IBDP SYLLABLES NOTES
IBDP MATHEMATICS
SL Syllabus component (AI)
1.1 Number Toolkit
1.2 Sequences
1.3 Financial Applications
2.1 Linear Functions
2.2 Graphs of Linear Functions
2.3 Modelling with Linear Functions
3.1 Geometry Toolkit
3.2 Geometry of 3D Shapes
3.3 Basic Trigonometry
3.4 Voronoi Diagrams
4.1 Statistics Toolkit
4.2 Correlation
4.3 Regression
4.4 Basic Probability Concepts
5.1 Basics of Differentiation
5.2 Application of Differentiation
5.3 Basics of Integration
5.4 Application of Integration
WORKSHEETS QNS AND SOLUTIONS
SL Syllabus component (AI)
1.1 Number Toolkit
1.2 Exponentials & Logs
1.3 Sequences & Series
1.4 Financial Applications
1.5 Complex Numbers
2.1 Linear Functions & Graphs
2.2 Further Functions & Graphs
2.3 Modelling with Functions
3.1 Geometry Toolkit
3.2 Geometry of 3D Shapes
3.3 Trigonometry
3.4 Further Trigonometry
3.5 Voronoi Diagrams
4.1 Statistics Toolkit
4.2 Correlation & Regression
4.3 Further Correlation & Regression
5.1 Differentiation
5.2 Further Differentiation
5.3 Integration
5.4 Further Integration
5.5 Kinematics
5.6 Differential Equations
5.7 Further Differential Equations
WORKSHEETS QNS AND SOLUTIONS
IBDP PHYSICS
IBDP Syllabus component SL & HL
1. Measurements and uncertainties
2. Mechanics
3. Thermal physics
4. Waves
5. Electricity and magnetism
6. Circular motion and gravitation
7. Atomic, nuclear and particle physics
8. Energy production
WORKSHEETS
QNS AND SOLUTIONS
9. Wave phenomena
10. Fields
11. Electromagnetic induction
12. Quantum and nuclear physics
Option
A. Relativity
B. Engineering physics
C. Imaging
D. Astrophysics
Practical scheme of work
WORKSHEETS
QNS AND SOLUTIONS
IBDP CHEMISTRY
1.1 introduction to particulate of matter
1.2—The nuclear atom
1.3—Electron configurations
1.4—Counting particles by mass: The mole
1.5—Ideal gases
2.1—The ionic model
2.2—The covalent model
2.3—The metallic model
2.4—From models to materials
3.1—The periodic table: Classification of elements
3.2—Functional groups: Classification of organic compounds
1.1—Measuring enthalpy changes
1.2—Energy cycles in reactions
1.3—Energy from fuels Structure
1.4—Entropy and spontaneity (Additional hl)
2.1—How much? The amount of chemical change
2.2—How fast? The rate of chemical change
2.3—How far? The extent of chemical change
3.1—Proton transfer reactions
3.2—Electron transfer reactions
3.3—Electron sharing reactions
3.4—Electron-pair sharing reactions
WORKSHEETS
QNS AND SOLUTIONS
IBDP BIOLOGY
SYLLABUS CONTENT
A1.1 Water
A1.2 Nucleic acids
A2.1 Origins of cells
A2.2 Cell structure
A2.3 Viruses
A3.1 Diversity of organisms
A3.3 Classification and cladistics
A4.1 Evolution and speciation
A4.2 Conservation of biodiversity
B1.1 Carbohydrates and lipids
B1.2 Proteins
B2.1Membranes and membrane transport
B2.2 Organelles and compartmentalization
B2.3 Cell specialization
B3.1 Gas exchange
B3.2 Transport
B3.3 Muscle and motility *
B4.1 Adaptation to environment
B4.2 Ecological niches
C1.1 Enzymes and metabolism
C1.2 Cell respiration
C1.3 Photosynthesis
C2.1 Chemical signalling *
C2.2 Neural signalling
C3.1 Integration of body systems
C3.2 Defense against disease
C4.1 Populations and communities
C4.2 Transfer of energy and matter
D1.1 DNA replication
D1.2 Protein synthesis
D1.3 Mutations and gene editing
D2.1 Cell and nuclear division
D2.2 Gene expression *
D2.3 Water potential
D3.1 Reproduction
D3.2 Inheritance
D3.3 Homeostasis
D4.1 Natural selection
D4.2 Sustainability and change
D4.3 Climate change
WORKSHEETS
QNS AND SOLUTIONS
QNS
ANSWERS