Complete lesson on Electromagnetic Spectrum/Uses/Risks with key content from AQA Physics. This lesson covers the electromagnetic spectrum, waves uses, wave risk, order and size of waves and mobile risks. Starter uses a fun riddle challenge which pupils enjoyed doing in Generating Electricity and so asked for another. The lesson explores the spectrum by order of identities of waves, wavelength, frequency and energy. A quick task on multipliers, standard form and prefixes helps pupils understand the notation commonly seen on the EM spectrum and also as questioned in exams. A task gets pupils to explore different EM waves using information sheet for them to use to summarise key information. Then mobile phone risk is then discussed along with correlation and causation. Plenary quick quiz and some exam style questions which can be used as mini plenaries to link to exams. More lessons in same format for P1. https://www.tes.com/member/Nteach

New GCSE AQA Physics lesson on Impact Forces written in line with new AQA Physics specification. All questions provided with answers within power point. Starter ‘Car Wars’ looks at the test collision between an old and a new vehicle to stimulate discussion of collisions and safety - posing the question which car is safer and why? This is discussed and reviewed focusing on crumple zones and comparing how each car crumpled and why this is good (or for the old car, bad). Crumple zones, air bags and seat belts are detailed and discussed for common function - to increase impact time to decrease impact force. This concept is highlighted by exploring the physics mathematically. Review questions with answers are provided for the topic. Lesson Objectives: - Identify key safety features of vehicles to reduce impact force. - Explain how ‘impact time’ affects impact force. - Relate momentum to impact forces in collisions and explain how impact forces can be reduced in car collisions. - Calculate impact forces resulting from collisions.

Complete lesson on heat transfer by design with key content from AQA Physics. Starter includes a simple teacher demo and competition if you wish to make it that way. Main includes simple challenge for pupils using simple equipment and key information and tasks on heat transfer applications. Plenary uses 6 mark exam question. Home structure included for pupils that would prefer to not draw their own for home insulation task. More lessons to follow in same format for P1. https://www.tes.com/member/Nteach

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.

Complete GCSE Physics lessons on I-V Characteristics using key content from AQA Physics P2. Starter provides a discussion of graph trends and what graphs tell us, this leads on to wider details of how to interpret graph results and key vocabulary. Sometime can be spent getting pupils to plan an experiment to investigate I-V characteristics of different electrical components but you can choose to move straight to the guided investigation. On collection of data for fixed resistors, diodes and filaments bulbs the class can plot their data on graphs. Key data trends are summarised with explanations of trends for each component. Exam style questions are provided in the relation the new specification. Lesson finished with questioning on LDR's and thermistors with an activity which can be in class or for homework. Lesson Objectives: 1) Identify relationships shown by graphs. (D) 2) Design & carry out an experiment to investigate the relationship between I & V for different electrical components. (C) 3) Explain how current and voltage vary for a filament bulb, diode and fixed resistor. (B) 4) Explain in detail what causes the current and voltage to change for key electrical components. (A) Note: This lesson is formatted is similar content to previously listed 'I_V charasteristics' but in the new Nteach style and also with new content relevant to the new specification for AQA GCSE Physics. The lesson will be updated as all lessons are as I create new , engaging and challenging content relevant to the subject.

New GCSE AQA Physics lesson on ' Resolution of Forces' written in line with new AQA Physics specification. All questions provided with answers within power point. The starter provides some simple combination of forces questions to review the subject of resultant forces - one question has two forces acting on different planes which pupils will be unfamiliar with and therefore how to solve - this prompts the lesson. The intuitive resultant force and direction is highlighted but also how we need to calculate exactly what they are. The parallelogram/geometric method is taught step by step with a worked example, this is done a second time with another example but with the class prompted to follow it and do the same on their own paper which also allows for discussion of difference in results. A collection of questions allows pupils to practice use of this method. This method is then used for inclined planes to explain frictional force acting to put object in equilibrium on inclined planes. Review questions again allow pupils to practice this. Lesson Objectives: - Review resolving simple combination of forces. - Identify when forces are acting on different lines/planes. - Calculate the resultant force on an object which has equal forces acting on different lines/planes. - Calculate the resultant force on an object which has unequal forces acting on different lines/planes. A worksheet is not provided as it is best for pupils to work on their own paper to define their own scales for this methodology.

