Each lesson follows the AQA Physics: A Level Year 1 and AS textbook https://amzn.to/3BGFsD5 The lesson is complete and designed to be taught over a period of 90 minutes. It is fully animated and contains fully worked out answers to every question. Learning objectives Distinguish between u and v Calculate the displacement of an object moving with uniform acceleration Explain what else we need to know to calculate the acceleration of an object if we know its displacement in a given time. The format A recall starter activity to help store key definitions and ideas to long term memory. Clear slides presented in a logical order, which can be used to talk through and explain the key concepts of the lesson. Questions and example slides, which can be used to model perfect exam ready answers. Summary questions to practice and consolidate the new knowledge gained from the lesson.

Each lesson follows the AQA Physics: A Level Year 1 and AS textbook https://amzn.to/3BGFsD5 The lesson is complete and designed to be taught over a period of 90 minutes. It is fully animated and contains fully worked out answers to every question. Learning objectives Distinguish between a distance time graph and a displacement time graph Describe what the gradient of a velocity time graph represents Describe what the area under a velocity time graph represents The format A recall starter activity to help store key definitions and ideas to long term memory. Clear slides presented in a logical order, which can be used to talk through and explain the key concepts of the lesson. Questions and example slides, which can be used to model perfect exam ready answers. Summary questions to practice and consolidate the new knowledge gained from the lesson.

Each lesson follows the AQA Physics: A Level Year 1 and AS textbook https://amzn.to/3BGFsD5 The lesson is complete and designed to be taught over a period of 90 minutes. It is fully animated and contains fully worked out answers to every question. Learning objectives Apply F = ma when the forces on an object are in opposite directions. Explain why you experience less support as an ascending lift stops. Describe any situation in which F = ma cannot be applied The format A recall starter activity to help store key definitions and ideas to long term memory. Clear slides presented in a logical order, which can be used to talk through and explain the key concepts of the lesson. Questions and example slides, which can be used to model perfect exam ready answers. Summary questions to practice and consolidate the new knowledge gained from the lesson.

Each lesson follows the AQA Physics: A Level Year 1 and AS textbook https://amzn.to/3BGFsD5 The lesson is complete and designed to be taught over a period of 90 minutes. It is fully animated and contains fully worked out answers to every question. Learning objectives Explain why the speed reaches a maximum when a driving force is still acting. Explain what we mean by a drag force. Explain what determines the terminal speed of a falling object or a vehicle. The format A recall starter activity to help store key definitions and ideas to long term memory. Clear slides presented in a logical order, which can be used to talk through and explain the key concepts of the lesson. Questions and example slides, which can be used to model perfect exam ready answers. Summary questions to practice and consolidate the new knowledge gained from the lesson.

This lesson follows the AQA Physics: A Level Year 2 textbook https://amzn.to/3DG6pIP The lesson is complete and designed to be taught over a period of 90 minutes. It is fully animated and contains fully worked out answers to every question. Learning objectives State the two features of the output voltage waveform that change if the coil is turned faster Explain why the output alternates Explain why it is preferable for practical generators to have fixed coils and a rotating (electro)magnet The format A recall starter activity to help store key definitions and ideas to long term memory. Clear slides presented in a logical order, which can be used to talk through and explain the key concepts of the lesson. Questions and example slides, which can be used to model perfect exam ready answers. Summary questions to practice and consolidate the new knowledge gained from the lesson.

This lesson follows the AQA Physics: A Level Year 2 textbook https://amzn.to/3DG6pIP The lesson is complete and designed to be taught over a period of 90 minutes. It is fully animated and contains fully worked out answers to every question. Learning objectives State how big the nucleus is Describe how the nucleus was discovered Explain why it was not discovered earlier The format A recall starter activity to help store key definitions and ideas to long term memory. Clear slides presented in a logical order, which can be used to talk through and explain the key concepts of the lesson. Questions and example slides, which can be used to model perfect exam ready answers. Summary questions to practice and consolidate the new knowledge gained from the lesson.

This lesson follows the AQA Physics: A Level Year 2 textbook https://amzn.to/3DG6pIP The lesson is complete and designed to be taught over a period of 90 minutes. It is fully animated and contains fully worked out answers to every question. Learning objectives Define the magnetic flux and the magnetic flux linkage Relate the induced emf in a coil to the magnetic flux linkage through it State Lenz’s law and the conservation law that explains it The format A recall starter activity to help store key definitions and ideas to long term memory. Clear slides presented in a logical order, which can be used to talk through and explain the key concepts of the lesson. Questions and example slides, which can be used to model perfect exam ready answers. Summary questions to practice and consolidate the new knowledge gained from the lesson.

