.2 The Mole Concept
2. Atomic Structure
3. Periodicity
4. Chemical Bonding and Structure
5. Energetics/Thermochemistry
6. Chemical Kinetics
L1 - Reaction Kinetics
L2 - Factors Affecting Rate
L3 - Energy Level Diagrams
L4 - Catalysts and Energy Level Diagrams
L5 - Maxwell-Boltzmann Distribution
L6 - Practically Determining Rate
Homework and Assessments
7. Equilibria
L1 - Reversible Reactions
L2 - Open Closed & Isolated Systems
L3 - Equilibrium Constants
L4 - Le Chetalier's Principle
8. Acids and Bases
L1 - Theories of Acids & Bases
L2 - Properties of Acids & Bases
L3 - Reactivity of Metals and Acids
L4 - pH Scale
L5 - Strong and Weak Acids & Bases
L6 - Acid Deposition
9. Redox Processes
L1 - Intro to Redox
L2 - Redox Reactions
L3 - Activity Series
L4 - Feasibility of Redox Reactions
L5 - 7 - Redox Titrations
L8 - The Winkler Method
L9 - Galvanic Cells
L10 - Cell Diagrams
L11 - Electrolytic Cells
10. Organic Chemistry
L1-2 - Intro to Organic Chemistry
L3 - Structural Isomerism
L4 - Alkanes
L5 - Free Radical Substitution
L6 - Alkenes & Alkynes
L7 - Reactions of Hydrocarbons
L8 - Addition Polymerisation
L9 - Alcohols
L10 - Reactions of Alcohols
L11 - Production of Esters
L12 - Halogenoalkanes
L13 - Benzene
11. Measurement and Data Processing
L1 - Uncertainties and Errors
L2 - Graphical Techniques
L3 - Index of Hydrogen Deficiency
L4 - Mass Spectrometry
L5 - NMR
L6 - Infra-Red Spectroscopy
IB DP HL Topics
12. Atomic Structure
13. The Transition Metals
L1 - Origins of Variable Oxidation States
L2 - Complex Ions
L3 - Coloured Complexes
L4 - Properties of Transition Metals
14. Chemical Bonding and Structure
15. Energetics/Thermochemistry
16. Chemical Kinetics
The Rate Equation
Rate Equation Calculations
17. Equilibrium
L1 - Relationships
L2 - Free Energy and Equilibrium
18. Acids and Bases
L1 - Lewis Theory
L2 - pH of Weak Acids
L3 - pH of Weak Bases
L4 - pH of Water at Different Temperatures
L5-6 - pH Curves
L7 - Buffers
L8 - Salt Hydrolysis
L9 - Hydrated Metal Ions
19. Redox Processes
L1 - Reduction Potentials
L2 - Nernst Equation
L3 - Electrolysis of Aqueous Solutions
L4 - Electroplating
L5 - Quantitative Aspects of Electrolysis
20. Organic Chemistry
L1 - Nucleophillic Substitution
L2 - Electrophilic Addition
L3 - Electrophilic Substitution
L4 - Reduction
L5 - Synthetic Routes
L6 - E/Z Isomerism
L7 - Optical Isomerism
21. Measurement and Analysis
L1 - HL NMR
L2 - NMR Practice
L3 - X-Ray Crystallography
L4 - Structural Determination
Option Choices
A. Materials
B. Biochemistry
SL Lessons
L1 - Intro to Biochemistry
L2 - Amino Acids
L3 - Proteins
L4 - Roles of Proteins
L5 - Analysis of Proteins
L6 - Triglycerides
L7 - Phospholipids, Steroids and Health
L8 - Carbohydrates
L9 - Vitamins
L10 - Biochemistry and the Environment
Past Papers
HL Lessons
L1 - Proteins and Enzymes HL
L2 - Enzyme Inhibition
L3 - Buffer Systems
L4 - Nucleic Acids
L5 - Biological Pigments 1
L6 - Biological Pigments 2 - Porphyrins
