All lessons posted are full lessons, which include all necessary worksheets and sources. All lessons posted have been tried and tested in the classroom.
All schemes of work are available as a pack or individually, check out the free lessons to get an idea about the types of sources and activities included in other lessons.
All lessons posted are full lessons, which include all necessary worksheets and sources. All lessons posted have been tried and tested in the classroom.
All schemes of work are available as a pack or individually, check out the free lessons to get an idea about the types of sources and activities included in other lessons.
This is the first lesson in a KS3 Physics unit on Forces. The resource is a full lesson introducing pupils to forces. This is the first lesson of a forces unit taught to year 7 pupils but could be adapted for other year groups.
During this lesson, pupils will:
Discuss why objects move and how planes fly
Consider the reasons why objects fall and forces acting on it.
Learn that forces can be pushes, pulls or twists and link these ideas to different actions.
Consider Newton’s three laws of motion
Define a force and identify different contact and non-contact forces
Complete consolidation activities.
A bundle of all 8 lessons can be found here.
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This is the first lesson in a GCSE physics unit of work on Energy. The lesson was designed for Edexcel but could easily be adapted for other exam boards and levels.
The main focus of the lesson it to build on knowledge of energy gained during KS3 and introduce pupils to the concepts of energy stores and transfers between energy stores.
During this lesson pupils will:
Discuss the idea of energy, where is comes from and what it is used for.
Define energy, its purpose and units.
Use images to identify some of the types of energy that exist.
Identify energy stores associated with specific types of energy.
Create flow charts to identify and show energy transfers between different stores in a number of different situations.
Identify the importance of the thermal/heat store.
Complete some short consolidation tasks.
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This is the fourth lesson in a unit of work on motion and pressure. The lesson is aimed towards KS3 but could be adapted for other levels.
The main focus of the lesson is to introduce pupils to liquid pressure, its causes and effects. Pupils will also look at the effect of depth on liquid pressure and use associated forces to explain floating and sinking.
During this lesson pupils will:
Use an image of a blobfish at the surface to infer information about the effect of water pressure.
Recap work from last lesson on pressure in gases and link to pressure in liquids.
Recap the particle model of a liquid, discuss its motion and how this causes pressure on an object submerged in it.
Consider the changes in pressure on a fish as it swims deeper.
Investigate and graph the relationship between depth and pressure experienced.
Use knowledge of forces to explain why some objects float while others sink.
Complete some short consolidation tasks to check understanding.
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This is the fourth lesson in a unit of work on sound. The lessons are aimed towards KS3 but could be adapted for other levels. The main focus of this lesson is the structure and functions of the different parts of the ear.
For all five lessons in this bundle, click here.
During this lesson pupils will:
Use images to compare the ears of different animals.
Share prior knowledge about the ear.
Use a video to identify different parts of the outer and inner ear and label a diagram.
Complete a matching activity to learn the functions of the different parts of the ear.
Complete a card sort to describe how sound waves are detected by the ear and transmitted as an electrical impulse to the brain.
Consider different situations that may result in ear damage and discuss how to prevent it.
Complete a matching activity to compare a microphone to an ear.
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This is the fourth lesson in a unit of work on forces which could be adapted for use at KS3 or GCSE. The lesson is a practical lesson to test Hooke’s law. There is also some work on elastic deformation which may be too high for KS3 but could be easily removed.
During this lesson pupils will:
Discuss the uses of springs.
Get some basic contextual information about Robert Hooke
Identify the IV and DV of the practical and write a hypothesis to test.
Use the method to identify hazards and write rules to minimize them.
Conduct the experiment to test Hooke’s law.
Calculate spring extension and graph results. Compare results with expected results for Hooke’s law.
Complete evaluation questions
Learn about Hooke’s law.
Learn about elastic deformation.
Complete consolidation task.
A bundle of all 8 lessons in this unit can be found here.
