This hands-on activity, ‘Machines Project 2’ asks students to make something using at least three different types of simple machines.
This quick reference chart, ‘Simple Machines Review’ provides a visual reference chart on simple machines and how they make moving loads easier.
This quick reference chart, ‘Simple Machines’ provides a visual reference chart on simple machines and how they make moving loads easier.
This hands-on activity, ‘Magnetic Energy’ asks students to investigate magnetic energy through exploring the properties and use of magnets.
This hands-on activity, ‘Mass’ asks students to investigate the concept of mass through looking at touch, shape and texture.
This kids news activity, ‘Meteorite Lands In Russia’ reports on a destructive sonic boom event over a Russian town, caused by a meteorite explosion.
This quick reference chart, ‘Motion’ provides a visual summary on the scientists who discovered the basics of movement.
This hands-on activity, ‘Storing and Releasing Energy 1’ asks students to build a pendulum and investigate how you can store and release energy when you choose.
This hands-on activity, ‘Storing and Releasing Energy 2’ asks students to investigate the transfer of potential energy to kinetic energy through the use of a yoyo.
This hands-on activity, ‘Storing and Releasing Energy 3’ asks students to investigate the transfer of potential energy to kinetic energy through the use of a slinky.
This hands-on activity, ‘Storing and Releasing Energy Project’ asks to explore kinetic energy through building and conducting an experiment using a pendulum.
This hands-on activity, ‘Newton Project’ asks students to write a short report on Newton, or any other famous scientist who studied motion.
This hands-on activity, ‘Newton’s 1st Law of Motion 1’ asks students to investigate the concept of the first law of motion through experimenting with seat belts.
This hands-on activity, ‘Newton’s 1st Law of Motion 2’ investigates the relationship between mass and inertia by allowing students to pull a tablecloth from underneath a set of heavy objects.
This hands-on activity, ‘Newton’s 1st Law of Motion 3’ asks students design and make a model which shows Newton’s first law of motion at work.
This hands-on activity, ‘Newton’s 2nd Law of Motion 1’ asks students to investigate the concept of Newton’s second law of motion and the effect of using force to move a heavy and light ball.
This hands-on activity, ‘Newton’s 2nd Law of Motion 2’ asks students to line up according to height and jump on stomp rockets to reveal the direct relationship between mass and distance.
This hands-on activity, ‘Newton’s 2nd Law of Motion 3’ asks students to design and make a model which shows how Newton’s second law operates when two objects collide.
This hands-on activity, ‘Newton’s 3rd Law of Motion 1’ introduces the concept of Newton’s third law of motion and asks students to form pairs and practice Chinese get-ups by pushing on each other with equal force.
This hands-on activity, ‘Newton’s 3rd Law of Motion 2’ asks students to investigate the concept of Newton’s third law of motion through launching a balloon rocket.
This hands-on activity, ‘Newton’s 3rd Law of Motion 3’ asks students to demonstrate Newton’s third law of motion by conducting an experiment in designing and making a slingshot.
This quick reference chart, ‘Newton’s Laws of Motion Chart’ provides a visual guide to understanding Newton’s laws of motions.
This kids news activity, ‘Nomadic Gnome Puts Gravity To The Test’ is about a scientific experiment centred on physical location, gravity and the measurement of weight.
This quick reference chart, ‘Physics is About:’ offers an illustrative guide to the building blocks of elementary physics.
This worksheet, ‘Physics Puzzle’ provides opportunities for practice and reinforcement of basic physics concepts. Answer sheet provided with file download.
This assessment item ‘Physics Quiz’ can be used to assess students’ knowledge of basic physics concepts. Answer sheet provided with file download.
This quick reference chart, ‘Physics Concepts’ provides a visual reference chart for basic physics concepts.
This hands-on activity, ‘Pulleys 1’ asks students to build a pulley and investigate how they can provide an advantage when lifting heavy loads.
This hands-on activity, ‘Pulleys 2’ asks students to set up a single and double pulley and investigate how they compare to each other when lifting a load.
This hands-on activity, ‘Pulleys 3’ asks students to investigate and measure how far you need to pull the rope on a single and double pulley to lift the bucket.
This hands-on activity, ‘Ramps’ asks students to build a ramp and investigate how its height impacts upon the rolling distance of an object.
This hands-on activity, ‘Revolving Crane Project’ asks students to build Leonardo da Vinci’s revolving crane.
This hands-on activity, ‘Robot Arm Project’ asks students to build Leonardo da Vinci’s robot arm and explore its relation to movement and physics.
This hands-on activity, ‘Screws 1’ asks students to investigate how a screw is really a ‘rolled up’ ramp.
This hands-on activity, ‘Screws 2’ asks students to investigate how machines we see today use the principle of lifting and lowering something onto a screw.
This quick reference chart, ‘Simple Machines Chart’ provides a visual summary of simple machines and how they make moving loads easier.
This hands-on activity, ‘Solar Energy’ asks students to capture energy from the sun and investigate how different materials and colours can absorb and reflect light.
This hands-on activity, ‘Space’ asks students to investigate the concept that mass takes up space.
This hands-on activity, ‘Storing and Releasing Energy 1’ asks students to investigate and observe kinetic energy.
This hands-on activity, ‘Storing and Releasing Energy 2’ asks students to investigate and observe the relationship between mass and energy.
This hands-on activity, ‘The Gravity-Friction Challenge’ asks students to tackle the two challenges of making a tennis ball return to its original height when dropped and discovering how to move a piece of plasticine across the room.
This hands-on activity, ‘Tools’ asks students to examine objects to find out how simple machines are used to do everyday jobs.
This hands-on activity, ‘Volume 1’ asks students to investigate the concept of volume filling up space.
This hands-on activity, ‘Volume 2’ asks students to investigate how different sized containers affect volume.
This hands-on activity, ‘Water Energy’ asks students to investigate how energy from flowing water can be used to move a boat.
This hands-on activity, ‘Wedges’ asks students to investigate how a wedge can be used to force something apart.
This hands-on activity, ‘Wheels 1’ asks students to build a cart and investigate how wheels help us move load.
This hands-on activity, ‘Wheels 2’ asks students to build a drive belt and investigate how spools can move load.
This hands-on activity, ‘Wheels 3’ asks students to build gears using bottle tops and investigate how they can move load.
This physical science worksheet, ‘Which Colours Get Warm?’ provides students with opportunities to explore the way different colours react to heat.
This hands-on activity, ‘Wind Energy’ asks students to build a windmill and investigate how wind energy can be captured to create power.
This hands-on activity, ‘Wind Energy Extension’ asks students to record and compare the strength of wind over time.