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I am currently a Lecturer in Engineering Design at a University, prior to this I worked in secondary schools as a specialist physics teacher. My experience from working at these levels of education has emphasised the need to ensure fundamentals in science are mastered by students for continued success in education & beyond. My resources aim to clearly communicate complex scientific principles through clear visuals and explanations - with well structured tasks to practice what has been learnt.

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I am currently a Lecturer in Engineering Design at a University, prior to this I worked in secondary schools as a specialist physics teacher. My experience from working at these levels of education has emphasised the need to ensure fundamentals in science are mastered by students for continued success in education & beyond. My resources aim to clearly communicate complex scientific principles through clear visuals and explanations - with well structured tasks to practice what has been learnt.
GCSE AQA Physics - P14.2 - Refraction of Light
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GCSE AQA Physics - P14.2 - Refraction of Light

(1)
New GCSE AQA Physics lesson on 'Refraction of Light ' written in line with new AQA Physics specification. Lesson Objectives: 1) Detail steps to investigate how light travels through materials. 2) Investigate how light travels through materials. 3) Describe what happens to waves when they travel through materials of different densities. 4)Draw ray diagrams to show refraction of light through a glass blocks. 5) Use knowledge of refraction to explain phenomena of light travelling between boundaries.
GCSE Physics AQA - P7.8 - Nuclear Fusion
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GCSE Physics AQA - P7.8 - Nuclear Fusion

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New GCSE AQA Physics lesson on 'Nuclear Fusion ’ written in line with new AQA Physics specification. Lesson Objectives: State and explain what is meant by Nuclear Fusion. Explain the process of nuclear fusion. Identify the reactants and products in a nuclear fusion reaction. Write nuclear fusion reactions. Apply knowledge of nuclear fusion and fission to compare and contrast both methods for generating electricity.
GCSE AQA Physics - P7.7 - Nuclear Fission
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GCSE AQA Physics - P7.7 - Nuclear Fission

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New GCSE AQA Physics lesson on 'Nuclear Fission ’ written in line with new AQA Physics specification. Learning Objectives for Fission lesson: State and explain what is meant by Nuclear Fission. State the isotopes commonly used in Nuclear Power stations. Explain the process of a nuclear fission chain reaction. Identify and explain in detail the key features of a Nuclear Power station.
GCSE AQA Physics - P7.5 - Radioactivity and Half-life
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GCSE AQA Physics - P7.5 - Radioactivity and Half-life

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New GCSE AQA Physics lesson on 'Radioactivity and Half-life ' written in line with new AQA Physics specification. Starter poses two interesting questions in relation to a continuous doubling effect linking to the mathematics of the lesson and inverse of half-life. A quick recap on isotopes and different types of radiation is provided to keep key concepts in pupils minds. The coin flip (heads or tails) activity is detailed to get students to carry out this activity and collect data to plot the results from to show a 'half-life curve'. Following the explanation of random events the pupils are given the task of recording nuclear decays in relation to video shown on youtube. This then allows a direct link to be made to a half-life graph to nuclear decay. This then leads to the review of half-life graph review questions. Learning Objectives for Half-life lesson: 1) Review what is meant by isotope and how this is radioactive. 2) Understand the ‘random’ nature of radioactive decay. 3) State and explain what is meant by ‘half-life’. 4) Determine the half-life of different isotopes using given information. The lesson is summarised with review questions on the content covered.
GCSE AQA Physics - P7.2 - Atomic model, Plum pudding and Bohr's model of the atom
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GCSE AQA Physics - P7.2 - Atomic model, Plum pudding and Bohr's model of the atom

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New GCSE AQA Physics lesson on 'Atomic model, Plum pudding and Bohr's model of the atom ' written in line with new AQA Physics specification. Lesson Objectives: 1) Explain how and why ideas in Science change over time. 2) Identify and explain the conclusions from the alpha scattering experiment. 3) Explain why the new evidence from the scattering experiment led to a change in the atomic model. 4) Compare and contrast the plum pudding model of the atom and the nuclear model of the atom.
GCSE 9-1 AQA Physics 4.2  - Electricity Unit - All resources/lessons
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GCSE 9-1 AQA Physics 4.2 - Electricity Unit - All resources/lessons