Each lesson follows the AQA Physics: A Level Year 1 and AS textbook https://amzn.to/3BGFsD5 The lesson is complete and designed to be taught over a period of 90 minutes. It is fully animated and contains fully worked out answers to every question. Learning objectives Explain why the potential difference of a battery or cell (in use) is less than its emf. Measure the internal resistance of a battery. Describe how much power is wasted in a battery. The format A recall starter activity to help store key definitions and ideas to long term memory. Clear slides presented in a logical order, which can be used to talk through and explain the key concepts of the lesson. Questions and example slides, which can be used to model perfect exam ready answers. Summary questions to practice and consolidate the new knowledge gained from the lesson.

Each lesson follows the AQA Physics: A Level Year 1 and AS textbook https://amzn.to/3BGFsD5 The lesson is complete and designed to be taught over a period of 90 minutes. It is fully animated and contains fully worked out answers to every question. Learning objectives Explain why diffraction of light is important in the design of optical instruments Compare the single slit diffraction pattern with the pattern of Young’s fringes Describe the effect of the single slit pattern on the brightness of Young’s fringes. The format A recall starter activity to help store key definitions and ideas to long term memory. Clear slides presented in a logical order, which can be used to talk through and explain the key concepts of the lesson. Questions and example slides, which can be used to model perfect exam ready answers. Summary questions to practice and consolidate the new knowledge gained from the lesson.

Each lesson follows the AQA Physics: A Level Year 1 and AS textbook https://amzn.to/3BGFsD5 The lesson is complete and designed to be taught over a period of 90 minutes. It is fully animated and contains fully worked out answers to every question. Learning objectives Consider whether momentum is ever lost in a collision. Define the principle of conservation of momentum. State the condition that must be satisfied if the momentum of a system is conserved. The format A recall starter activity to help store key definitions and ideas to long term memory. Clear slides presented in a logical order, which can be used to talk through and explain the key concepts of the lesson. Questions and example slides, which can be used to model perfect exam ready answers. Summary questions to practice and consolidate the new knowledge gained from the lesson.

This lesson follows the AQA GCSE Physics specification (post 2016) It contains a complete lesson designed to last around 1 hour, it includes: A recall starter activity and answers An explanation of the key concepts Examples for modelling Practice questions with answers

This lesson follows the AQA GCSE Physics specification (post 2016) It contains a complete lesson designed to last around 1 hour, it includes: A recall starter activity and answers An explanation of the key concepts Examples for modelling Practice questions with answers

This lesson follows the AQA GCSE Physics specification (post 2016) It contains a complete lesson designed to last around 1 hour, it includes: A recall starter activity and answers An explanation of the key concepts Examples for modelling Practice questions with answers

This lesson follows the AQA GCSE Physics specification (post 2016) It contains a complete lesson designed to last around 1 hour, it includes: A recall starter activity and answers An explanation of the key concepts Examples for modelling Practice questions with answers

This lesson follows the AQA GCSE Physics specification (post 2016) It contains a complete lesson designed to last around 1 hour, it includes: A recall starter activity and answers An explanation of the key concepts Examples for modeling Practice questions with answers

This lesson follows the AQA GCSE Physics specification (post 2016) It contains a complete lesson designed to last around 1 hour, it includes: A recall starter activity and answers An explanation of the key concepts Examples for modeling Practice questions with answers

This lesson follows the AQA GCSE Physics specification (post 2016) It contains a complete lesson designed to last around 1 hour, it includes: A recall starter activity and answers An explanation of the key concepts Examples for modeling Practice questions with answers

This lesson follows the AQA GCSE Physics specification (post 2016) It contains a complete lesson designed to last around 1 hour, it includes: A recall starter activity and answers An explanation of the key concepts Examples for modeling Practice questions with answers

Each lesson follows the AQA Physics: A Level Year 1 and AS textbook https://amzn.to/3BGFsD5 The lesson is complete and designed to be taught over a period of 90 minutes. It is fully animated and contains fully worked out answers to every question. Learning objectives Describe what is meant by acceleration and deceleration Explain why uniform acceleration is a special case Explain why acceleration is considered to be a vector The format A recall starter activity to help store key definitions and ideas to long term memory. Clear slides presented in a logical order, which can be used to talk through and explain the key concepts of the lesson. Questions and example slides, which can be used to model perfect exam ready answers. Summary questions to practice and consolidate the new knowledge gained from the lesson.

This lesson follows the AQA Physics: A Level Year 2 textbook https://amzn.to/3DG6pIP The lesson is complete and designed to be taught over a period of 90 minutes. It is fully animated and contains fully worked out answers to every question. Learning objectives Define latent heat Measure latent heat Explain why the temperature of a substance stays steady when it is changing state The format A recall starter activity to help store key definitions and ideas to long term memory. Clear slides presented in a logical order, which can be used to talk through and explain the key concepts of the lesson. Questions and example slides, which can be used to model perfect exam ready answers. Summary questions to practice and consolidate the new knowledge gained from the lesson.