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 informative and student-led lesson presentation (32 slides), accompanied by a reaction diagram and task worksheet, which together look at the key details of nuclear fission reactions. The lesson begins by introducing the students to the name of this reaction and to that of a neutron before they are challenged to recall the properties of this sub-atomic particle as this knowledge plays an important role in their understanding. Moving forwards, students will learn that two isotopes of uranium are involved and will discover and work out how one isotope is changed into the other. Diagrams accompany the theory throughout so that students can visualise how the reaction progresses. They are shown how to work out the two daughter nuclei that are produced in the reaction and how an equation can be written to represent nuclear fission. Progress checks have been written into the lesson at regular intervals so that students can constantly assess their understanding and any misconceptions can be immediately addressed.
This lesson has been designed for GCSE students (14 - 16 year olds in the UK)
This lesson has been written for GCSE students and aims to ensure that they can explain in detail why light changes direction due to refraction. The key to the explanation is the use of the correct terms in context so the start of the lesson challenges the students to come up with the key words of light, bend, normal, density and speed when given a range of clues. The next part of the lesson works with the students to bring these key terms together to form a definition of refraction. Moving forwards, the relationship between density of a medium and the speed of light through that medium is discussed so that there is a clear understanding of why light bends one way or the other. The next task uses the definition to apply to a practical situation to draw a diagram of light moving from air to glass. The final part of the lesson involves a range of practicals so this topic can be explored further.
A concise, fast-paced lesson that looks at the orbits of both natural and artifical satellites. The lesson has been written to build on the student’s knowledge of space from KS3 and add key details such as the gravitational pull between the different celestial objects. Students will learn how the speed of the orbiting object and the gravitational pull ensure that the object remains in orbit and consider what would happen should the speed change. Students are briefly introduced to a number of orbits of artificial satellites as well as the uses.
This lesson has been designed for GCSE students
This lesson has been designed to explore the range of energy sources which are used on Earth and specifically looks at why an increase in the use of renewable sources is critical for the future. The student’s scientific understanding is challenged at each step of the lesson but there is also a mathematical element running throughout. The lesson begins by challenging the students to predict which energy sources contributed the greatest % when presented with a pie chart. Students cover this topic in other subjects like Geography, so the lesson aims to build on this and consolidate the essential understanding. A range of renewable sources are discussed and key terms such as carbon-neutral taken on further.
This lesson has been designed for GCSE students but parts could be used with younger students who are looking at
This bundle of 6 lessons covers a lot of of the content in Topic P1 (Energy) of the AQA Trilogy GCSE Combined Science specification. The topics covered within these lessons include:
Energy stores and systems
Kinetic and potential energy stores
Specific heat capacity
Conservation of energy
Reducing unwanted energy transfers
Efficiency
Energy resources
All of these lesson presentations and accompanying resources are detailed and engaging and contain regular progress checks to allow the students to constantly assess their understanding.
This bundle of 14 lessons covers the majority of the content in Topic P5 (Forces) of the AQA Trilogy GCSE Combined Science specification. The topics covered within these lessons include:
Contact and non-contact forces
Weight, mass and gravity
Resultant forces
Work done
Investigating springs
Speed and velocity
Acceleration
Distance and velocity-time graphs
Terminal velocity
Stopping distances
Reaction times
Momentum
All of these lesson presentations and accompanying resources are detailed and engaging and contain regular progress checks to allow the students to constantly assess their understanding.
This bundle of 13 lessons covers all of the content in Topic C3 (Atoms, elements and compounds) of the core and supplement sections of the Cambridge iGCSE Science Double Award specification. The topics covered within these lessons include:
Identifying physical and chemical changes
Differences between elements, compounds and mixtures
Differences between metals and non-metals
The terms solvent, solute, solution and concentration
The structure of the atom
Electronic configurations
Isotopes
The formation of ions by gain or loss of electrons
Simple covalent structures
Dot and cross diagrams for covalent structures
Allotropes of carbon
Giant covalent structures
All of these lesson presentations and accompanying resources are detailed and engaging and contain regular progress checks to allow the students to constantly assess their understanding
This bundle of 9 lessons covers the majority of the content in Topic P1 (Motion) of the core and supplement sections of the Cambridge iGCSE Science Double Award specification. The topics and specification points covered within these lessons include:
Define speed and calculate average speed
Distinguish between speed and velocity
Define and calculate acceleration
Plot distance-time graphs and speed-time graphs
Calculate acceleration and distance travelled from a speed-time graph
Distinguish between mass and weight
Recall and use the equation W = mg
Describe how forces can affect a body
Plot and interpret extension-load graphs
Understand Hooke’s Law
Friction and air resistance
Resultant forces
Calculating moments
The principle of moments
All of these lesson presentations and accompanying resources are detailed and engaging and contain regular progress checks to allow the students to constantly assess their understanding
This bundle of 9 lessons covers all of the content in the sub-topic P3.2 (Simple circuits) of the OCR Gateway A GCSE Combined Science specification. The topics covered within these lessons include:
The differences between series and parallel circuits
Represent direct current circuits with the common electrical symbols
Current and the dependence on resistance and potential difference
Recall and apply the relationship between I, V and R
The graphs for thermistors and LDRs
Diodes
Net resistance
Current, potential difference and resistance calculations in series and parallel circuits
Power transfer in a circuit
Applying the equations to do with electrical circuits
All of these lesson presentations and accompanying resources are detailed and engaging and contain regular progress checks to allow the students to constantly assess their understanding.