10 Resources
Resources for new GCSE AQA Physics 2016 specification. Bundled lessons cover the Electricity resources content of the GCSE. This includes: - Electric Charges and fields - Current and charge - Potential Different and Resistance - Component Characteristics - Series Circuits - Parallel Circuits - AC/DC - National Grid - Cables and plugs - Electrical Power and potential difference - Electrical currents and energy transfer (charge) For clear detail on aspects of each lesson please review each lesson bundled into the packaged to ensure it meets your requirements. I hope this gives you and your pupils a great start to the new Physics GCSE. I do update each lesson in the bundle with new and varied content as I often revisit lessons to further improve them.
GCSE AQA Physics - P5.4 - Electric Currents (charge) and energy transfer
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GCSE AQA Physics - P5.4 - Electric Currents (charge) and energy transfer

(4)
New GCSE AQA Physics lesson on ' Electric Currents (charge) and energy transfer' written in line with new AQA Physics specification. The starter is in the style of the 'countdown conundrum' which is for some of the lessons key words. Questions review key electric current knowledge from earlier current electricity which is relevant to the lesson and also serves as a recap/revision opportunity. Key electrical current concepts are summarised. Current and charge are related together in an explanation and through the relevant equation with questions for pupils to complete using this. Energy in circuits is related to voltage supplied by a supply to electrical charge and how this will then deliver energy to components, this also offers the chance to review some circuit rules. The E = V x Q equation is explained leading to questions using the equation plus ohm's law and circuit rules. A collection of review questions and some exam style questions conclude the lesson. Lesson Objectives: 1) Review key content on electrical current. 2) Identify what a unit of charge is. 3) Perform calculations for energy transfer in circuits using p.d and charge. 4) Relate energy transfer by charge to different electrical components.
GCSE AQA Physics - P5.3 - Electrical Power and potential difference
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GCSE AQA Physics - P5.3 - Electrical Power and potential difference

(4)
New GCSE AQA Physics lesson on 'Electrical Power and potential difference' written in line with new AQA Physics specification. Starter looks at the power of different devices of very different orders of magnitude. Following this a quick activity looks at powers and conversion using Watts as the unit to convert - reviews nW, µW, mW, W, kW, MW, GW. The power and energy transferred equation is reviewed briefly through review questions. The equation for power using voltage and current is introduced and how to re-arrange it. Fuse ratings are discussed with appropriate choice of fuse rating highlighted. Energy transfer by heating in conductors/resistors is reviewed and then related to the Power equation using resistance and current. How to re-arrange this is shown in detail. The lesson concludes with a series of review questions and exam style questions. Lesson Objectives: 1) State a definition for power. 2) Calculate the power of an appliance by the energy transferred. 3) Relate potential difference and current to electrical power. 4) Identify appropriate fuse ratings for appliances. 5) Identify the uses of resistance in conductors and calculate power using resistance.
GCSE AQA Physics - P5.2 - Cables and Plugs
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GCSE AQA Physics - P5.2 - Cables and Plugs

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New GCSE AQA Physics lesson on 'Cable and Plugs' written in line with new AQA Physics specification. For starter different plugs from the around the world can be put in bags to be passed around or a dismantled plug. Pupils are to guess what is in the bag. Following this pupils are to discuss why there are different types of plugs around the world which lead to discussion of the AC/DC war between Edison and Tesla (this part of the lesson can be easily removed if not suitable for the class). The anatomy of a plug is shown and explained in detail for all 3 wires, colours and function. Safe wiring of a plug is reviewed which leads to a class activity to wire plugs safely. Plug design is reviewed through questioning required properties of different plug parts and appropriate materials to each property required. How electrical devices can become live or how people can get electric shocks is reviewed and illustrated. The lesson concludes with a collection of review questions. Lesson Objectives: 1) Review AC/DC current and how it caused us to have different plugs. 2) Recall the different colour wires in a plug. 3) Relate different wires to their function. 4) Identify and explain the safety features of a plug.
GCSE AQA Physics - P5.1 - Alternating Current & Direct Current + National Grid
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GCSE AQA Physics - P5.1 - Alternating Current & Direct Current + National Grid

