By the end of the lesson learners will be able to: Identify standing and progressive waves. Describe how to produce a standing wave. Explain why resonance can be dangerous.

By the end of the lesson learners will be able to: Identify harmonics on a string. Describe how the harmonics affect the wavelength. Explain why a greater wavelength leads to a sound containing more bass.

By the end of the lesson learners will be able to: State what happens when sound reaches an object. Describe how echoes describe the object it has reflected from. Explain why echoes are used by pregnant women and dolphins.

By the end of the lesson learners will be able to: Identify low, mid and high energy waves. Describe how to protect yourself from exposure to energy waves. Explain why there is strict government guidelines for the use of gamma and X-rays

A resource containing 2 powerpoint slides for 2 lessons and a worksheet for applying Hooke’s law and analysing data. I run the resource as an initial practical for investigating Hooke’s law and the second lesson to further solidify theory. Tasks are differentiated to suit the needs of each learner. Progress checks take place after each success criteria to measure the progress of learners. For the practical lesson: By the end of the lesson students should be able to: Learning objective: Investigate the effects of forces on the extension of a spring. Success criteria: -Identify independent and dependent variables. -Describe how to write a method concerning spring extension. -Explain why repeatability and reliability are important factors within experiments. This lesson contains 17 slides. For the theory lesson: By the end of the lesson students should be able to: Learning objective: To analyse the results and draw conclusions between the spring practical and Hooke’s law theory. Success criteria: Identify the forces needed to extend and compress a spring. Describe Hooke’s law. Explain why the pattern for Hooke’s law does not remain indefinitely. This lesson contains 17 slides. The worksheet contains 2 pages.

A resource containing a comprehensive powerpoint slideshow that will allow for learners to learn about drag forces friction and air resistance. Tasks are differentiated to suit the needs of each learner. Progress checks take place after each success criteria to measure the progress of learners. By the end of the lesson students should be able to: Learning objective: Develop an understanding of how drag forces affect the movement of an object. Success criteria: Identify 2 drag forces. Describe how drag forces affect objects. Explain why air resistance and friction can be useful and a nuisance. This lesson contains 22 slides

A comprehensive lesson which teaches students about charges and how these charges contribute towards static electricity. Students will then progress to find how these charges interact with another and generate current. Progress checks are available following each success criteria Tasks are differentiated to suit the needs of each learner. Learning objective: Justify how charges behave and how this contributes to electricity. By the end of the lesson learners should be able to: Success criteria: Identify the 2 charges. Describe how materials can become charged. Explain why static shocks occur. Powerpoint contains 20 slides. A worksheet is also included to complement the Van Der Graaf.

A revision poster that includes material needed for section 3 of the edexcel iGCSE combined science double award physics. Section 3 Waves A blank copy for students to fill in is also included for students to test their knowledge. I would recommend to print these in A3 and guide the students through the answers using the completed revision poster attached. Due to the amount of detail needed to squeeze into one poster, the font is small in some sections which might need some further zooming in on presenting devices.

A revision poster that includes material needed for section 1 of the edexcel iGCSE combined science double award physics. Section 1 - Forces and Motion A blank copy for students to fill in is also included for students to test their knowledge. I would recommend to print these in A3 and guide the students through the answers using the completed revision poster attached. Due to the amount of detail needed to squeeze into one poster, the font is small in some sections which might need some further zooming in on presenting devices.

Originally created for the BTEC Applied Science level 3 qualification Unit 5 - Physics. By the end of the lesson learners should be able to: Recall the ideal gas equation. Describe how scientists calculated absolute zero. Evaluate different thermometers. The resource contains past paper questions and mark scheme answers. Slides were originally created using google slides, opening in microsoft powerpoint might cause slight misalignment - open in google slides to avoid this.

By the end of the lesson learners will be able to: State what is meant by nuclear fission. Describe how nuclear fission can cause a chain reaction. Explain why nuclear fission must be controlled.

A revision session containing a mind map (with guidance and without). A Powerpoint containing a quiz session (10 questions) - excellent for a starter / plenary. Answers to each section of the mind map within the Powerpoint.

By the end of the lesson I will be able to: Identify the structure of beta and alpha radiation. Describe how to calculate nuclear equations. Justify which element is produced from a nuclear equation.

A revision mat for activate 3 - Detection in Physics.

Lessons created to match the activate 3 scheme of work. All features work when used with google slides. All features should all work with powerpoint but might need some rearranging. A practical activity is also included including a set of results. By the end of the lesson learners will be able to: State the equation for efficiency. Describe how an LDR detects light. Explain why LED lights are now used instead of older bulbs.