New GCSE AQA Physics lesson on 'Work done' written in line with new AQA Physics specification. Starter - Students are to discuss what objects they think would be the most 'work' to move into a house. This is to get them thinking about what work means - more work or less work. The familiar definition of work is explored which is then related to the definition of work in physics. A quick mini plenary questions students on different scenarios to see if work is done on the system or not. After the equations for Work done is given and explained students re-visit the moving house activity to calculate the work done on moving different objects into a house. An experiment is detailed to explore work done on different surfaces to start investigating the effects of friction in relation to work done. The lesson concludes looking at useful friction and the changes in energy stores cause by friction. Exam questions are given as a plenary task. Lesson Objectives: 1) Provide a definitions for work done. 2) Recall and apply the equation for Work done to solve problems. 3) Calculate the energy changes in different systems using work done. 4) Detail the energy changes that occur in a system when work is done.

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.

New GCSE AQA Physics lesson on 'Electromagnetic Spectrum' written in line with new AQA Physics specification. Lesson Objectives: 1) Identify the different parts of the electromagnetic spectrum. 2) Identify the order of EM waves based on wavelengths, frequency & energy. 3) Identify orders of magnitude (size) of different EM wavelengths. 4) Explain the use of different EM waves. 5) Evaluate and discuss the potential risk of using mobile phones.

New GCSE AQA Physics lesson on the generator effect written in line with new AQA Physics specification. All questions provided with answers within power point. Explain what the generator effect is Explain how potential difference can be induced in a wire Identify what affects the size of induced potential difference in a generator Detail how to deduce the direction of induced current

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 the AC DC generators written in line with new AQA Physics specification. All questions provided with answers within power point. Explain how the generator effect is used in an alternator to generate ac Explain how a ‘dynamo’ generates dc current Interpret graphs of potential difference generated in the coil against time. Explain how a moving-coil microphone works.

GCSE Physics P2 lesson on AC & DC current including key content from AQA Physics exam specification. Starter uses gets pupils to try and categorise different electrical devices, this leads to the discussion of batteries and plugs. Key definitions and explanations are given for a.c and d.c current with suggested modelling activity for a.c. and d.c currents. Relevant wave properties are recapped and this allows for easier transition to using oscilloscope traces. A link to a great online simulator is given to help show a.c and d.c current flow on an oscilloscope (no experiment set-up needed) and also a video of this is posted on youtube for use: https://www.youtube.com/watch?v=HEkPVViFa2Y AC is focused on for main circuit supply and related to lighting and for peak voltages and frequency calculation. Summary questions included. More P2 to come.

New GCSE AQA Physics lesson on 'Light and Colour ’ written in line with new AQA Physics specification. Lesson Objectives: Identify what is meant by the visible light spectrum. Detail the different colours on the visible light spectrum and relate to wavelength. Explain how surfaces appear to be certain colours. Compare and contrast translucent and transparent objects and their interaction with light. (upated 07/11/2019)

A completely resourced lesson on GCSE Physics P2 - Electrical Power (E=Pt & P=IV) including key content from AQA exam specification. Starter focuses on units and what they measure as a nice recap of all P2 units of measure. Power and a key definition is provided is reviewed through relatable examples and then put into the context of electrical devices. Examples of calculating power from energy used and time are provided with a worksheet for this. Activity included for power rating circus is optional as alternatively another worksheet is provided allowing the exercise to be completed without a power rating circus. Energy is then related to current and potential difference with the key equations and exercised with a worksheet. Finally questions to identify appropriate fuse ratings for electrical devices. More P2 lessons to come.

A completely resourced lesson on GCSE Physics P2 - fuses, circuit breakers and RCCBs including key content from AQA exam specification. Starter reviews previous unit content on plug wiring and AC/DC current which leads to fuses. Electrical safety is discussed through the effects of electric shocks and resistance is briefly revisited, reviewing previous P2 content. Resistance in a wire is related to the operation of fuses which is then detailed ( a nice demo is included in the comment box but alternatively a video can be shown). Circuit breakers and their function is detailed with animations and videos with key questioning on functions. A written task reviews fuses and circuit breakers. The detail required by the exam specification is provided (with an alternative slide for classes that would want to know more). The importance of earthing is explored through questioning (relating back to P2 Statics). The plenary task uses pictionary to review all key concepts. More P2 lessons to come

A complete and detailed lesson on Radioactivity, focusing on atomic structure, alpha particles, beta particles and gamma radiation. (created with AQA specification content). Lesson Objectives: - Recall and detail the basic structure of an atom. - Relate number of protons, electrons and neutrons to mass and atomic numbers. - Explain how atoms form ions & identify the isotopes of different elements. - Explain radioactivity in terms of alpha, beta and gamma radiation. The lesson guides pupils very clearly through exactly what radioactivity is by starting with the atom and so isotopes. Starter prompts pupils to find the key words for the lesson using a ‘say what you see’ game. Following a review of the atoms structure and properties through questioning. A task exploring the periodic table using relative atomic mass and atomic number familiarises pupils with these as they are important later. Ions are reviewed through a task using visuals of atoms/ions to identify ions or atoms with appropriate charge. This then leads onto explaining what isotopes which can then be linked to unstable elements. Radioactivity is then explained through a basic description relating to like charges of protons in the nucleus and the required binding energy to hold the nucleus together. Alpha, Beta and Gamma are then reviewed with visuals of the process to relate to pupils clearly what happens. A literacy task summarises and reviews the lesson.

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.

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.

New GCSE AQA Physics lesson on ' Centre of Mass' written in line with new AQA Physics specification. All questions provided with answers within power point. Starter simply looks at balancing object on one finger and how intuitively we can know how to do this. Then stability of different shapes is reviewed and again highlighted how we can assess whether something will be stable or not. The physics of this is then applied in terms of centre of mass. The technique to find the centre of mass for a symmetrical shape is detailed and practices with questions. Suspended equilibrium and centre of mass is shown using a hanging bird cage and can also be demonstrated in class with a simple mass and string. Then an experiment is outlined to find the centre of mass of irregular shapes. Centre of mass it then related to real life contexts for practice exam questions. Lesson Objectives: - Explain what is meant by centre of mass. - Find the centre of mass for a simple symmetrical object and explain this position. - Find the centre of mass of an irregular shaped object. - Apply the principle of centre of mass to real-life problems.

New GCSE AQA Physics lesson on the Transformers and the National Grid written in line with new AQA Physics specification. All questions provided with answers within power point. Lesson Objectives: Explain the principle behind transformers Explain how the ratio of the p.d across two coils relates the number coil turns Calculate the current from the transformer input supply to provide a set power output Detail the advantages power transmission at high p.d