Observatory

Second Year of Secondary Cycle Two

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Student book ↓
Guide A - ST-EST-AST-SE ↓
Guide B - ST-EST-AST-SE ↓

Student book

Guide A - ST-EST-AST-SE

Guide B - ST-EST-AST-SE

Support activities - Concept review ↓

Support activities - Second Year of Secondary Cycle Two ↓

Info brief: activities ↓

Methods ↓

Concept review handouts ↓

Science labs (LAB) ↓

Tech labs (TECH) ↓

Concept maps ↓

Chapter summary ↓

Checkups and follow-ups ↓

For lab technicians ↓

The Material World (MW)
MW1 – The organization of matter	Atom, compound, element, molecule, periodic table	Student (.doc)
MW2 – Mixtures and solutions	Concentration, dilution, mixtures, solubility, solute, solution, solvent	Student (.doc)
MW3 – Characteristic and non-characteristic properties	Acidity/alkalinity, boiling point, characteristic properties, density, mass, melting point, temperature	Student (.doc)
MW4 – Physical and chemical changes	Chemical change, conservation of matter, decomposition and synthesis, dissolution, oxidation, photosynthesis and respiration, physical change, precipitation	Student (.doc)
MW5 – Pressure and fluids	Compressible and incompressible, fluids, pressure,relationship between, pressure and volume	Student (.doc)
MW6 – The electromagnetic spectrum	Electromagnetic spectrum	Student (.doc)

The Earth and Space (E&S)
E&S1 – The atmosphere	Air (composition),atmosphere, atmospheric layers, winds	Student (.doc)
E&S2 – The hydrosphere	Hydrosphere, water cycle, water (distribution)	Student (.doc)
E&S3 – The lithosphere	Erosion, internal structure of the Earth, lithosphere, relief, tectonic plate, types of rocks (basic minerals), types of soil, universal gravitation, volcano	Student (.doc)
E&S4 – The solar system	Cycles of day and night, seasons, solar system	Student (.doc)
E&S5 – Energy	Energy transformations, forms of energy, natural energy sources, renewable and nonrenewable energy sources	Student (.doc)

The Living World (LW)
LW1 – Living organisms and their habitats	Ecological niche, habitat, physical and behavioural adaptation, population, species population, species	Student (.doc)
LW2 – Genetics and reproduction	Asexual and sexual reproduction, cell cultures, DNA, genetic diversity, genetic transformation (GMOs), meiosis and sexual development, mitosis, plant and animal cells	Student (.doc)

The Technological World
Chapter 12:	Constraints (tension, compression, torsion)
	Mechanical properties; characteristics of laying out, roughing and finishing; machines and tools; direct measurement (ruler)
	Material, ferrous alloys, nonferrous metals and alloys, wood and modified wood, plastics (thermoplastics)
	Dimensioning, sections, scales, basic lines, orthogonal projections (multiview, isometric)
	Standards and representations (diagrams, symbols)
	Forms of representation (sketch, perspective drawing, oblique projection)
	Geometric lines, tolerances, axonometric projection: exploded view (reading)
	Manufacturing process sheet

Chapter 13:	Basic mechanical functions (links, guiding control)
	Types of motion, components of a system, system (overall function, inputs, processes, outputs, control)
	Function, components and use of motion transmission systems (friction gears, belt and pulleys, gear train, chain and sprockets, worm and worm gear)
	Function, components and use of motion transformation systems (screw gear systems, cams, connecting rods, cranks, slides, slider-crank mechanisms, rack and pinion systems)
	Speed changes

Chapter 14:	Power supply, control (types: lever, push-button, flip-flop, magnetic controller)
	Conduction, insulation and protection; standards and representations (diagrams, symbols)
	Function, components and use of motion transmission systems (friction gears, belt and pulleys, gear train, chain and sprockets, worm and worm gear)
	Components of a system
	Energy transformations

Chapter 1
	Overview Chart	Overview Chart(.pdf)
The atom and atomic models (ACTIVITY 1)	The atom and atomic models	Student (.doc)
The atom and atomic models (ACTIVITY 1)	The atom and atomic models	Student (.doc)
The periodic table (ACTIVITY 2)	The periodic table	Student (.doc)
The periodic table (ACTIVITY 2)	The periodic table	Student (.doc)
Representing atoms (ACTIVITY 3)	Representing atoms	Student (.doc)
Representing atoms (ACTIVITY 3)	Representing atoms	Student (.doc)
The concept of mole (ACTIVITY 4)	The concept of mole	Student (.doc)
The concept of mole (ACTIVITY 4)

Chapter 2
Molecules and ions (ACTIVITY 5)	Molecules and ions	Student (.doc)
Molecules and ions (ACTIVITY 5)	Molecules and ions	Student (.doc)
The rules of chemical notation and nomenclature (ACTIVITY 6)	The rules of chemical notation and nomenclature	Student (.doc)