(5)
New GCSE AQA Physics lesson on 'Alternating Current & Direct Current' written in line with new AQA Physics specification. Simple starter using images for pupils to work out what the lesson is about today. Pupils must then group a bunch of electrical devices, either DC or AC supply or both. The direction of flow of current is reviewed (although not entirely necessary but highlights some key physics). This leads to descriptions of DC and AC current flow. A class demo modelling a circuit using pupils as electric charge allows for a visual demonstration of AC and DC current. This can also allow for a teaching opportunity for frequency of AC current. Key wave properties are reviewed to help with analysis of AC waveform representations. Mains electricity at 230V and 50Hz is highlighted, being important to the specification. Peak potential difference is also discussed. The lesson concludes with a collection of review questions and also a question to review AC and DC current looking at slo-mo capture of lights. Lesson Objectives: 1) Identify AC and DC devices. 2) State and explain what is meant by direct current, DC. 3) State and explain what is meant by alternating current and relate to mains supply. 4) Determine period and frequency of an AC supply using diagrams. Also includes lesson on National Grid.
GCSE 9-1 AQA Physics 4.1 - Energy and Energy Resources Unit (All lessons)
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GCSE 9-1 AQA Physics 4.1 - Energy and Energy Resources Unit (All lessons)

13 Resources
Resources for new GCSE AQA Physics 2016 specification. Bundled lessons cover the Energy and energy resources content of the GCSE. This includes: - Changes in energy stores. - Conservation of energy. - Energy and work. - Gravitational potential, kinetic and elastic potential energy. - Energy and efficiency. - Electrical appliances, Energy and Power. - Energy transfer by conduction. - Infrared radiation. - Infrared radiation, surfaces and the Earth. - Heating and insulation. - Energy demands, Fossil fuels, Nuclear Power and Biofuels. - Renewable Energy Resources. For clear detail on aspects of each lesson please review each lesson bundled into the packaged to ensure it meets your requirements. I hope this gives you and your pupils a great start to the new Physics GCSE. I do update each lesson in the bundle with new and varied content as I often revisit lessons to further improve them.
GCSE AQA Physics - P3.2-3 - Renewable Energy Resources
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GCSE AQA Physics - P3.2-3 - Renewable Energy Resources

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New GCSE AQA Physics lesson on 'Renewable Energy Resources (Solar, Wind, Hydroelectricity, Wave, tidal, geothermal)' written in line with new AQA Physics specification. Lesson starts with a series of riddles relating to different types of energy resources. The need for renewable/alternative energy resources is highlight through questioning regarding previously studied fossil fuels, nuclear power and biofuels. The different types of renewable energy resources are reviewed for note taking and discussion. Following a summary of key renewable energy resource advantages and disadvantages the pupils are given a writing challenge to compare and contrast different types of energy resources. The lesson can be done as regular in class lesson or alternatively can be given as webquest for pupils to complete and then slides used for key summary and consolidation. Lesson Objectives: 1) Explain the need for renewable energy resources. 2) Identify a number of different renewable energy resources. 3) Detail how different energy resources meet our energy demands. 4) Discuss and compare different methods of renewable energy resources, with non renewable resources.
GCSE AQA Physics - P3.1 - Energy Demands & Resources (Fossil fuels, Nuclear Power & Biofuels)
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GCSE AQA Physics - P3.1 - Energy Demands & Resources (Fossil fuels, Nuclear Power & Biofuels)

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New GCSE AQA Physics lesson on 'Energy Demands & Resources (Fossil fuels, Nuclear Power & Biofuels)' written in line with new AQA Physics specification. Starter uses a series of riddles for pupils to identify different energy resources to do with the lesson. The importance of fire is discussed for humans (this could also be linked with chemistry content on combustion, showing science links). Energy demands of the world are discussed and summarised to highlight what we need energy for and where it comes from in what proportions. An Activity sheet included to identify key part of a fossil fuelled power station (although not necessarily required by AQA anymore). Fossil fuels are covered in details and discussed the future issues with its usage, leading to Nuclear. Following description of Nuclear (with advantages and disadvantages) with an examiner tip in the note box - fossil fuels and nuclear power are contrasted. Bio-fuels are reviewed as an alternative resources of energy and discussed a renewable and carbon neutral source. Lesson concludes with a set of review questions on the topic which could also be used as a homework task. Extra riddle question at the end. Lesson Objectives: 1) Identify different ways of meeting our energy demands. 2) Explain how each major component of a fossil fuelled power station works.. 3) Explain in further detail different methods meeting energy demands. 4) Discuss and compare the use fossil fuels, nuclear power and bio-fuels.
GCSE AQA Physics - P2.5 - Heating and insulation (+required practical 2)
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GCSE AQA Physics - P2.5 - Heating and insulation (+required practical 2)

