Quebec Education Program
1.1.1: Study of populations (density, biological cycles)
1.1.2: Dynamics of communities
1.1.2.b: Disturbances
Coral Reefs 1 - Abiotic Factors
1.1.3: Dynamics of ecosystems
1.1.3.a: Trophic relationships
1.1.3.b: Primary productivity
1.1.3.c: Material and energy flow
1.1.3.d: Chemical recycling
1.1.4: Ecological footprint
1.2.1: Heredity
Fast Plants® 2 - Mystery Parent
Hardy-Weinberg Equilibrium
1.2.2: Gene
1.2.3: Allele
Fast Plants® 2 - Mystery Parent
Hardy-Weinberg Equilibrium
1.2.4: Character trait
1.2.5: Genotype and phenotype
Chicken Genetics
Fast Plants® 2 - Mystery Parent
Hardy-Weinberg Equilibrium
1.2.6: Homozygote and heterozygote
Fast Plants® 2 - Mystery Parent
1.2.8: Protein synthesis
1.2.9: Cross-breeding
Evolution: Natural and Artificial Selection
2.2.1: Combustion
2.2.3: Photosynthesis and respiration
2.2.6: Balancing chemical equations
2.2.7: Law of conservation of mass
Chemical Changes
Chemical Equations
2.2.8: Stoichiometry
2.2.9: Types of bonds
2.2.9.a: Covalent
2.2.9.b: Ionic
2.2.10: Endothermic and exothermic reactions
2.3.2: Lewis notation
2.4.1: Families and periods
2.4.2: Relative atomic mass
2.4.3: Atomic number
2.4.4: Periodicity of properties
2.4.5: Isotopes
2.5.1: Nuclear stability
2.5.3: Fission and fusion
2.6.1: Electrical charge
2.6.3: Ohm?s law
2.6.4: Electrical circuits
Advanced Circuits
Circuits
Electromagnetic Induction
2.6.7: Electrical field
2.7.3: Magnetic field of a solenoid
2.8.1: Law of conservation of energy
Air Track
Energy Conversion in a System
Energy of a Pendulum
Inclined Plane - Sliding Objects
Roller Coaster Physics
2.8.2: Energy efficiency
2.8.4: Relationship between work, force and travel
2.8.6: Effective force
Coulomb Force (Static)
Crumple Zones
Determining a Spring Constant
Gravitational Force
Pith Ball Lab
2.8.7: Relationship between work and energy
2.8.8: Relationship between potential energy, mass, acceleration and travel
Determining a Spring Constant
Energy of a Pendulum
Feed the Monkey (Projectile Motion)
Free-Fall Laboratory
Golf Range
Pendulum Clock
Roller Coaster Physics
2.8.9: Relationship between kinetic energy, mass and velocity
Crumple Zones
Determining a Spring Constant
Energy of a Pendulum
Feed the Monkey (Projectile Motion)
Golf Range
Moment of Inertia
Pendulum Clock
Roller Coaster Physics
2.8.10: Relationship between heat energy, specific heat capacity, mass and temperature variations
Calorimetry Lab
Energy Conversion in a System
3.1.1: Biogeochemical cycles
3.1.1.a: Carbon cycle
Carbon Cycle
Cell Energy Cycle
3.1.1.b: Nitrogen cycle
3.1.5: Atmosphere
3.1.5.a: Greenhouse effect
Carbon Cycle
Greenhouse Effect - Metric
3.2.1: Space
3.2.1.b: Earth-Moon system (gravitational effect)
4.1.1: Axonometric projection: exploded view (reading)
4.1.2: Multiview orthogonal projection (assembly drawing)
4.1.3: Dimensional tolerances
4.2.2: Electricity
4.2.2.c: Typical control functions (lever, pushbutton, toggle, unipolar, bipolar, unidirectional, bidirectional)
4.2.2.d: Transformation of energy (electricity and light, heat, vibration, magnetism)
Electromagnetic Induction
Magnetic Induction
4.4.3: Measurement
4.4.3.a: Direct measurements (vernier calipers)
Correlation last revised: 9/16/2020