Solubility and concentration (ACTIVITY 7)	Solubility and concentration	Student (.doc)
Solubility and concentration (ACTIVITY 7)	Solubility and concentration	Student (.doc)
Electrical conductivity and pH (ACTIVITY 8)	Electrical conductivity and pH	Student (.doc)
	Electrical conductivity and pH	Student (.doc)

Chapter 3
Energy and energy efficiency (ACTIVITY 9)	Energy and energy efficiency	Student (.doc)
		Student (.doc)
		Student (.doc)
Thermal energy (ACTIVITY 10)	Thermal energy	Student (.doc)
	Thermal energy	Student (.doc)
	Thermal energy	Student (.doc)
Kinetic energy, potential energy and mechanical energy (ACTIVITY 11)	Kinetic energy, potential energy and mechanical energy	Student (.doc)
Motion and forces (ACTIVITY 12)	Motion and forces	Student (.doc)
Motion and forces (ACTIVITY 12)	Motion and forces	Student (.doc)
Effective force and work (ACTIVITY 13)	Effective force and work	Student (.doc)
Forces in fluids (ACTIVITY 14)	Forces in fluids	Student (.doc)

Chapter 4
Balancing chemical equations (ACTIVITY 15)	Balancing chemical equations	Student (.doc)
Balancing chemical equations (ACTIVITY 15)	Balancing chemical equations	Student (.doc)
Endothermic and exothermic reactions (ACTIVITY 16)	Endothermic and exothermic reactions	Student (.doc)
Types of chemical change (ACTIVITY 17)	Types of chemical change	Student (.doc)
		Student (.doc)
		Student (.doc)
Nuclear transformations (ACTIVITY 18)	Nuclear transformations	Student (.doc)

Chapter 5
Electricity and electrical charges (ACTIVITY 19)	Electricity and electrical charges	Student (.doc)
	Electricity and electrical charges	Student (.doc)
	Electricity and electrical charges	Student (.doc)
Static electricity (ACTIVITY 20)	Static electricity	Student (.doc)
	Static electricity	Student (.doc)
	Static electricity, Coulomb's law	Student (.doc)
Dynamic electricity (ACTIVITY 21)	Dynamic electricity	Student (.doc)
		Student (.doc)
		Student (.doc)
Electrical circuits (ACTIVITY 22)	Electrical circuits	Student (.doc)
	Electrical circuits	Student (.doc)
	Electrical circuits	Student (.doc)
Magnetism and electromagnetism (ACTIVITY 23)	Magnetism and electromagnetism	Student (.doc)
	Magnetism and electromagnetism	Student (.doc)
	Magnetism and electromagnetism	Student (.doc)

Chapter 6
The lithosphere: minerals and rocks (ACTIVITY 24)	The lithosphere: minerals and rocks	Student (.doc)
		Student (.doc)
		Student (.doc)
The lithosphere: soil (ACTIVITY 25)	The lithosphere: soil	Student (.doc)
The lithosphere: soil (ACTIVITY 25)	The lithosphere: soil	Student (.doc)
The lithosphere: energy resources (ACTIVITY 26)	The lithosphere: energy resources	Student (.doc)
	The lithosphere: energy resources	Student (.doc)
	The lithosphere: energy resources	Student (.doc)
The hydrosphere and energy resources (ACTIVITY 27)	The hydrosphere and energy resources	Student (.doc)
	The hydrosphere and energy resources	Student (.doc)
	The hydrosphere and energy resources	Student (.doc)
The hydrosphere and contamination (ACTIVITY 28)	The hydrosphere and contamination	Student (.doc)

Chapter 7
The atmosphere: atmospheric pressure (ACTIVITY 29)	The atmosphere: atmospheric pressure	Student (.doc)
		Student (.doc)
		Student (.doc)
The atmosphere: atmospheric circulation (ACTIVITY 30)	The atmosphere: atmospheric circulation	Student (.doc)
	The atmosphere: atmospheric circulation	Student (.doc)
	The atmosphere: atmospheric circulation	Student (.doc)
The atmosphere: the greenhouse effect and energy resources (ACTIVITY 31)	The atmosphere: the greenhouse effect and energy resources	Student (.doc)
	The atmosphere: the greenhouse effect and energy resources	Student (.doc)
	The atmosphere: the greenhouse effect and energy resources	Student (.doc)
Solar radiation (ACTIVITY 32)	Solar radiation	Student (.doc)
		Student (.doc)
		Student (.doc)
The Earth-Moon system and the tides (ACTIVITY 33)	The Earth-Moon system and the tides	Student (.doc)
		Student (.doc)
		Student (.doc)

