A Science teacher by trade, I've also been known to be found teaching Maths and PE! However, strange as it may seem, my real love is designing resources that can be used by other teachers to maximise the experience of the students. I am constantly thinking of new ways to engage a student with a topic and try to implement that in the design of the lessons.
A Science teacher by trade, I've also been known to be found teaching Maths and PE! However, strange as it may seem, my real love is designing resources that can be used by other teachers to maximise the experience of the students. I am constantly thinking of new ways to engage a student with a topic and try to implement that in the design of the lessons.
An engaging lesson presentation (78 slides) and associated worksheets that uses a combination of exam questions, quick tasks and quiz competitions to help the students to assess their understanding of the topics found within module P4 (Waves and radioactivity) of the OCR Gateway A GCSE Combined Science specification.
The topics that are tested within the lesson include:
Waves and their properties
Wave velocity
Electromagnetic waves
Atoms and isotopes
Alpha, beta, gamma
Nuclear equations
Half-life
Radiation and the human body
Students will be engaged through the numerous activities including quiz rounds like “Tell EM the Word” and “Take the HOTSEAT” whilst crucially being able to recognise those areas which need further attention
This bundle of 6 engaging and motivating lesson presentations and associated worksheets uses a combination of exam questions, quick tasks and quiz competitions to test the students on their knowledge of the Physics units of the OCR Gateway A GCSE Combined Science specification. The knowledge of Modules P1 (Matter), P2 (Forces), P3 (Electricity and magnetism), P4 (Waves and radioactivity) P5 (Energy) and P6 (Global challenges) can be assessed using these lessons.
An engaging lesson presentation (84 slides) and associated worksheets that uses a combination of exam questions, quick tasks and quiz competitions to help the students to assess their understanding of the topics found within unit P5 (Forces) of the AQA GCSE Combined Science specification (specification point P6.5).
The topics that are tested within the lesson include:
Gravity
Speed
Velocity
Acceleration
Newton’s laws
Forces and braking
Momentum
Conservation of momentum
Students will be engaged through the numerous activities including quiz rounds like “Can you go the DISTANCE” whilst crucially being able to recognise those areas which need further attention
This is a fully-resourced revision lesson, that is likely to be most effective when used over the course of a series of lessons, and has been designed to help students to revise and assess their knowledge of the content that is found in topics P4 (Waves and radioactivity), P5(Energy) and P6 (Global challenges) of the OCR Gateway A GCSE Combined Science specification. This is the content that will be assessed in paper 6 in the terminal exams.
This revision lesson uses a combination of exam questions, understanding checks, quick tasks and quiz competitions to cover the following sub-topics and specification points:
Wave behaviour
The electromagnetic spectrum
Radioactivity
Work done
Power and efficiency
Physics on the move
Powering Earth
This lesson contains a big emphasis on the mathematical calculations that will be involved in these exams, and as a result students are challenged to recall the equations and to apply them.
Students will be engaged through the numerous quiz rounds whilst crucially being able to recognise those areas which require their further attention during general revision or during the lead up to the actual GCSE terminal exams. A lot of the tasks have been differentiated so that students of all abilities can access the work and be challenged appropriately.
This is a concise REVISION lesson that contains an engaging powerpoint (28 slides) and is fully-resourced with associated worksheets. The lesson uses a range of activities which include exam questions (with displayed answers), differentiated tasks and quiz competitions to engage students whilst they assess their knowledge of the content that is found within topic P15 (Forces and matter) of the Edexcel GCSE Combined Science specification.
The following sub-topics in the specification are covered in this lesson:
Describe the difference between elastic and inelastic distortion
Recall and use the equation for linear elastic distortion including calculating the spring constant
Use the equation to calculate the work done in stretching a spring
Describe the difference between linear and non-linear relationships between force and extension
Investigate the extension and work done when applying forces to a spring
This lesson can be used throughout the duration of the GCSE course, as an end of topic revision lesson or as a lesson in the lead up to mocks or the actual GCSE exams
This REVISION lesson contains an engaging powerpoint (45 slides) and is fully-resourced with associated worksheets. The lesson uses a range of activities which include exam questions (with displayed answers), differentiated tasks and quiz competitions to engage students whilst they assess their knowledge of the content that is found within topics P12 (Magnetism and the motor effect) and P13 (Electromagnetic induction) of the Edexcel GCSE Combined Science specification. Generally, these topics are poorly understood by students but are regularly assessed through questions in the GCSE exams and so time has been taken to design the lesson so that the key points are covered and common misconceptions addressed.