L7 - Stereochemistry in Biomolecules
Past Papers
C. Energy
D. Medicinal Chemistry
HSC Chemistry
Year 11
Module 1 - Atomic Structure and Properties of Matter
Part 1 - Atomic Structure
L1 - The History of the Atom
L2 - Fundamental Particles
Module 2 - Stoichiometric Relationships
L1-3 - Balancing Equations
L4 - The Mole
L5-7 - Reacting Masses
L8-9 - Empirical & Molecular Formula
L10-12 - Reacting Volumes
L13-14 - Reacting Gases
L15 - Complex Calculations
Module 3
Redox
L1 - Intro to Redox
L2 - Redox Reactions
L3 - Activity Series
L4 - Feasibility of Redox Reactions
L5 - 7 - Redox Titrations
L8 - The Winkler Method
L9 - Galvanic Cells
L10 - Cell Diagrams
L11 - Electrolytic Cells
L11 - Electrolytic Cells
Kinetics
L1 - Reaction Kinetics
L2 - Factors Affecting Rate
L3 - Energy Level Diagrams
L4 - Catalysts and Energy Level Diagrams
L5 - Maxwell-Boltzmann Distribution
L6 - Practically Determining Rate
Homework and Assessments
Module 4
Energetics
L1+L2 - Calorimetry
L3 - Enthalpy of Combustion
L4 - Enthalpy of Combustion
L5 - Mean Bond Enthalpies
Year 12
Module 5 - Equilibrium and Acid Reactions
Reversible Reactions
Energy Level Diagrams
Open Closed & Isolated Systems
Le Chetalier's Principle
Module 6 - Acid/Base Reactions
L1 - Theories of Acids & Bases
L2 - Properties of Acids & Bases
L3 - Reactivity of Metals and Acids
L4 - pH Scale
L5 - Strong and Weak Acids & Bases
L6 - pH of Weak Acids
L7 - pH of Weak Bases
L8 - pH of Water at Different Temperatures
L9-10 - pH Curves
L11 - Buffers
L12 - Salt Hydrolysis
L13 - Enthalpy of Neutralisation
Module 7 - Organic Chemistry
L1-2 - Intro to Organic Chemistry
L3 - Structural Isomerism
L4 - Alkanes
L5 - Alkenes & Alkynes
L6 - Halogenoalkanes
L7 - Investigating the properties of a homologous series
L8 - Handling & Environmental Impacts of Hydrocarbons
L9 - Economic, Social and Environmental Impacts of Hydrocarbons
L10-11 - Reactions of Hydrocarbons
L12 - 13 - Alcohols
L14 - Enthalpy of Combustion of Alcohols
L15 - Reactions of Alcohols
L16 - Production of Alcohol
L17 - Alcohols as Fuels
L18 - Structure of Organic Acids & Bases
L19 - Production of Esters
L20 - Investigating Organic Acids & Bases
L21 - Soaps & Detergents
L22 - Synthetic Routes
L23 - Addition Polymerisation
L24 - Condensation Polymerisation
Module 8 - Applying Chemical Ideas
Analysis of Organic Substances
L1 - Qualitative Tests on Organic Compounds
L2 - Mass Spectrometry
L3 - Infra-Red Spectroscopy
L4 - C-13 NMR Spectroscopy
L5 - H NMR
L6 - H NMR 2
L7 - H NMR Practice
Analysis of Inorganic Substances
L1 - Environmental Analysis
L2 - Cation Qualitative Ion Tests
L3 - Anion Qualitative Tests
L4 - Gravimetric Analysis
L5 - Precipitation Titrations
L6 - Colorimetry
L7 - UV-Visible Spectrophotometry
L8 - Atomic Absorption Spectroscopy
Chemical Synthesis & Design
Past Papers
Past Papers
L1 - The History of the Atom
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