Chapter 8
The biosphere: biogeochemical cycles (ACTIVITY 34)	The biosphere: biogeochemical cycles	Student (.doc)
The biosphere: biogeochemical cycles (ACTIVITY 34)	The biosphere: biogeochemical cycles	Student (.doc)
Biomes: factors determining biome distribution (ACTIVITY 35)	Biomes: factors determining biome distribution	Student (.doc)
	Biomes: factors determining biome distribution and terrestrial biomes	Student (.doc)
		Student (.doc)
Aquatic biomes (ACTIVITY 36)	Aquatic biomes	Student (.doc)
Aquatic biomes (ACTIVITY 36)	Aquatic biomes	Student (.doc)

Chapter 9
Population size (ACTIVITY 37)	Population size	Student (.doc)
Population size (ACTIVITY 37)	Population size	Student (.doc)
Populations: density and biological cycles (ACTIVITY 38)	Populations: density and biological cycles	Student (.doc)
Populations: density and biological cycles (ACTIVITY 38)	Populations: density and biological cycles	Student (.doc)
Studying communities: biodiversity (ACTIVITY 39)	Studying communities: biodiversity	Student (.doc)
Studying communities: biodiversity (ACTIVITY 39)	Studying communities: biodiversity	Student (.doc)

Chapter 10
Ecosystems and trophic relationships (ACTIVITY 40)	Ecosystems and trophic relationships	Student (.doc)
	Ecosystems and trophic relationships	Student (.doc)
	Ecosystems and trophic relationships	Student (.doc)
Ecosystem dynamics and disturbances (ACTIVITY 41)	Ecosystem dynamics and disturbances	Student (.doc)
	Ecosystem dynamics and disturbances	Student (.doc)
	Ecosystem dynamics and disturbances	Student (.doc)
Contamination (ACTIVITY 42)	Contamination	Student (.doc)
Contamination (ACTIVITY 42)

Chapter 11
DNA and genes (ACTIVITY 43)	DNA and genes	Student (.doc)
Proteins and protein synthesis (ACTIVITY 44)	Proteins and protein synthesis	Student (.doc)
Heredity (ACTIVITY 45)	Heredity	Student (.doc)
Alleles, genotypes and phenotypes (ACTIVITY 46)	Alleles, genotypes and phenotypes	Student (.doc)
Cloning (ACTIVITY 47)	Cloning	Student (.doc)


INFO BRIEF	Overview chart			Overview chart (.pdf)
INFO BRIEF 1 (chapter 1)	From the biggest to the smallest	Rutherford's atomic model	, ,	Student (.doc)
INFO BRIEF 2 (chapter 1)	Air or nitrogen?	Periodicity of properties		Student (.doc)
INFO BRIEF 3 (chapter 2)	Electric fruit	Electrolytes Electrolytic dissociation	,	Student (.doc)
INFO BRIEF 4 (chapter 3)	Boiling water efficiently	Law of conservation of energy Energy efficiency Distinction between heat and temperature Relationship between heat energy, specific heat capacity, mass and temperature variations (EST)	, ,	Student (.doc)
INFO BRIEF 5 (chapter 4)	Hot or cold?	Endothermic and exothermic reactions	,	Student (.doc)
INFO BRIEF 6 (chapter 5)	Electricity in the air	Static electricity Electrical charge Coulomb's law (EST)	, ,	Student (.doc)
INFO BRIEF 7 (chapter 6)	A question of values	Minerals	,	Student (.doc)
INFO BRIEF 8 (chapter 6)	The warming Arctic	Permafrost Glacier and pack ice	,	Student (.doc)
INFO BRIEF 9 (chapter 7)	Blowing in the wind	Atmospheric circulation	, ,	Student (.doc)
INFO BRIEF 10 (chapter 7)	Countdown to clean air	Contamination	,	Student (.doc)
INFO BRIEF 11 (chapter 8)	Germs we can't live without	Nitrogen cycle	,	Student (.doc)
INFO BRIEF 12 (chapter 8)	Subject to variation	Terrestrial biomes Aquatic biomes	,	Student (.doc)
INFO BRIEF 13 (chapter 9)	What about the human population?	Study of populations (density)	,	Student (.doc)
INFO BRIEF 14 (chapter 10)	A planet in turmoil	Disturbances	, ,	Student (.doc)
INFO BRIEF 15 (chapter 10)	Three steps to clean water	Wastewater		Student (.doc)
INFO BRIEF 16 (chapter 11)	An information chain	Gene Protein synthesis		Student (.doc)
INFO BRIEF 17 (chapter 12)	It's in the bag	Types and properties (plastics)	,	Student (.doc)
INFO BRIEF 18 (chapter 13)	Changing gears	Speed changes	, ,	Student (.doc)
INFO BRIEF 19 (chapter 14)	An electric shoebox?	Conduction	, ,	Student (.doc)