The following specification points are covered in this lesson:
Recall that unlike magnetic poles attract and like magnetic poles repel
Explain the difference between permanent and induced magnets
Describe the use of plotting compasses to show the shape and direction of the field of a magnet and the Earth’s magnetic field
Explain how the behaviour of a magnetic compass is related to evidence that the core of the Earth must be magnetic
Explain that magnetic forces are due to interactions between magnetic fields
Recall and use Fleming’s left-hand rule to represent the relative directions of the force, the current and the magnetic field for cases where they are mutually perpendicular
Use the equation which connects force on a conductor, magnetic flux density, current and length
Recall that a transformer can change the size of an alternating voltage
Explain why, in the national grid, electrical energy is transferred at high voltages from power stations, and then transferred at lower voltages in each locality for domestic uses as it improves the efficiency by reducing heat loss in transmission lines
Explain where and why step-up and step-down transformers are used in the transmission of electricity in the national grid
Use the power equation (for transformers with 100% efficiency)
This lesson is suitable for use throughout the duration of the GCSE course, as an end of topic revision lesson or as a lesson in the lead up to mocks or the actual GCSE exams
This revision lesson is fully-resourced and has been written to allow students to assess their understanding of the content detailed in topic 15 (Forces and matter) of the Pearson Edexcel GCSE Physics specification. The engaging and detailed PowerPoint uses a wide range of activities, which includes exam-style questions with clear explanations of the answers, to enable the students to identify those areas which require further attention before the mock or terminal examinations.
The lesson was designed to cover as much of the topic as possible but the following points have received particular attention:
The difference between elastic and inelastic distortion
Recall and use the equation for linear elastic distortion
Use the equation to calculate the work done in stretching
Describe the relationship between force and extension
Recall and use the equation for pressure
Describe how pressure in fluids increases with depth and density
Use the equation to calculate the magnitude of pressure in liquids
Explain that an object in a fluid is subjected to upthrust
Calculate the depth at which an object floats
Due to the heavy mathematical content of this specification and particularly this topic, a lot of the activities challenge the students on their ability to recall and apply the equations. Step-by-step guides and differentiated resources are used to allow students of differing abilities to access the work.
An engaging lesson presentation that runs the lesson in a quiz format, with numerous rounds, in order to introduce the students to the different stages of the life cycle of a star. The lesson begins by introducing students to the first three stages (nebula, protostar, main sequence) which all stars go through regardless of their mass. Key details about each stage are discussed and considered. Moving forwards, this lesson ensures that students understand that the stages after the main sequence are dependent upon the mass of the star. Key links are made to associated topics such as nuclear fusion.
This lesson has been designed for GCSE students but could be used with KS3 students if they are doing a project on space and stars
This is a detailed and engaging REVISION lesson which is fully-resourced and uses a range of exam questions, understanding checks, quick tasks and quiz competitions to enable students to assess their understanding of the content within topic 7 (Radioactivity and particles) of the Pearson Edexcel IGCSE Physics 9-1 specification (4PH1) for first assessment in June 2019.
