1: The Living World

1.1: Hierarchical organization of life

1.1.1: Cell division

1.1.1.a: DNA

Building DNA
DNA Analysis
Protein Synthesis

1.1.1.b: Mitosis

Cell Division

1.1.1.c: Functions of cell division (reproduction, growth, regeneration)

Cell Division

1.1.1.d: Meiosis and sexual development (meiosis, fertilization)


1.1.2: Tissues, organs and systems

1.1.2.b: Organs

Digestive System

1.1.2.c: Systems

Circulatory System
Digestive System

1.2: Systems - Nutrition

1.2.1: Digestive system

1.2.1.b: Energy value of different foods

Digestive System

1.2.1.c: Digestive tract (mouth, esophagus, stomach, small intestine, large intestine, anus)

Digestive System

1.2.1.e: Digestive glands (salivary glands, gastric glands, pancreas, liver, intestinal glands)

Digestive System

1.2.2: Circulatory and respiratory systems

1.2.2.d: Circulatory system (types of blood vessels)

Circulatory System

2: The Material World

2.1: Properties of matter

2.1.2: Characteristic chemical properties

2.1.2.a: Reaction to indicators

pH Analysis
pH Analysis: Quad Color Indicator

2.1.3: Properties of solutions

2.1.3.b: Solute

Solubility and Temperature

2.2: Changes in matter

2.2.1: Physical changes

2.2.1.c: Phase changes

Phase Changes

2.2.2: Chemical changes

2.2.2.a: Decomposition and synthesis

Balancing Chemical Equations
Chemical Changes
Chemical Equations
Dehydration Synthesis

2.2.3: Forms of energy (chemical, thermal, mechanical, radiation)

Energy Conversion in a System
Energy of a Pendulum
Herschel Experiment - Metric
Inclined Plane - Sliding Objects
Roller Coaster Physics
Temperature and Particle Motion

2.2.4: Particle model

Element Builder

2.5: Waves

2.5.1: Frequency


2.5.2: Wavelength

Ripple Tank

2.5.3: Amplitude


2.5.7: Focal point of a lens

Ray Tracing (Lenses)

4: The Technological World

4.1: Graphical language

4.1.2: Forms of representation (sketch, perspective drawing, oblique projection)

Determining a Spring Constant

4.1.3: Basic lines

Determining a Spring Constant

4.1.7: Dimensioning


4.2: Engineering - Mechanics

4.2.2: Typical functions

Inclined Plane - Simple Machine
Pulley Lab

4.2.3: Function, components and use of motion transmission systems (friction gears, pulleys and belt, gear assembly, sprocket wheels and chain, wheel and worm gear)

Pulley Lab

4.2.4: Function, components and use of motion transformation systems (screw gear system, cams, connecting rods, cranks, slides, rotating slider crank mechanisms, rack-and-pinion drive)

Inclined Plane - Simple Machine
Pulley Lab

Correlation last revised: 9/16/2020

This correlation lists the recommended Gizmos for this province's curriculum standards. Click any Gizmo title below for more information.