9 – Energy and energy Efficiency	Law of conservation of energy, energy efficiency	Student (.pdf)
		Student (.pdf)
		Student (.pdf)
10 – Thermal energy	Distinction between heat and temperature	Student (.pdf)
	Distinction between heat and temperature	Student (.pdf)
	Distinction between heat and temperature; specific heat capacity; relationship between heat energy, specific heat capacity, mass and temperature variations	Student (.pdf)
11 – Kinetic energy, potential energy and mechanical energy	Distinction between heat and temperature; specific heat capacity; relationship between heat energy, specific heat capacity, mass and temperature variations	Student (.pdf)
12 – Motion and types of force	Mass and weight, relationship between mass and weight, types of forces	Student (.pdf)
12 – Motion and types of force	Mass and weight, force, types of forces, equilibrium of two forces, relationship between constant speed, distance and time	Student (.pdf)
13 – Effective force and work	Effective force; relationship between work, force and travel; relationship between work and energy	Student (.pdf)
14 – Forces in fluids	Archimedes' principle, Pascal's principle, Bernoulli's principle	Student (.pdf)


40 – Ecosystems and trophic relationships	Dynamics of ecosystems (trophic relationships), ecosystems	Student (.pdf)
	Dynamics of ecosystems (trophic relationships), ecosystems	Student (.pdf)
	Dynamics of ecosystems (trophic relationships), ecosystems	Student (.pdf)
41 – Ecosystem dynamics and disturbances	Dynamics of ecosystems (material and energy flow, chemical recycling, primary productivity), disturbances	Student (.pdf)
		Student (.pdf)
	Dynamics of ecosystems (material and energy flow, chemical recycling, primary productivity), disturbances, ecological footprint	Student (.pdf)
42 – Contamination	Ecotoxicology (contaminants, toxicity threshold, bioconcentration, bioaccumulation), biodegradation of pollutants, wastewater treatment	Student (.pdf)


48 – Constraints and material deformations	Constraints (deflection, shearing)	Student (.pdf)
		Student (.pdf)
		Student (.pdf)
49 – Properties and material degradation and protection	Characteristics of mechanical properties, modification of properties (degradation, protection)	Student (.pdf)
		Student (.pdf)
		Student (.pdf)
50 – Wood, modified wood, ceramics, metals and alloys	Types and properties (ceramics)	Student (.pdf)
	Types and properties (ceramics), heat treatments	Student (.pdf)
	Types and properties (ceramics), heat treatments	Student (.pdf)
51 – Plastics and composites	Types and properties (plastics: thermoplastics, thermosetting plastics; composites)	Student (.pdf)
		Student (.pdf)
		Student (.pdf)
52 – Projections and technical drafting	Axonometric projection: exploded view (reading), multiview orthogonal projection (general arrangement), dimensional tolerances	Student (.pdf)
52 – Projections and technical drafting	Multiview orthogonal projection (general arrangement), functional dimensioning, developments (prism, cylinder, pyramid, cone)	Student (.pdf)
53 – Diagrams	Standards and representations (diagrams, symbols)	Student (.pdf)
54 – Manufacturing objects	Shaping (machines and tools), manufacturing (characteristics of laying out, drilling, tapping and threading), direct measurement (vernier caliper)	Student (.pdf)
54 – Manufacturing objects	Manufacturing (characteristics of drilling, tapping, threading and bending); direct measurement (vernier caliper); control, shape and position (plane, section, angle)	Student (.pdf)

Chapter 12
Constraints and material deformations (ACTIVITY 48)	Constraints and material deformations	Student (.doc)
		Student (.doc)
		Student (.doc)
Properties, degradation and protection of materials (ACTIVITY 49)	Properties, degradation and protection of materials	Student (.doc)
		Student (.doc)
		Student (.doc)
Wood, modified wood, ceramics, metals and alloys (ACTIVITY 50)	Wood, modified wood, ceramics, metals and alloys	Student (.doc)
	Wood, modified wood, ceramics, metals and alloys	Student (.doc)
	Wood, modified wood, ceramics, metals and alloys	Student (.doc)
Plastics and composites (ACTIVITY 51)	Plastics and composites	Student (.doc)
		Student (.doc)
		Student (.doc)
Projections and engineering drawings (ACTIVITY 52)	Projections and engineering drawings	Student (.doc)
Projections and engineering drawings (ACTIVITY 52)	Projections and engineering drawings	Student (.doc)
Diagrams (ACTIVITY 53)	Diagrams	Student (.doc)
Manufacturing objects (ACTIVITY 54)	Manufacturing objects	Student (.doc)
Manufacturing objects (ACTIVITY 54)	Manufacturing objects	Student (.doc)