The specification points that are covered in this revision lesson include:
Use the following units: becquerel (Bq), centimetre (cm), hour (h), minute (min) and second (s)
Describe the structure of an atom in terms of protons, neutrons and electrons and use symbols to represent isotopes
Know the terms atomic (proton) number, mass (nucleon) number and isotope
Know that alpha (α) particles, beta (β−) particles, and gamma (γ) rays are ionising radiations emitted from unstable nuclei in a random process
Describe the nature of alpha (α) particles, beta (β−) particles, and gamma (γ) rays, and recall that they may be distinguished in terms of penetrating power and ability to ionise
Describe the effects on the atomic and mass numbers of a nucleus of the emission of each types of radiation
Understand how to balance nuclear equations in terms of mass and charge
Know that the activity of a radioactive source decreases over a period of time and is measured in becquerels
Know the definition of the term half-life and understand that it is different for different radioactive isotopes
Use the concept of the half-life to carry out simple calculations on activity
Know that nuclear reactions, including fission, fusion and radioactive decay, can be a source of energy
Understand how a nucleus of U-235 can be split (the process of fission) by collision with a neutron, and that this process releases energy as kinetic energy of the fission products
Know that the fission of U-235 produces two radioactive daughter nuclei and a small number of neutrons
Describe how a chain reaction can be set up if the neutrons produced by one fission strike other U-235 nuclei
Explain the difference between nuclear fusion and nuclear fission
Describe nuclear fusion as the creation of larger nuclei resulting in a loss of mass from smaller nuclei, accompanied by a release of energy
Know that fusion is the energy source for stars
The students will thoroughly enjoy the range of activities, which include quiz competitions such as “It’s as easy as ABG” where they have to compete to be the 1st to form a word by using clues about the different types of radiation whilst all the time evaluating and assessing which areas of this topic will need their further attention. This lesson can be used as revision resource at the end of the topic or in the lead up to mocks or the actual International GCSE exams
A fully-resourced lesson which looks at the calculation of a turning force and uses this to apply the principle of moments. The lesson includes an engaging and informative lesson presentation (24 slides) and a series of worksheets, some of which contain questions which have been differentiated. The lesson begins by getting the students to read through the scene from Friends which involves the famous “PIVOT”. This word has been removed from the scene and so students have to work out what it is and how it could relate to a Physics lesson. The rest of the lesson focuses on the range of calculation questions that students can face, which get progressively more difficult. At each stage of the lesson, students are guided through examples and given hints on points to be conscious of so that any silly mistakes can be eradicated. The principle of moments question worksheet has been differentiated two ways so that those students who need extra assistance are still able to access the learning. A homework question is also included in the lesson.
This lesson has been written for GCSE students but should higher ability KS3 students want to really test themselves, it could be used with them.
This is a detailed REVISION lesson that contains an engaging powerpoint (99 slides) and is fully-resourced with associated worksheets. The lesson uses a range of activities which include exam questions (with displayed answers), differentiated tasks and quiz competitions to engage students whilst they assess their knowledge of the content that is found within topic 8 (Global challenges) of the OCR GCSE Physics A specification.
The following specification points are covered in this lesson:
Explain the factors which affect the distance required for road transport vehicles to come to rest in emergencies and the implications for safety
Estimate how the distances required for road vehicles to stop in an emergency, varies over a range of typical speeds
Estimate the forces involved in typical situations on a public road
Describe the main energy sources available for use on Earth, compare the ways in which they are used and distinguish between renewable and non-renewable sources
Explain patterns and trends in the use of energy resources
Recall that step-up and step-down transformers are used to change the potential difference as power is transferred from power stations
Link the potential differences and numbers of turns of a transformer to the power transfer involved; relate this to the advantages of power transmission at high voltages
Recall that the domestic supply in the UK is a.c. at 50Hz and about 230 volts
Recall the differences in function between the live, neutral and earth mains wires, and the potential differences between these wires
Explain the red-shift of light as seen from galaxies which are receding (qualitative only). The change with distance of each galaxy’s speed is evidence of an expanding universe
Explain how red shift and other evidence can be linked to the Big-Bang model
Recall that our Sun was formed from dust and gas drawn together by gravity and explain how this caused fusion reactions, leading to equilibrium between gravitational collapse and expansion due to the energy released during fusion
Recall the main features of our solar system, including the similarities and distinctions between the planets and their moons
Due to the size of this revision lesson, it is likely to be used over the course of a number of lessons and can also be used throughout the duration of the GCSE course, as an end of topic revision lesson or as lessons in the lead up to mocks or the actual GCSE exams
A concise lesson presentation (16 slides) and associated worksheet that looks at the motion topic of Momentum and guides students through how to answer these questions. The lesson begins by giving the students the units for momentum and challenging them to use this to work out the other factors involved in the equation. Moving forwards, a number of progress checks are used to see whether the students can apply their new found knowledge. All progress checks have displayed mark schemes.