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This is the second lesson in a unit of work on forces which could be used at KS3 or GCSE. The lesson focus on the concept that forces always occur in pairs which interact. There is also work on drawing free body diagrams which might be a bit advanced for lower groups but useful for more advanced groups.
During this lesson pupils will:
Use ISM to identify forces acting on an object that is stationary and the directions they are acting.
Relate the previous activity to Newton’s third law of motion.
Learn about interaction pairs.
Learn the rules for drawing free body diagrams.
Draw free body diagrams from pictures in the lesson.
Watch a video to consolidate learning.
Complete consolidation task to identify forces which would pair with each other and draw their own free body diagram.
A bundle of all 8 lessons in this unit can be found here.
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This is the second lesson in a unit of work on motion and pressure. The lesson is aimed towards KS3 but could be adapted to other levels.
The main focus of the lesson is to introduce pupils to distance-time graphs, how to interpret them to describe motion and how to use them to calculate speed.
During this lesson, pupils will:
Use previous knowledge to estimate the speed of light using the speed equation.
Estimate the speed of a person traveling in different ways and use this to calculate how long it would take to move 20m using the speed equation.
Identify the key features of a distance-time graph.
Use a distance-time graph to compare and calculate the speed of three different objects.
Complete a matching activity to describe the motion of a person walking to catch a train from a distance-time graph.
Use a distance time graph to calculate the speed of this person and analyze their motion.
Sketch a distance-time graph from a set of descriptions of someones motion.
Describe what a curved line on a distance-time graph shows.
Complete some short consolidation activities.
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This is the third lesson in a unit of work on motion and pressure. The lesson is aimed towards KS3 but could be adapted for other levels.
The aim of the lesson is to introduce pupils to the concept of gas pressure using a can crushing practical and a though experiment about blowing up a balloon until it pops.
This lesson includes the can crush/imploding practical which could also be done as a demonstration to save time and resources.
During this lesson pupils will:
Recap the particle model of a gas and explain how the particles move in relation to each other and their container.
Conduct/observe can imploding due to air pressure.
Complete a card sort activity to explain why the can imploded.
Generally define pressure.
Use their own knowledge to answer questions about blowing up a balloon until it bursts to infer gas pressure and what causes it.
Define the idea of gas pressure and its causes.
Complete/watch a simulation to identify factors which can increase gas pressure.
Complete some short consolidation tasks.
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This is the first lesson of a unit of work on sound. It is aimed towards KS3 but could be adapted for other levels. The main aim of the lesson is to introduce pupils to transverse and longitudinal waves and their main features and properties.
For a bundle of all five lessons in this unit, click here.
During this lesson pupils will:
Complete an ISM activity discussing the speed of light vs the speed of sound.
Suggest how sound and light travel from one place to another to test pupil prior knowledge.
Introduce and define the concept of wave in terms of energy.
Investigate the difference between transverse and longitudinal wave.
Draw and label a transverse wave, defining the key features, Wavelength, amplitude, peak, trough and frequency.
Draw and label a longitudinal wave defining the key features, rarefaction and compression.
Model transverse and longitudinal waves using a slinky.
Briefly investigate absorption, transmission and reflection of waves.
Draw a ray diagram showing incident and reflected waves.
Briefly investigate superposition of waves.
Complete a short knowledge consolidation task.
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This is the fifth lesson in a unit of work on sound. The lesson was aimed at KS3 but could be adapted for other levels. The main focus of the lesson is to investigate why sounds echo, sound reflections and their practical uses.
For a bundle of all five lessons in this unit, click here.
During this lesson pupils will:
Complete questions to recap knowledge from previous lessons in unit.
Watch and analyze a talk by Daniel Kish who uses echolocation to “see” the world.
Discuss own knowledge about echoes.
Recap what happens to waves when they collide with a barrier.
Learn what causes an echo and complete a fill in the gap activity to describe it .
Investigate the problems for reverberation in cinemas and suggest solutions.
Recap the speed equation and how to rearrange it.
Investigate SONAR and complete practice calculation questions to work out distance and time.
Investigate ultrasound scanning.