(2)
2 New GCSE AQA Physics lesson on 'Heating and insulation' written in line with new AQA Physics specification. Starter comprises of a series of questions reviewing the content from previous lessons on energy transfer by heating. The definition of insulators are quickly reviewed and this then leads to details of the required practical on insulation. Questioning is provided relating to AT 1 and AT5 before the experiment guidance is given. 3 different experiment approaches are provided: different materials, different number of layers and different starting temperature are given as varied choice of investigation. These link to the factors which affect rate of heat transfer across a material. Data analysis and conclusion guidance is provided. The lesson continue by relating insulation to the home, detailing key methods of insulating the home. A task sheet which can be used for homework is provided which ask pupils to identify how different things either keep or lose heat energy. Lesson Objectives: 1) Review topic of energy transfer by heating. 2) Identify suitable apparatus to complete a scientific investigation. 3) Detail appropriate and safe use of apparatus to complete an investigation. 4) Analyse and interpret collected data to draw conclusions.
GCSE AQA Physics - P2.4 -  Specific Heat Capacity (+required practical 1)
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GCSE AQA Physics - P2.4 - Specific Heat Capacity (+required practical 1)

(3)
2 New GCSE AQA Physics lesson on 'Specific Heat Capacity' written in line with new AQA Physics specification. A choice of two starters, one ask pupils to put a series of fluids in order of which would boil first from the same heat source another poses questions on different volumes of water and boiling and placing hot objects above boiling temperature in water. A focus on words to inform what specific heat capacity means to help understand the equation and units is given to explain what it meant by specific heat capacity. Questions included for practice of using equation for exam to secure marks in exam. A link to video is provided with prepared questions for pupils to answer. Specific heat capacity is further detailed with illustrations and comparisons of different substances. The AQA required practical 1 is provided as part of the lesson (all be it a tricky practical due to likely limited resources for the class), different methodologies are provided (many link to different methods are also in the note box). A set of review questions and mini-plenary questions conclude the lesson along with an example exam question. Lesson Objectives: 1) State the relationship between energy, mass and temperature. 2) Explain how different materials affect the amount of energy required in temperature change. 3) Calculate the energy required to change an objects temperature. 4) Re-arrange the required equation appropriately.
GCSE AQA Physics - P2.2-3 - Infrared Radiation & Black body radiation (2 lessons)
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GCSE AQA Physics - P2.2-3 - Infrared Radiation & Black body radiation (2 lessons)

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2 New GCSE AQA Physics lesson on 'Infrared Radiation & Black body radiation' written in line with new AQA Physics specification. Bundled together is 2 complete lessons on infra-red radiation with different learning objectives and activities. LESSON 1 - Infrared radiation and black body radiation Lesson starts with optical illusion which makes white dots appear black, this is to start thoughts on what black is and engage students with something a bit different. The difference between heat and temperature is discussed to lead to what infrared radiation is. A question posed about whether ice gives off infrared radiation consolidates a key point. Thermal imaging is explored with how it works and a guess what it is exercise of infrared images. Different shades of black are shown to discuss what black does in terms of visible light, leading to an explanation of perfect black body radiation. Black body radiation and infrared emission at varied temperatures is discussed (including a link to a useful simulation). The effect of absorption and emission of infrared on bodies is detailed concluding with summary question on the topic. Lesson Objectives: State the difference between heat and infra-red radiation. Explain what is meant by ‘black-body radiation’. Identify the effects of infra-red radiation can have on a body. Relate the effects of absorption and emission of infra-red radiation has on a body. LESSON 2 - Infrared radiation, surfaces and bodies The use of black balls on the LA reservoir is shown in gif images to pupils to discuss why they did this. Absorption and emission of infrared is reviewed briefly. This leads to factors which effect the Earth's temperature and how greenhouse gases impact this. An experiment to investigate different surfaces and infrared emission, absorption and reflection is outlined. The key points from this investigation are summarised for note taking. A true or false activity reviews previous content followed by review questions. Infrared emission, absorption and reflection is applied through questioning to the Earth & the moon, satellites in space and the starter on the LA reservoir. Lesson Objectives: Identify and explain key factors that effect the temperature of the Earth. Investigate and identify the properties of different materials and their effect on infra-red radiation. Apply your knowledge of infrared radiation and surfaces to real life problems. Explain why the temperature on the Moon is different to the Earth.
GCSE AQA Physics - P2.1 - Energy Transfer by Conduction
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GCSE AQA Physics - P2.1 - Energy Transfer by Conduction