This lesson has been designed for GCSE students and ties in nicely with my other resources, "Conservation of momentum" and "Changes in momentum"
This REVISION lesson contains an engaging and detailed powerpoint (40 slides) and is fully-resourced with associated worksheets. The lesson uses a range of activities which include exam questions (with displayed answers), differentiated tasks and quiz competitions to engage students whilst they assess their knowledge of the content that is found within topic P8 (Energy - forces doing work) of the Edexcel GCSE Combined Science specification.
The following specification points are covered in this lesson:
Identify the different ways that the energy of a system can be changed
Describe how to measure the work done by a force and understand that energy transferred (joule, J) is equal to work done (joule, J)
Recall and use the equation to calculate work done
Describe and calculate the changes in energy involved when a system is changed by work done by forces
Recall and use the equation to calculate the change in gravitational potential energy
Recall and use the equation to calculate the amounts of energy associated with a moving object
Explain, using examples, how in all system changes energy is dissipated so that it is stored in less useful ways
Explain that mechanical processes become wasteful when they cause a rise in temperature so dissipating energy in heating the surroundings
Recall and use the equation to calculate efficiency
This lesson is suitable for use throughout the duration of the GCSE course, as an end of topic revision lesson or as a lesson in the lead up to mocks or the actual GCSE exams
This is a fully-resourced revision lesson which contains a wide range of activities to allow students to assess their understanding of the content in topic 2.3 (Work and energy) of the WJEC GCSE Physics specification. The engaging and detailed PowerPoint and accompanying differentiated resources use exam-style questions, tasks, discussion points and quick quiz competitions to check on the following specification points:
The equation W= Fd
The understanding that work is a measure of energy transfer
The fact that an object can possess energy due to its motion, position and deformation
Application of the equations for kinetic energy and changes in gravitational potential energy
Application of the conservation of energy
Understand the relationship between force and extension for a spring
Application of the equation to calculate spring constant
Using the force-extension graph to calculate the work done in stretching
Improving the energy efficiency of vehicles
This detailed and engaging lesson has been written to challenge the students on their recall and application of the 21 equations which they have to know for the Pearson Edexcel IGCSE Physics exams. The lesson is designed to not only check that they know these equations but also on their ability to rearrange formulae when required and to convert between units. The main task of the lesson consists of 12 exam-style questions which challenge 14 of these recall equations and then an engaging quiz competition and class discussions are used to identify the other 7. Students are guided throughout the lesson in the use of the mathematical skills and are shown examples to aid their progress.
This lesson has been designed to tie in with the other 8 uploaded revision lessons which cover the content of the 8 topics on the specification.
This is a fully-resourced REVISION lesson which uses a range of exam questions, understanding checks, quick tasks and quiz competitions to enable students to assess their understanding of the content within topic 3 (Electricity) of the OCR GCSE Physics A 9-1 specification.