Complete true or false consolidation task.
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This is the third lesson in a unit of work on sound. The lesson is aimed towards KS3 but could be adapted to other levels. The main focus of the lesson is to get pupils to interpret oscilloscope traces and identify the difference between high pitch and low pitch, loud and soft sounds.
For a bundle of all five lessons in this unit, click here.
During this lesson pupils will:
Recap general knowledge about waves from prior lessons.
Recap the features of transverse waves: Wavelength, amplitude and frequency.
Identify high and low frequency sounds from a trace.
Use a virtual (or real) oscilloscope to see how a trace changes with different types of sounds.
Identify the difference between loud and soft sounds.
Identify the difference between high pitch and low pitch sounds.
Complete consolidation activities including drawing traces of different sounds.
Investigate the audible frequency range of different animals and graph them.
Suggest why different animals have different ranges based on activity and environment.
Identify animals that can hear infrasound and ultrasound.
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This is the first lesson in a unit of work on motion and pressure. The lesson is aimed towards KS3 but could be adapted for other levels.
The main focus of the lesson is to introduce pupils to the concept of speed, the speed equation and to conduct some short practicals on measuring speed.
During this lesson pupils will:
Discuss who is faster, Usain Bolt or a cheetah.
Complete questions to assess their own knowledge about speed.
Consider the speed equation and use a formula triangle to rearranging it to find distance and time.
Complete calculation questions using the speed equation to find speed, distance and time.
Use a video to measure Usain Bolts speed during his world record race and compare it to a cheetah to answer question from start of lesson.
Complete a short practical to measure the speed of a rolling ball including calculating mean speed, measuring distance and measuring time.
Complete a short practical to measure the speed of a person walking.
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This is the second lesson in a unit of work about atoms, elements and compounds. It is aimed towards KS3 but could be adapted for other levels. This lesson focuses on the difference between molecules of elements and compounds and compounds and their constituent elements.
*The practical in this lesson requires pupils to use bunsen burners.
During this lesson pupils will:
Recap the structure of an atom from last lesson
Define what a molecules is.
Define what a compound is.
Identify atoms, molecules of elements and molecules of compounds from particle diagrams. Copy and label.
Use the periodic table to identify if a substance is an element or compound.
Investigate the difference between water, hydrogen and water and chlorine, sodium and salt.
Identify that the properties of compounds are different than the elements that make them up.
Conduct practicals to create iron oxide and copper sulfide.
Watch teacher demonstration of making magnesium oxide.
Complete short knowledge consolidation activity.
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This is the first lesson in a unit of work on atoms, elements and compounds. It is aimed towards KS3 but could be adapted for other levels. This lesson focuses on introducing pupils to the concepts of atoms, elements and the periodic table.
Part of this lesson requires samples of different elements which will need to be organized before the lesson.*
During this lesson, Pupils will:
Think about and discuss what objects in the classroom are made of.
Use ISM images to discuss the size of an atom. ]
Discuss things that are very big and small and watch an animation showing the scale of objects and the universe.
Complete a series of activities to estimate the number of atoms in different things.
Draw a diagram of the atomic structure of an atom introducing pupils to elections, protons, neutrons, shells and the nucleus.
Watch a video and answer questions about the size of an atom.
Define an element.
Investigate the periodic table.
Examine and describe different samples of elements (These will need to be ordered before the lesson)
Complete a series of activities to find elements on the periodic table.
Complete short consolidation tasks.
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This is the eighth lesson in a unit of work on forces which could be adapted for use at KS3 or GCSE. The lesson investigates what balanced and unbalanced forces are and how they effect object motion and acceleration.
During this lessons pupils will:
Recap weight calculations from previous lesson.
Recap free body diagrams from previous lessons to prepare for using them in this lesson.
Recap Newtons three laws of motion highlighting the second law.
Consider and discuss the forces acting on a stationary object.
Consider and discuss forces acting on an object at constant speed.
Define balanced forces.