Chapter 13
Linking in technical objects (ACTIVITY 55)	Linking in technical objects	Student (.doc)
	Linking in technical objects	Student (.doc)
	Linking in technical objects	Student (.doc)
Guiding controls (ACTIVITY 56)	Guiding controls	Student (.doc)
	Guiding controls	Student (.doc)
	Guiding controls	Student (.doc)
Motion transmission systems (ACTIVITY 57)	Motion transmission systems	Student (.doc)
		Student (.doc)
		Student (.doc)
Speed changes in motion transmission systems (ACTIVITY 58)	Speed changes in motion transmission systems	Student (.doc)
	Speed changes in motion transmission systems	Student (.doc)
	Speed changes in motion transmission systems	Student (.doc)
Motion transformation systems (ACTIVITY 59)	Motion transformation systems	Student (.doc)
	Motion transformation systems	Student (.doc)
	Motion transformation systems	Student (.doc)

Chapter 14
Electricity, electronics and electrical circuits (ACTIVITY 60)	Electricity, electronics and electrical circuits	Student (.doc)
		Student (.doc)
		Student (.doc)
Power supply, conduction, insulation and protection (ACTIVITY 61)	Power supply, conduction, insulation and protection	Student (.doc)
	Power supply, conduction, insulation and protection	Student (.doc)
	Power supply, conduction, insulation and protection	Student (.doc)
Control and the transformation of energy (ACTIVITY 62)	Control and the transformation of energy	Student (.doc)
	Control and the transformation of energy	Student (.doc)
	Control and the transformation of energy	Student (.doc)
Components with other functions (ACTIVITY 63)	Components with other functions	Student (.doc)
Components with other functions (ACTIVITY 63)	Components with other functions	Student (.doc)


5 – Molecules and ions	Ions	Student (.pdf)
5 – Molecules and ions	Ions, polyatomic ions, types of bonds (ionic, covalent)	Student (.pdf)
6 – The rules of nomenclature and notation	Nomenclature and notation rules	Student (.pdf)
6 – The rules of nomenclature and notation
7 – Solubility and concentration	Concentration (ppm), concentration (g/L)	Student (.pdf)
7 – Solubility and concentration	Concentration (ppm), concentration (g/L), concentration (mol/L)	Student (.pdf)
8 – Electrical conductivity and pH	Electrical conductivity, electrolytes, electrolytic dissociation, pH scale	Student (.pdf)
	Electrical conductivity, electrolytes, electrolytic dissociation, strength of electrolytes, salts, pH scale	Student (.pdf)


15 – Balancing chemical equations	Balancing chemical equations, law of conservation of mass	Student (.pdf)
15 – Balancing chemical equations	Balancing chemical equations, law of conservation of mass, stoichiometry	Student (.pdf)
16 – Endothermic and exothermic reactions	Endothermic and exothermic reactions	Student (.pdf)
17 – Chemical changes	Acid-base neutralization reaction, oxidation, combustion, photosynthesis and respiration, precipitation	Student (.pdf)
		Student (.pdf)
		Student (.pdf)
18 – Nuclear transformations	Radioactivity, nuclear stability, fission and fusion	Student (.pdf)


19 – Electricity and electrical charges	Electrical charge	Student (.pdf)
	Electrical charge	Student (.pdf)
	Electrical charge, electrical field	Student (.pdf)
20 – Static electricity	Static electricity	Student (.pdf)
	Static electricity	Student (.pdf)
	Static electricity, Coulomb's law	Student (.pdf)
21 – Electric current and electrical power	Relationship between power and electrical energy, Ohm's law	Student (.pdf)
		Student (.pdf)
		Student (.pdf)
22 – Electrical circuits	Electrical circuits	Student (.pdf)
	Electrical circuits	Student (.pdf)
	Electrical circuits, Kirchhoff's laws	Student (.pdf)
23 – Magnetism and electromagnetism	Forces of attraction and repulsion, magnetic field of a live wire	Student (.pdf)
	Forces of attraction and repulsion, magnetic field of a live wire, magnetic field of a solenoid	Student (.pdf)
	Forces of attraction and repulsion, magnetic field of a live wire, magnetic field of a solenoid, electromagnetic induction	Student (.pdf)


24 – The lithosphere: minerals and rocks	Minerals	Student (.pdf)
		Student (.pdf)
		Student (.pdf)
25 – The lithosphere: soil	Soil profile (horizons), permafrost	Student (.pdf)
25 – The lithosphere: soil	Soil profile (horizons), buffering capacity of the soil, permafrost	Student (.pdf)
26 – The lithosphere: energy resources	Energy resources	Student (.pdf)
	Energy resources	Student (.pdf)
	Energy resources, soil depletion, contamination	Student (.pdf)
27 – The hydrosphere and energy resources	Watershed, salinity, ocean circulation, glacier and pack ice, energy resources	Student (.pdf)
		Student (.pdf)
	Watershed, energy resources	Student (.pdf)
28 – Contaminating the hydrosphere	Contamination, eutrophication	Student (.pdf)