This bundle of 9 lessons covers a lot of the content in Topic P8 (Global challenges) of the OCR Gateway A GCSE Physics specification. The topics and specification points covered within these lessons include:
Everyday motion
Reaction time and thinking distance
Braking distance and stopping distance
Energy sources
Using resources
The National Grid
Mains electricity
The Big Bang
Satellites and orbits
All of these lesson presentations and accompanying resources are detailed and engaging and contain regular progress checks to allow the students to constantly assess their understanding.
This is a fully-resourced lesson that looks at the role of transformers in the National Grid, explains why they increase or decrease potential difference and then uses the given equation to calculate potential difference or the number of turns on the primary or secondary coil. This lesson includes an informative lesson presentation (25 slides) and two question worksheets.
The lesson begins by introducing the devices that are transformers and showing the students that there are two types, step-up and step-down. Students will learn that step-up transformers increase the potential difference and step-down transformers decrease the potential difference. Moving forwards, a series of calculations are used to get the students to understand why these changes in potential difference occur. Students are guided through this section so that they are able to complete a summary passage about the roles of these devices. They will then be shown the equation connecting potential difference and number of turns which they do not need to recall but have to apply. Again, a worked example is used to visualise how workings should be set out before students are challenged to answer two sets of questions, the second of which involves the use of a second equation. Progress checks like these are found at regular intervals throughout the lesson so that students can assess their understanding.
This lesson has been written for GCSE students
This bundle of 12 lessons covers the majority of the content in Topic C3 (Physical chemistry) of the Edexcel iGCSE Chemistry specification. The sub-topics and specification points covered within these lessons include:
[a] Energetics
Know that chemical reactions can be endothermic or exothermic reactions
Calculate the heat energy change using the expression involving specific heat capacity
Draw energy level diagrams to represent endothermic and exothermic reactions
Use bond energies to calculate the enthalpy change
[b] Rates of reaction
Describe experiments to investigate the effect of changing surface area, concentration, temperature and the addition of a catalyst on the rate of reaction
Describe and explain the effects of changing surface area, concentration and temperature on a rate of reaction with reference to the collision theory
Know the definition of a catalyst and understand how it reduces the activation energy of a chemical reaction
Draw and explain reaction profile diagrams
[c] Reversible reactions and equilibria
Know that some reactions are reversible
Know the characteristics of a reaction at dynamic equilibrium
Know the effect of changing either the temperature of pressure on the position of the equilibrium
All of these lesson presentations and accompanying resources are detailed and engaging and contain regular progress checks to allow the students to constantly assess their understanding.
This is a fully-resourced revision lesson that could be used over a series of lessons to help students to revise and assess their knowledge of the content that is found in topics P1 (Energy), P2 (Electricity), P3 (Particle model of matter) and P4 (Atomic structure) of the AQA GCSE Combined Science specification and will be assessed on PAPER 5. 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:
Energy stores and systems
Changes in energy
Energy changes in systems
Standard circuit diagram symbols
Electrical charge and current
Current, resistance and potential difference
Series and parallel circuits
Power
Specific heat capacity
The structure of an atom
Mass number, atomic number and isotopes
The development of the model of the atom
Radioactive decay and nuclear radiation
Nuclear equations
Half-lives
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 fully-resourced revision lesson that could be used over a series of lessons to help students to revise and assess their knowledge of the content that is found in topics P5 (Forces), P6 (Waves) and P7 (Magnetism and electromagnetism) of the AQA GCSE Combined Science specification and will be assessed in Paper 6
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:
Scalar and vector quantities
Contact and non-contact forces
Gravity
Work done and energy transfer
Forces and elasticity
Speed
Velocity
Acceleration
Newton’s laws of motion
Momentum
Conservation of momentum
Transverse and longitudinal waves
Properties of waves
The EM waves
Fleming’s left-hand rule
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 bundle of 5 engaging and motivating lesson presentations and associated worksheets have been designed to encourage students to assess their knowledge of the Physics topics which will be tested in Paper 5 of the Edexcel GCSE Combined Science course . This will allow them to recognise those areas which need further attention during revision periods.