Consider and discuss forces acting on an object that is accelerating.
Define unbalanced forces.
Learn how to calculate resultant forces
Calculate resultant force for two different situations.
Complete a fill in the gaps consolidation task.
A bundle of all 8 lessons in this unit can be found here.
Please visit my shop for the other lessons in this unit and other science, history and geography resources.
This is the seventh lesson in a unit of work on forces which could be adapted for use at KS3 or GCSE. This lesson teaches the concept of weight and mass with a focus on the weight equation and math skills used to calculate weight.
During this lesson pupils will:
Discuss the difference between mass and weight.
Define mass and weight.
Use the masses and weights of different objects to try and determine the relationship between mass and weight on Earth.
Learn and rearrange the weight equation.
Complete a series of maths exercises to calculate weight in different situations.
A bundle of all 8 lessons in this unit can be found here.
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This is the sixth lesson in a unit of work on forces which could be adapted for use at KS3 or GCSE. The lesson introduces pupils to non-contact forces and using two short practicals to explore different aspects of magnetic fields.
During this lesson pupils will:
Discuss how magnets attract and repel and the Earth attracts things.
Identify non-contact forces and attempt to explain how they work.
Write a definition of non-contact forces.
Complete a matching activity about force fields.
Use iron filings and a bar magnet to observe a magnetic field.
Use a plotting compass and bar magnet to draw field lines around the magnet.
Complete some short consolidation tasks to review learning.
A bundle of all 8 lessons can be found here.
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This is the fifth lesson in a unit of work on Forces which could be adapted for use at KS3 or GCSE. The lesson focus on the nature of friction and its effects along with other drag forces. This is quite a long lesson and includes a practical so it might be a good idea to break it into two shorter lessons.
During this lesson, pupils will:
Recap knowledge about contact and non-contact forces
Think about why people slip on ice.
Learn about friction and its effect on opposing motion.
Consider situations of low friction such as ice from previous activity.
Conduct a practical about friction, including identifying variables, writing a hypothesis, graphing results and answering evaluation questions.
Using pictures to identify different sources of friction in different situations.
Investigating other drag forces such as air and water resistance.
A bundle of all 8 lessons in this unit can be found here.
Please visit my shop for more science, history and geography resources.
This is the third lesson in a unit of work on forces which could be adapted for use at KS3 or GCSE. The lesson focuses on understanding why objects deform when a force is applied. There is a short activity on particles and bonds but knowledge of this would be useful in fully understanding the lesson.
During this lesson, pupils will:
Complete a true or false activity based on the content of lesson two of this unit.
Watch a video to recap prior knowledge and quiz other pupils on it.
Recap particles and bonding.
Recognize that when a force is applied the bone between atoms can extend of compress.
Apply knowledge to a golf ball being hit and compressing and a bungee jump extending the bungee rope.
Write a description of someone jumping on a trampoline including the forces acting and effect on the bonds at different points of the jump.
Consolidation activity.
A bundle of all 8 lessons in this unit can be found here.
Go to my shop for other lessons in this unit and other science, history and geography resources.
This is the second lesson in a unit of work on sound. This lesson is aimed towards KS3 classes but could easily be adapted for other levels. The main aim of the lesson is to introduce pupils to the speed of sound and explain why the speed of sound is different in solids, liquids and gases.
For a bundle of all five lessons in this unit, click here.
Part of this lesson requires a vacuum chamber with a sound maker in it to demonstrate sound’s inability to travel through a vacuum. A video has been included as an alternative task to this.
During this lesson pupils will:
Estimate the speed of sound in air.
Share their own knowledge of sound during discussion.
Recap transverse and longitudinal waves and suggest the types of media they can move through.
Watch vacuum chamber demo to show sound cannot travel through a vacuum.
Use the particle model of states of matter to explain why sound travels fastest through solids and slowest through gas.
Make a string telephone and complete analysis of the activity.
Complete consolidation questions.
Use the speed equation to calculate the speed of sound in different situations (higher ability.)
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