29 – The atmosphere: atmospheric pressure	No compulsory concept	Student (.pdf)
		Student (.pdf)
		Student (.pdf)
30 – The atmosphere: atmospheric circulation	Atmospheric circulation, air mass, cyclone and anticyclone	Student (.pdf)
	Atmospheric circulation (prevailing winds), air mass, cyclone and anticyclone	Student (.pdf)
	Atmospheric circulation (prevailing winds)	Student (.pdf)
31 – The atmosphere: the greenhouse effect and energy resources	Greenhouse effect, energy resources	Student (.pdf)
	Greenhouse effect, contamination, energy resources	Student (.pdf)
	Greenhouse effect, contamination, energy resources	Student (.pdf)

32 – Energy from the sun	Solar energy flow	Student (.pdf)
		Student (.pdf)
		Student (.pdf)
33 – The Earth-Moon system and the tides	Earth-Moon system (gravitational effect)	Student (.pdf)
		Student (.pdf)
		Student (.pdf)


34 – The biosphere: biogeochemical cycles	Carbon cycle, nitrogen cycle	Student (.pdf)
34 – The biosphere: biogeochemical cycles	Carbon cycle, nitrogen cycle, phosphorus cycle	Student (.pdf)
35 – Biomes: distribution factors and terrestrial biomes	Factors that influence the distribution of biomes	Student (.pdf)
	Factors that influence the distribution of biomes, terrestrial biomes	Student (.pdf)
		Student (.pdf)
36 – Aquatic biomes	Aquatic biomes	Student (.pdf)
36 – Aquatic biomes	Aquatic biomes	Student (.pdf)


37 – Population size	No compulsory concept	Student (.pdf)
37 – Population size	No compulsory concept	Student (.pdf)
38 – Population density and biological cycles	Study of populations (density, biological cycles)	Student (.pdf)
38 – Population density and biological cycles	Study of populations (density, biological cycles)	Student (.pdf)
39 – Communities and biodiversity	Dynamics of communities (biodiversity)	Student (.pdf)
39 – Communities and biodiversity	Dynamics of communities (biodiversity)	Student (.pdf)


43 – DNA and genes	Character trait, gene	Student (.pdf)
44 – Proteins and protein synthesis	Protein synthesis	Student (.pdf)
45 – Heredity	Heredity, crossbreeding	Student (.pdf)
46 - Alleles, genotypes and phenotypes	Allele, dominance and recessivity, homozygote and heterozygote, genotype and phenotype	Student (.pdf)
47 – Cloning	Cloning	Student (.pdf)


55 – Linking in technical objects	Characteristics of the linking of mechanical parts	Student (.pdf)
	Characteristics of the linking of mechanical parts, degrees of freedom of a part	Student (.pdf)
		Student (.pdf)
56 – Guiding controls	Guiding controls	Student (.pdf)
	Guiding controls, adhesion and friction of parts	Student (.pdf)
	Guiding controls, adhesion and friction of parts	Student (.pdf)
57 – Motion transmission systems	Construction and characteristics of motion transmission systems (friction gear, belt and pulley, gear train, chain and sprocket, worm and worm gear)	Student (.pdf)
		Student (.pdf)
		Student (.pdf)
58 – Speed changes in motion transmission systems	Speed changes	Student (.pdf)
	Speed changes	Student (.pdf)
	Speed changes, resisting torque, engine torque	Student (.pdf)
59 – Motion transformation systems	Construction and characteristics of motion transformation systems (screw gear systems, connecting rods, cranks, slides, slider-crank mechanisms, rack and pinion systems, cams)	Student (.pdf)
	Construction and characteristics of motion transformation systems (screw gear systems, connecting rods, cranks, slides, slider-crank mechanisms, rack and pinion systems, cams, eccentrics)	Student (.pdf)
		Student (.pdf)


60 – Electricity, electronics and electrical circuits	No compulsory concept	Student (.pdf)
		Student (.pdf)
		Student (.pdf)
61 – Power supply, conduction, insulation and protection	Power supply, conduction, insulation and protection	Student (.pdf)
	Power supply, conduction, insulation and protection (resistance and coding, printed circuit)	Student (.pdf)
		Student (.pdf)
62 – Control and transformation of energy	Control, transformation of energy (electricity and light, heat, vibration, magnetism)	Student (.pdf)
	Typical controls (toggle, push-button, rocker, single-pole, doublepole, single-throw, double-throw), transformation of energy (electricity and light, heat, vibration, magnetism)	Student (.pdf)
		Student (.pdf)
63 – Components with other functions	Other functions (capacitor, diode)	Student (.pdf)
63 – Components with other functions	Other functions (capacitor, diode, transistor, solid-state relay)	Student (.pdf)