New AQA GCSE lesson on Scalars and Vectors (+ Forces) written in line with new GCSE AQA specification. All questions provided with answers within power point. Starter asks how far away a school is from a home - this prompts responses from pupils that either follow the road or straight across the field. This introduces the idea of distance and displacement which is explained in detail. This is also used to explain magnitude, scalars and vectors. A series of questions review pupils understanding of distance and displacement. A quick class activity reviews a number of different variables to classify each as scalar or vector. Speed and Velocity are identified as a scalar and vector by reviewing the equations and then also related to acceleration. This leads to force the representation of force vectors and scale diagrams. A quick review of forces and different types of forces lead to force interactions and their effects. A set of review questions provides use of force vectors. Lesson Objectives: - Explain how displacement and distance are different. - Identify and explain scalar and vector quantities. - Identify different types of forces and how these can be represented. - Explain what the effect of simple force interactions will have on objects.

New GCSE AQA Physics lesson on 'Newtons Second Law - Force and Accerlation' written in line with new AQA Physics specification. Starter prompts pupils to discuss how there weight would vary on different planets, this is to set-up how weight is different to mass. Key terms Force, mass and acceleration are reviewed for clarity leading to the equation F=ma, the units, how it can be rearranged and then review questions to practice the use of. The equation is then reviewed in terms of proportionality as required by the AQA specification. Following this F=ma is related to W=mg to highlight that weight is a force and different to mass. This then leads to pupils calculating their mass on different planets - alternatively a task is provided to calculate the mass of a schoolbag on different planets. For higher tier pupils intertial mass is explained. Learning Objectives: - Clearly explain what force, mass and acceleration are. - Relate how mass and acceleration effect the size of a force. - Calculate the resultant force on an object by its mass and acceleration. - Explain the difference between weight and mass. - What is meant by inertia (Higher Tier)

Complete lesson on the 'Big Bang Theory' and the 'Expanding Universe' with key content from AQA Physics. Starter uses post-it note from pupils onto the board which allows the teacher to review thoughts from pupils on the origins of the Universe. This is good starter to discuss different pupils beliefs. Following this a focus on 'theories' discusses what theories are and why this is important in Science and evidence which support theories. The main part of the lesson guides pupils through the Big Bang Theory explaining the evidence behind this theory (red-shift and CMBR) with clear description of the Doppler effect. End of lesson uses a written task for pupils to summarise the key points on red-shift. This can then be peer marked by the class using the guidance provided. A homework is included asking pupils to research the fate of the Universe as this is common question from pupils. Plenary includes exam style questions. More lessons to in same format for P1. https://www.tes.com/member/Nteach

New GCSE AQA Physics lesson on ‘distance - time graphs’ written in line with new AQA Physics specification. Lesson Objectives: Describe what a distance-time graph can tell you. Identify different distance-time graph trends. Use the gradient of a distance-time graph for speed calculations. Calculate velocities from distance time graphs. More content to be added to lesson shortly and new worksheets.

Complete lesson on GCSE P1 thermal conduction. Starter includes simple teacher demo which can be substituted for linked video. Main class practical requires standard lab equipment. Key summaries provided with guidance on exam mark worthy responses. Tasks include writing challenge (exam preparation), further questions and plenary relating to vacuum flask. Lessons in same format available for P1. https://www.tes.com/member/Nteach

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.

New GCSE AQA Physics lesson on Forces and Braking written in line with new AQA Physics specification. All questions are provided with answer within the Power Point. Lesson starts by discussing the speed limit for vehicles against the maximum speeds vehicles can achieve. Stopping distances is explored by looking at different size vehicles going at the same velocity and then braking. Stopping distance is also reviewed against different velocities. Thinking distance and braking distance are highlighted and discussed with a class activity exploring the effects of different factors on thinking distance with higher or lower activity. A class activity is also provided to investigate pupils reaction time to relate to thinking distance. A quick review on resultant forces in relation to vehicles is explored through questioning, this leads to the physics of stopping vehicles through braking. This leads to an exploration of the physics of braking in terms of changes to energy stores and then also how to calculate braking force. Summary questions are provided on this topic to finish the lesson. Plenary poses the starting question again in light of new information pupils will now have. Lesson Objectives: - Evaluate different vehicle speeds for stopping distances - Explain what happens during braking of a vehicle. - Identify and explain what can effect the stopping distance of a vehicle. - Investigate how a drivers reaction time effect stopping distance. - Calculate the braking force of a required for moving vehicles.

A simple poster to highlight key flame tests to identify different metals.

A fun christmas quiz to end term on. Different rounds on general knowledge, tv & film, music, who is the celebrity santa, christmas riddles and pixelated objects.