(Updated April 2018)
This powerpoint presentation consists of 8 slides (around 1 hour of work for students).
Learning objectives covered:
Using Fleming’s Left Hand Rule to predict direction of force experienced by current-carrying wire.
Calculate magnetic force using the equation F=BIL.
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Powerpoint Presentations Updated April 2018
This set of powerpoint presentations consists of 37 slides (around 4 to 5 hours of work for students), including step-by-step instruction for 2 practicals.
Learning objectives covered:
Explain what is meant by the poles of a magnet.
Plot the magnetic field around a bar magnet.
Describe magnetic materials and induced magnetism.
Describe the Earth’s magnetic field.
Describe the magnetic effect of a current.
Use Fleming’s Left Hand Rule to predict the direction of force on current-carrying wire in a magnetic field.
Use the equation F=BIL.
Summary questions and answers (appear on click) are included in the slides.
Revision Matt / Knowledge Organiser
Included is also a knowledge organiser for the topic of Magnetism and Electromagnetism.
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L.O. To explain the properties and forming processes of sedimentary rocks.
Modelling the formation of sedimentary rocks through 3 different demonstrations or practical activities.
Perfect for Key stage 3.
Topic: Cone parachute practical - Handling data, scientific methods, independent and dependent variables, plotting graphs, analysing graphs, linear and proportional relationship
Level: GCSE, key stage 4
I am following the AQA science (physics) syllabus but this resource is suitable for anyone teaching KS3 or KS4 science (specifically physics). I will use this lesson to teach a class of year 9, beginning their GCSE course.
Resources:
1. Powerpoint slides: powerpoint slides, compatible with a worksheet/handout. Slides contain information and tasks for pupils.
2. Notes (editable documents) for pupils: Use this as worksheet or handout. Pupils can take notes during lesson or complete tasks in this editable document.
Hope this resource is helpful for you. Please do let me know if there's any suggestions for improvement. I aim to upload more lessons following this topic.
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Topic: Forces in balance: Vectors and scalars in science (physics), Distance and displacement
Level: GCSE, key stage 4
I am following the AQA science (physics) syllabus but this resource is suitable for anyone teaching KS3 or KS4 science (specifically physics).
Resources:
1. Powerpoint slides: powerpoint slides, compatible with a worksheet/handout. Slides contain information and tasks for pupils.
2. Notes (editable documents) for pupils: Use this as worksheet or handout. Pupils can take notes during lesson and complete tasks in this editable document.
Hope this resource is helpful for you. Please do let me know if there's any suggestions for improvement. I aim to upload more lessons following this topic. Check out some bundles I've put together.
Enjoy!
Topic:
Forces in balance: Resultant forces
1. Define and calculate resultant force.
2. Add forces in two dimensions.
Level: GCSE, key stage 4
I am following the AQA science (physics) syllabus but this resource is suitable for anyone teaching KS3 or KS4 science (specifically physics).
Resources:
1. Powerpoint slides: powerpoint slides, compatible with a worksheet/handout. Slides contain information and tasks for pupils.
2. Notes (editable documents) for pupils: Use this as worksheet or handout. Pupils can take notes during lesson and complete tasks in this editable document. Contains exam practice question at the end.
3. Mark scheme for exam practice question.
Hope this resource is helpful for you. Please do let me know if there's any suggestions for improvement. I aim to upload more lessons following this topic. Check out some bundles I've put together.
Enjoy!
This bundle contains 4 lessons for key stage 3 and 4 pupils. It covers GCSE topics in physics, such as Newton's laws, types of forces, force diagrams, reaction pairs, vectors and scalars.
Powerpoints and worksheets are ready to use and are editable.
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107 Slides to cover the topic of energy in KS4 GCSE science (physics):
L.O.
1. Different types of energy
Recall 9 types of energy.
Understand that energy is the ability of a system to do work.
2. Energy transfer
Define conservation of energy.
Describe examples of energy transfer.
3. Conservation of energy
Describe how energy is conserved for a falling object.
Describe how energy is conserved for a pendulum.
4. Energy and work
Define work in physics.
Calculate work done by a force.
5. Gravitational potential energy
Define and calculate gravitational potential energy.
State factors that affect gravitational potential energy.
6. Kinetic energy
Define and calculate kinetic energy.
State factors that affect kinetic energy.
7. Elastic potential energy
Define and calculate elastic potential energy.
8. Efficiency
Identify input energy, useful energy, and wasted energy of a system.
Define and calculate efficiency of a system.
9. Power
Describe power as the rate at which energy is transferred.
Calculate the power of a system.
Slides include exam-style questions, starter tasks, plenary tasks, summary questions, activities, and theory.
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Topic: Power / Energy and Power / Energy Transfer / Work Done
Level: GCSE, key stage 4
I am following the AQA science (physics) syllabus but this resource is suitable for anyone teaching KS4 physics.
Resources:
1. Powerpoint slides: This includes different tasks and theory notes for pupils
2. Notes for pupils: Use this document as worksheets or handouts. Pupils can take notes during lesson or complete differentiated tasks in this editable document. Also, it includes exam style questions.
Hope this resource is helpful for you. Please do let me know if there's any suggestions for improvement. I aim to upload all my lessons on "Energy and Energy Resources" so that you can have a complete set of lessons for this unit.
Enjoy!
Topic: Energy efficiency / Power efficiency
Level: GCSE, key stage 4
I am following the AQA science (physics) syllabus but this resource is suitable for anyone teaching KS4 physics.
Resources:
1. Powerpoint slides: This includes starter task, theory notes, small tasks, and plenary task.
2. Notes for pupils: Use this document as worksheets or handouts. Pupils can take notes during lesson or complete tasks in this editable document. Also, it includes exam style questions.
Hope this resource is helpful for you. Please do let me know if there's any suggestions for improvement. I aim to upload all my lessons on "Energy and Energy Resources" so that you can have a complete set of lessons for this unit.
Enjoy!
Topic: Kinetic energy / Motion / Kinetic energy calculation
Level: GCSE, key stage 4
I am following the AQA science (physics) syllabus but this resource is suitable for anyone teaching KS4 physics.
Resources:
1. Powerpoint slides: This includes different tasks and theory notes for pupils
2. Notes for pupils: Use this document as worksheets or handouts. Pupils can take notes during lesson or complete tasks in this editable document. Also, it includes exam style questions.
Hope this resource is helpful for you. Please do let me know if there's any suggestions for improvement. I aim to upload all my lessons on "Energy and Energy Resources" so that you can have a complete set of lessons for this unit.
Enjoy!
Here is a resource (booklet of questions) for Energy revision. I began each question covering the theory that the pupils would need to know before answering the question. Therefore, each booklet serves the purpose of revision notes as well.
Answers are included in separate documents.
Here are the topics covered (the more difficult questions are aimed at A-level pupils):
Energy transfer
Kinetic Energy
Gravitational Potential Energy
Conservation of Energy
Renewable / Non Renewable Energy
Work Done
Centripetal Force
Weight
Terminal Velocity
Gravitational Attraction
Gravitational Acceleration
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This resource is a booklet of questions for the unit of electricity in A-level Physics. I have also included the answers in a separate document.
In each question, I have included the theory necessary for pupils to complete the question. It is structured in the form (1) Theory, (2) Question, (3) Multiple Choice Answers.
The questions range from Basic, Medium, to Challenge. There are 14 questions in total.
Enjoy!