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Studying physics unlocks the rules of the universe. Through many years of teaching, I have carefully designed a set of lessons to guide students to unlock and master this knowledge. Each lesson contains recall questions, an explanation of key concepts in a logical order, modelled examples to help guide students through answering questions, and practice questions for them to apply the knowledge themselves. All lessons are complete, fully animated, and contain fully worked answers.

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Studying physics unlocks the rules of the universe. Through many years of teaching, I have carefully designed a set of lessons to guide students to unlock and master this knowledge. Each lesson contains recall questions, an explanation of key concepts in a logical order, modelled examples to help guide students through answering questions, and practice questions for them to apply the knowledge themselves. All lessons are complete, fully animated, and contain fully worked answers.
A level Physics (25.2) The laws of electromagnetic induction (Electromagnetic induction)
ThePhysicsmasterThePhysicsmaster

A level Physics (25.2) The laws of electromagnetic induction (Electromagnetic induction)

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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.
A level Physics (13.4) More circuit calculations (Direct current circuits)
ThePhysicsmasterThePhysicsmaster

A level Physics (13.4) More circuit calculations (Direct current circuits)

(0)
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 Calculate current in circuits with resistors in parallel Calculate current in circuits with more than one cell. Calculate current in circuits with diodes in the circuit. 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.
A level Physics (13.3) Electromotive force and internal resistance (Direct current circuits)
ThePhysicsmasterThePhysicsmaster

A level Physics (13.3) Electromotive force and internal resistance (Direct current circuits)

(0)
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.
A level Physics (25.1) Generating electricity (Electromagnetic induction)
ThePhysicsmasterThePhysicsmaster

A level Physics (25.1) Generating electricity (Electromagnetic induction)

(0)
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 Describe what must happen to a conductor (or to the magnetic field in which it’s placed) for electricity to be generated State the factors that would cause the induced emf to be greater Discuss whether an induced emf always causes a current to flow 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.
AQA GCSE Physics (4.5.1.4) Forces - Resultant forces
ThePhysicsmasterThePhysicsmaster

AQA GCSE Physics (4.5.1.4) Forces - Resultant forces

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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
A level Physics (13.2) More about resistance (Direct current circuits)
ThePhysicsmasterThePhysicsmaster

A level Physics (13.2) More about resistance (Direct current circuits)

(0)
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 Calculate resistances in series and parallel circuits. Define resistance heating. Calculate the current and potential differences for each component in a circuit. 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.
A level Physics (13.1) Circuit rules (Direct current circuits)
ThePhysicsmasterThePhysicsmaster

A level Physics (13.1) Circuit rules (Direct current circuits)

(0)
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 State the rules for series and parallel circuits. State the principles behind these rules. Describe how we use the rules in circuits. 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.
(Chapter 24 BUNDLE) A level Physics - Fields - Magnetic fields
ThePhysicsmasterThePhysicsmaster

(Chapter 24 BUNDLE) A level Physics - Fields - Magnetic fields

4 Resources
This bundle contains 3 lessons and an end of chapter assessment Each lesson follows the AQA Physics: A Level Year 2 textbook https://amzn.to/3DG6pIP The lessons are complete and designed to be taught over a period of 90 minutes. They are fully animated and contains fully worked out answers to every question. 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.
A level Physics (24.3) Charged particles in circular orbits (Magnetic fields)
ThePhysicsmasterThePhysicsmaster

A level Physics (24.3) Charged particles in circular orbits (Magnetic fields)

(1)
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 Describe what happens to the direction of the magnetic force when electrons are deflected by a magnetic field Explain why the moving charges move in a path that is circular State the factors that affect the radius of the circular path 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.
A level Physics (24.2) Moving charges in a magnetic field (Magnetic fields)
ThePhysicsmasterThePhysicsmaster

A level Physics (24.2) Moving charges in a magnetic field (Magnetic fields)

(0)
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 Describe what happens to charged particles in a magnetic field Explain why a force acts on a wire in a magnetic field when a current flows along the wire State the equation used to find the force on a moving charge 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.
AQA GCSE Physics (4.5.1.3) Forces - Gravity
ThePhysicsmasterThePhysicsmaster

AQA GCSE Physics (4.5.1.3) Forces - Gravity

(0)
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
(Chapter 23 BUNDLE) A level Physics - Fields - Capacitors
ThePhysicsmasterThePhysicsmaster

(Chapter 23 BUNDLE) A level Physics - Fields - Capacitors

5 Resources
This bundle contains 4 lessons and an end of chapter assessment Each lesson follows the AQA Physics: A Level Year 2 textbook https://amzn.to/3DG6pIP The lessons are complete and designed to be taught over a period of 90 minutes. They are fully animated and contains fully worked out answers to every question. 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.
A level Physics (24.1) Current-carrying conductors in a magnetic field (Magnetic fields)
ThePhysicsmasterThePhysicsmaster

A level Physics (24.1) Current-carrying conductors in a magnetic field (Magnetic fields)

(0)
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 Measure the strength of a magnetic field State the factors that the magnitude of the force on a current carrying wire depends on Determine the direction of the force on a current carrying wire in a magnetic field 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.
A level Physics (23.4) Dielectrics (Capacitors)
ThePhysicsmasterThePhysicsmaster

A level Physics (23.4) Dielectrics (Capacitors)

(0)
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 Explain how a dielectric affects a capacitor Define relative permittivity and dielectric constant Describe the action of a simple polar molecule rotating in an electric field 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.
(GCSE BUNDLE 4.4) AQA Physics - Atomic structure
ThePhysicsmasterThePhysicsmaster

(GCSE BUNDLE 4.4) AQA Physics - Atomic structure

10 Resources
This bundle contains 10 lessons 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