The specification points that are covered in this revision lesson include:
Describe the production of static electricity, and sparking, by rubbing surfaces, and evidence that charged objects exert forces of attraction or repulsion on one another when not in contact
Explain how transfer of electrons between objects can explain the phenomena of static electricity
Recall that current has the same value at any point in a single closed loop
Recall and apply: potential difference (V) = current (A) x resistance (Ω)
Recall and apply: power (W) = potential difference (V) x current (A) = (current (A))2 x resistance (Ω)
Describe the differences between series and parallel circuits
Represent d.c. circuits with the conventions of positive and negative terminals, and the symbols that represent common circuit elements
Recall that current (I) depends on both resistance ® and potential difference (V) and the units in which these are measured
Recall and apply the relationship between I, R and V, and that for some resistors the value of R remains constant but that in others it can change as the current changes
Explain that for some resistors the value of R remains constant but that in others it can change as the current changes
Use graphs and relate the curves produced to the function and properties of circuit elements
Calculate the currents, potential differences and resistances in d.c. series and parallel circuits
Apply the equations relating potential difference, current, quantity of charge, resistance, power, energy, and time, and solve problems for circuits which include resistors in series, using the concept of equivalent resistance
Students will be thoroughly engaged throughout the lesson due to the range of activities which include quiz competitions such as “GRAFT over these GRAPHS” where they compete to be the 1st to recognise a particular component from its resistance graph. The main two question tasks are differentiated so that students who need extra assistance can still access the work and challenge their knowledge. This lesson is suitable to be used as a revision resource at the end of the topic or in the lead up to mocks or the actual GCSE exams
This is a fully-resourced revision lesson that uses a combination of exam questions, understanding checks, quick tasks and quiz competitions to enable students to assess their understanding of the content found within Topic 5 (Atomic Physics) of the CIE IGCSE Physics specification
The sub-topics and specification points (from both the core and supplement sections), that are tested within this revision lesson include:
Atomic model
Nucleus
Detection of radioactivity
Characteristics of the three kinds of emission
Radioactive decay
Half-life
Students will be engaged through the numerous quiz rounds whilst crucially being able to recognise those areas which require their further attention during general revision or during the lead up to the actual exams
This is a fully-resourced lesson which uses exam-style questions, engaging quiz competitions, quick tasks and discussion points to challenge students on their understanding of the content of topics P1 & P8 - P15, that will assessed on PAPER 6. It has been specifically designed for students on the Edexcel GCSE Combined Science course who will be taking the FOUNDATION TIER examinations but is also suitable for students taking the higher tier who need to ensure that the fundamentals are known and understood.
The lesson has been written to cover as many specification points as possible but the following sub-topics have been given particular attention:
The 13 recall and apply equations tested in PAPER 6
Electrical components and symbols
Setting up an ammeter and voltmeter in a circuit
Current and potential difference in a series circuit
The change in resistance in a LDR, diode, thermistor and filament bulb
Mains domestic supply in the UK
Plugs and fuses as safety devices
Contact and non-contact forces
Attraction and repulsion in magnets
Magnetic fields
Changes of state as physical changes
The extension of a spring
In order to maintain challenge whilst ensuring that all abilities can access the questions, the majority of the tasks have been differentiated and students can ask for extra support when they are unable to begin a question. A revision quiz, consisting of 10 rounds, runs over the course of the lesson and a score sheet is included with the resources to maintain motivation and engagement.
Due to the extensiveness of this revision lesson, it is estimated that it will take in excess of 3 teaching hours to complete the tasks and therefore this can be used at different points throughout the course as well as acting as a final revision before the PAPER 6 exam.
This detailed and engaging lesson has been written to challenge the students on their recall and application of the 30 equations which they have to know for the CIE IGCSE Physics exams. The lesson is designed to not only check that they know these equations but also on their ability to rearrange formulae when required and to convert between units. The main task of the lesson consists of 15 exam-style questions which challenge 17 of these recall equations and then an engaging quiz competition and class discussions are used to identify the other 13. Students are guided throughout the lesson in the use of the mathematical skills and are shown examples to aid their progress.
The detail of this lesson means that it can be used at numerous times throughout the duration of the IGCSE course to check on their progress with the equations.
This lesson has been designed to tie in with the other 5 uploaded revision lessons which cover the content of the 5 topics on the specification
An engaging lesson presentation (63 slides) and associated worksheets that uses a combination of exam questions, quick tasks and quiz competitions to help the students to assess their understanding of the topics found within module P2 (Forces) of the OCR Gateway A GCSE Combined Science specification.
The topics that are tested within the lesson include:
Distance, time and speed
Acceleration
Equations of motion
Kinetic energy
Forces and interactions
Momentum
Work and Power
Stretching springs
Students will be engaged through the numerous activities including quiz rounds like “Fill the VOID” and “Weight a minute” whilst crucially being able to recognise those areas which need further attention