Science Labs	Overview chart			Overview chart (.pdf)
LAB 1 (chapter 1)	Metals and nonmetals	Groups and periods of the periodic table	, ,	Student (.doc)
LAB 2 (chapter 1)	The concept of mole	Concept of mole	,	Student (.doc)
LAB 3 (chapter 2)	Identifying ions by precipitation	Ions	, ,	Student (.doc)
LAB 4 (chapter 2)	Types of bonds	Ionic bonds	,	Student (.doc)
LAB 5 (chapter 2)	Measuring solubility	Solubility		Student (.doc)
LAB 6 (chapter 2)	Preparing a solution by dissolving a solid in a solvent	Dissolution	, ,	Student (.doc)
LAB 7 (chapter 2)	Preparing a solution by dilution	Dilution	, ,	Student (.doc)
LAB 8 (chapter 2)	Concentration in ppm	Concentration (ppm)	, ,	Student (.doc)
LAB 9 (chapter 2)	Preparing a solution	Concentration (mol/L)	,	Student (.doc)
LAB 10 (chapter 2)	Electrical conductivity	Electrical conductivity	, ,	Student (.doc)
LAB 11 (chapter 2)	The strength of electrolytes	Strength of electrolytes		Student (.doc)
LAB 12 (chapter 2)	The pH of common substances	pH scale	, ,	Student (.doc)
LAB 13 (chapter 3)	Energy efficiency	Energy efficiency	, ,	Student (.doc)
LAB 14 (chapter 3)	The distinction between heat and temperature	Distinction between heat and temperature	, ,	Student (.doc)
LAB 15 (chapter 3)	Factors influencing temperature variations	Relationship between heat energy, specific heat capacity, mass and temperature variations	,	Student (.doc)
LAB 16 (chapter 3)	Thermal energy transfer in mixtures	Relationship between heat energy, specific heat capacity, mass and temperature variations	,	Student (.doc)
LAB 17 (chapter 3)	Potential energy	Relationship between potential energy, mass, acceleration and travel	,	Student (.doc)
LAB 18 (chapter 3)	The relationship between constant speed, distance and time	Relationship between constant speed, distance and time		Student (.doc)
LAB 19 (chapter 3)	Mass and weight	Mass and weight	,	Student (.doc)
LAB 20 (chapter 3)	The effect of friction	Types of forces		Student (.doc)
LAB 21 (chapter 3)	The equilibrium of two forces	Equilibrium of two forces		Student (.doc)
LAB 22 (chapter 3)	Effective force	Effective force	,	Student (.doc)
LAB 23 (chapter 3)	Pascal's principle	Pascal's principle		Student (.doc)
LAB 24 (chapter 3)	Buoyant force	Archimedes' principle		Student (.doc)
LAB 25 (chapter 3)	Archimedes' principle	Archimedes' principle		Student (.doc)
LAB 26 (chapter 3)	The Cartesian diver	Archimedes' principle		Student (.doc)
LAB 27 (chapter 3)	Pressure in a liquid	Archimedes' principle		Student (.doc)
LAB 28 (chapter 3)	Bernoulli's principle	Bernoulli's principle		Student (.doc)
LAB 29 (chapter 4)	The law of conservation of mass	Law of conservation of mass	, ,	Student (.doc)
LAB 30 (chapter 4)	Stoichiometry	Stoichiometry	,	Student (.doc)
LAB 31 (chapter 4)	Endothermic and exothermic reactions	Endothermic and exothermic reactions	,	Student (.doc)
LAB 32 (chapter 4)	A precipitation reaction	Precipitation		Student (.doc)
LAB 33 (chapter 4)	Neutralizing an acid with a base	Acid-base neutralization	, ,	Student (.doc)
LAB 34 (chapter 4)	Titration	Acid-base neutralization reaction	, ,	Student (.doc)
LAB 35 (chapter 4)	Copper oxidation	Oxidation		Student (.doc)
LAB 36 (chapter 4)	Comparing combustion and cellular respiration	Photosynthesis and respiration	, ,	Student (.doc)
LAB 37 (chapter 4)	Gas from photosynthesis	Photosynthesis and respiration	, ,	Student (.doc)
LAB 38 (chapter 5)	Detecting static electricity	Static electricity	, ,	Student (.doc)
LAB 39 (chapter 5)	Charging an object	Static electricity	, ,	Student (.doc)
LAB 40 (chapter 5)	Ohm's law	Ohm's law	, ,	Student (.doc)
LAB 41 (chapter 5)	Current intensity	Electrical circuits	, ,	Student (.doc)
LAB 42 (chapter 5)	Electrical potential difference	Electrical circuits	, ,	Student (.doc)
LAB 43 (chapter 5)	Kirchhoff's laws	Kirchhoff's laws		Student (.doc)
LAB 44 (chapter 5)	Magnets	Forces of attraction and repulsion	, ,	Student (.doc)
LAB 45 (chapter 5)	The magnetic field of a live wire	Magnetic field of a live wire	, ,	Student (.doc)
LAB 46 (chapter 5)	The magnetic field of a solenoid	Magnetic field of a solenoid	,	Student (.doc)
LAB 47 (chapter 5)	The effect of solenoid coils in an electric motor	Magnetic field of a solenoid	,	Student (.doc)
LAB 48 (chapter 5)	Electromagnetic induction	Electromagnetic induction		Student (.doc)
LAB 49 (chapter 6)	Identifying minerals	Minerals	, ,	Student (.doc)
LAB 50 (chapter 6)	Water retention in soil horizons	Soil profile (horizons)	, ,	Student (.doc)
LAB 51 (chapter 6)	Variations in soil pH	Buffering capacity of the soil	,	Student (.doc)
LAB 52 (chapter 6)	Soil depletion	Soil depletion		Student (.doc)
LAB 53 (chapter 6)	Sanitary landfills	Contamination (lithosphere)	,	Student (.doc)
LAB 54 (chapter 6)	A watershed	Watershed	, ,	Student (.doc)
LAB 55 (chapter 6)	Ocean circulation	Ocean circulation	,	Student (.doc)
LAB 56 (chapter 6)	Eutrophication	Eutrophication	,	Student (.doc)
LAB 57 (chapter 7)	Atmospheric circulation	Atmospheric circulation, air mass	, , ,	Student (.doc)
LAB 58 (chapter 7)	Relative humidity	Air mass	, ,	Student (.doc)
LAB 59 (chapter 7)	The greenhouse effect	Greenhouse effect	, ,	Student (.doc)
LAB 60 (chapter 7)	Air pollution	Contamination (atmosphere)	,	Student (.doc)
LAB 61 (chapter 7)	Energy from the sun	Solar energy flow	, ,	Student (.doc)
LAB 62 (chapter 8)	Terrestrial biomes	Terrestrial biomes	,	Student (.doc)
LAB 63 (chapter 8)	An artificial aquatic biome	Aquatic biome	,	Student (.doc)
LAB 64 (chapter 9)	Methods for measuring the size of a population	Study of populations (density, biological cycles)	,	Student (.doc)
LAB 65 (chapter 9)	Population density	Study of populations (density, biological cycles)	,	Student (.doc)
LAB 66 (chapter 9)	Ecological factors	Study of populations (density, biological cycles)	,	Student (.doc)
LAB 67 (chapter 10)	Vermicomposting	Dynamics of ecosystems (material and energy flow)	, ,	Student (.doc)
LAB 68 (chapter 10)	Primary productivity	Dynamics of ecosystems (primary productivity)	, ,	Student (.doc)
LAB 69 (chapter 10)	The toxicity threshold	Ecotoxicology (contaminants)	,	Student (.doc)
LAB 70 (chapter 11)	Character traits	Character traits		Student (.doc)