The lessons use a range of exam questions, understanding checks, quick tasks and quiz competitions to cover the content in P1 (Key concepts in Physics), P2 (Motion and forces), P3 (Conservation of energy), P4 (Waves), P5 (Light and the EM spectrum) and P6 (Radioactivity)
This is an engaging 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 1 (General Physics) of the CIE IGCSE Physics (0625) specification. The lesson covers the content in both the core and supplement sections of the specification and therefore can be used with students who will be taking the extended papers as well as the core papers.
The specification points that are covered in this revision lesson include:
CORE
Define speed and calculate average speed from total distance divided by total time
Plot and interpret a speed-time graph or a distance-time graph
Recognise from the shape of a speed-time graph when a body is at rest, moving at a constant speed or changing speed
Calculate the area under a speed-time graph to work out the distance travelled for motion with constant acceleration
Show familiarity with the idea of the mass of a body
State that weight is a gravitational force
Distinguish between mass and weight
Recall and use the equation W = mg
Recall and use the equation density = mass divided by volume
Understand friction as the force between two surfaces which impedes motion and results in heating
Calculate moment using the product force × perpendicular distance from the pivot
Identify changes in kinetic, gravitational potential, chemical, elastic (strain), nuclear and internal energy that have occurred as a result of an event or process
Recognise that energy is transferred during events and processes, including examples of transfer by forces (mechanical working), by electrical currents (electrical working), by heating and by waves
Apply the principle of conservation of energy to simple examples
Describe how electricity or other useful forms of energy may be obtained from a range of sources
Show a qualitative understanding of efficiency
Demonstrate understanding that work done = energy transferred
Relate (without calculation) power to work done and time taken, using appropriate examples
SUPPLEMENT
Distinguish between speed and velocity
Define and calculate acceleration
Understand deceleration as a negative acceleration
Describe, and use the concept of, weight as the effect of a gravitational field on a mass
State Hooke’s Law and recall and use the expression F = k x, where k is the spring constant
Apply the principle of moments to different situations
Understand that vectors have a magnitude and direction
The students will thoroughly enjoy the range of activities, which include quiz competitions such as “Are you the KING of the KINGDOMS” where they have to name the kingdoms involved based on a feature whilst crucially being able to recognise the areas of this topic which 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 IGCSE exam
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 4 (Magnetism and magnetic fields) of the OCR GCSE Physics A 9-1 specification.
The specification points that are covered in this revision lesson include:
Describe the attraction and repulsion between unlike and like poles for permanent magnets
Describe the difference between permanent and induced magnets
Explain how the behaviour of a magnetic (dipping) compass is related to evidence that the core of the Earth must be magnetic
Apply: force on a conductor (at right angles to a magnetic field) carrying a current = magnetic flux density x current x length
Apply: potential difference across primary coil (V)/potential difference across secondary coil (V) = number of turns in primary coil / number of turns in secondary coil
Describe how a magnet and a current-carrying conductor exert a force on one another
Show that Fleming’s left-hand rule represents the relative orientations of the force, the current and the magnetic field
Explain how the force exerted from a magnet and a current-carrying conductor is used to cause rotation in electric motors
Explain the action of a loudspeaker and headphones
Of all of the Physics topics, this one tends to be one of the least well understood. Therefore, time has been taken to not only make this an engaging revision lesson but to go into detail on some of the topics which are commonly assessed in the exams. LInks have also been made to topic 3 (electricity) as these can often be combined in questions on Paper 1.
This lesson can be used as revision resource at the end of the topic or in the lead up to mocks or the actual GCSE exams
This bundle of 18 lessons uses a range of exam questions, tasks, activities and quiz competitions to engage students whilst they assess their knowledge of the topics in modules B1-6, C1-6 and P1-6 of the OCR Gateway A GCSE Combined Science specification. All of the lessons are fully resourced to take away that worry about how to get students to effectively revise in the lead up to assessments.
An engaging lesson presentation (30 slides) that looks at electric current and ensures that students know the key details about this factor in preparation for their GCSE studies. The lesson begins by forming a definition for this electrical term and then as the lesson progresses, this definition is broken so that each element is understood. Students will be introduced to the difference between electron flow and conventional current. Time is taken to ensure that students understand that an ammeter must be set up in series. The remainder of the lesson will focus on the mathematical calculations which include current and important skills such as converting between units is covered.]
As stated above, this lesson has been designed primarily for those students taking their GCSE exams (14 - 16 year olds in the UK) but is suitable for younger students too.