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New GCSE AQA Physics lesson on 'Energy Transfer by Conduction' written in line with new AQA Physics specification. Choice of two different starters to prompt discussion of heat transfer by conduction. Either looking at cooking using rods through meat or placing ice on different materials to melt. A series of scenarios are shown involving heat conduction which allow pupils to discuss why things feel hot or cold. A class experiment is provided which uses different material rods to identify which one conducts heat quickest. The results of this are then discussed with questions to start promoting good scientific investigation skills. Thermal conductivity is explored by looking at the meaning of each words separately and then together. Pupils are then to put a number of different material in order of thermal conductivity, which is then discussed for common materials which are highly conductive or poorly conductive. This leads onto thermal insulation and some final review questions. Lesson Objectives: 1) Provide definitions for conductors and insulators. 2) Identify common conductors and insulators and explain in relation to thermal conductivity. 3) Relate thermal conductivity to rate of energy transfer. 4) Explain ways in which rate of heat transfer can be reduced.
GCSE AQA Physics - P1.8-9 -  Electrical Appliances, Energy and Power
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GCSE AQA Physics - P1.8-9 - Electrical Appliances, Energy and Power

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New GCSE AQA Physics lesson on 'Energy and Power of Electrical Devices' written in line with new AQA Physics specification. Starter gets pupils discussing common electrical devices and the useful and wasteful energy transfers they make. To start looking at Power pupils discuss what power means for familiar figures. Main includes a clear description of what Power is in Physics and an explanation of the units. This lead onto clear example of using the equation and to a classroom activity looking at power rating of electrical devices and making energy transferred calculation from them. Included is a review of the power efficiency calculation with examples. A task sheet allows pupils practice use of the lessons knowledge. A final line of questioning draws on knowledge of previous topics to review and consolidate content. Lesson Objectives: 1) State and explain what power is and the unit for power. 2) Relate power ratings to different electrical devices. 3) Calculate power rating of electrical devices. 4) Calculate the energy used and wasted by devices and therefore their efficiency. Worksheet includes 'Energy & Power' task to be printed on one A4 sheet to save on printing. Set-up to print '2 pages per sheet' to produce one worksheet.
GCSE AQA Physics- P1.6-7 - Energy and Efficiency
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GCSE AQA Physics- P1.6-7 - Energy and Efficiency

(3)
New GCSE AQA Physics lesson on 'Energy and Efficiency' written in line with new AQA Physics specification. The lesson can start with either a task to correct statements provided about energy or to discuss what happens to wasted energy. Different types of bulbs are shown through images which pupils are likely to have comes across, they are then prompted to discuss how they are different and why we use different ones, this lead to talking about efficiency. Useful and wasted energy are explained and related to context and energy flow diagrams previously used. Also a key explanation of what happens to wasted energy is given. Pupils must then identify whether particular energy changes are useful or wasteful for certain devices. Energy efficiency is detailed to students and then presented as 'units of energy' in a form similar to sankey diagrams (which are no longer required by AQA but can help students rationalise percentages). A class activity is outlined which requires groups of pupils to shown how energy is split by different devices and can help students visually see how portions of energy are distributed. Following this the energy equation is given which is then used by two sets of review questions. The lesson concludes with content for higher tier students which looks at ways energy waste can be reduced. Lesson Objectives: 1) Explain what is meant by useful and wasted energy. 2) Explain what eventually happens to wasted energy. 3) Calculate the energy efficiency of different appliances. 4) Detail how energy transfers can be made more efficient. (Higher tier only)