Tech Labs	Overview chart			Overview chart (.pdf)
Tech Lab 1	Constraints and deformations	Constraints (deflection, shearing)	, ,	Student (.pdf)
Tech Lab 2	The modification of properties	Modification of properties (degradation, protection)	, ,	Student (.pdf)
Tech Lab 3	Types and properties of plastics	Types and properties of plastics (thermoplastics and thermosetting plastics)	, ,	Student (.pdf)
Tech Lab 4	General arrangement drawings	Multiview orthogonal projection (general arrangement drawing)	,	Student (.pdf)
Tech Lab 5	Developments	Developments (prism, cylinder, pyramid, cone)		Student (.pdf)
Tech Lab 6	Standards and representations	Standards and representations (diagrams, symbols)		Student (.pdf)
Tech Lab 7	Manufacturing: tools and techniques	Shaping (machines and tools)		Student (.pdf)
Tech Lab 8	Tapping and threading	Manufacturing (characteristics of tapping and threading)	,	Student (.pdf)
Tech Lab 9	Linking in technical objects	Characteristics of the linking of mechanical parts	, ,	Student (.pdf)
Tech Lab 10	Adhesion and friction of parts	Adhesion and friction of parts	,	Student (.pdf)
Tech Lab 11	Motion transmission	Motion transmission	, ,	Student (.pdf)
Tech Lab 12	Motion transformation	Motion transformation	, ,	Student (.pdf)
Tech Lab 13	Electrical functions	Electrical functions power supply, conduction, insulation and protection typical controls, transformation of energy	, ,	Student (.pdf)
Tech Lab 14	Circuit protection	Protection	, ,	Student (.pdf)
Tech Lab 15	Circuit control	Control	, ,	Student (.pdf)
Tech Lab 16	The transformation of energy	The transformation of energy	, ,	Student (.pdf)