By the end of the lesson learners should be able to: Identify what is meant by a parallax Describe how to convert a distant star, Earth and the Sun into a triangle. Justify which trigonometric formula to use to calculate the distance between a distant star and Earth or the Sun.

Resource was intended for BTEC Applied Science Unit 1 Physics. The resource was designed on google slides and should work fine on powerpoint, it might just need some rearranging. Past paper questions are included with answers from the mark scheme. By the end of the lesson learners will be able to: Identify the critical angle. Describe the uses of optical fibres. Explain why endoscopes are able to obtain an image of an object even if the optical fibre inside is curved.

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 Carnot cycle. Describe how an internal combustion engine works. Explain why latent heat is needed in a steam turbine. 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.

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 difference between Newtonian and Non-Newtonian fluids Describe pseudoplastic, dilatant, thixotropic, and rheopectic fluids. Justify the uses of these different fluids. 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.

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 what is meant by mass flow continuity. Describe factors that can affect volume flow and pressure. Use the Bernoulli principle to justify how an aeroplane experiences lift. 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 should be able to: Identify what causes day and night time. Describe how the Earth moves: Through rotating: Around the Sun: Explain the link between the rotation of the Earth and the effect on days.

By the end of the lesson learners will be able to: Identify the uses of alpha, beta and gamma radiation. Describe how they are used in real world applications. Explain why the type of radiation is suited for the role it carries out.

By the end of the lesson learners should be able to: State what is meant by the habitable zone. Describe how we can communicate with aliens on other planets. Explain why the light we receive on Earth from a star / exoplanet can tell us about its elemental makeup.

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. By the end of the lesson learners will be able to: State what is meant by reaction time. Describe how technology is used in sport. Explain why technology saves lives during crashes.

All features work when used with google slides. All features should work with PowerPoint, but might need some rearranging. By the end of the lesson learners will be able to: Identify different ideas about the universe from different cultures. Describe the geocentric model of the solar system. Explain the reasoning for the geocentric model.

All features work when used with google slides. All features should work with PowerPoint, but might need some rearranging. By the end of the lesson learners will be able to: Recall how a radio signal is made. Describe how electromagnetic waves are used for communication. Explain the advantages of electromagnetic radiation.

Resource was intended for BTEC Applied Science Unit 1 Physics. The resource was designed on google slides and should work fine on powerpoint, it might just need some rearranging. Answer keys are included for all questions asked. By the end of the lesson learners will be able to: Identify what is meant by refraction. Describe the following during refraction: incident ray, refracted ray, normal, angle of incidence and angle of refraction. Using Snell’s equation calculate the angle of refraction.

A collection of revision resources for Pearsons combined science 9-1 edexcel specification: Physics paper 3. Sometimes referred to as Physics paper 1. The resources were originally produced on google slides, therefore, please open them using google slides in order to avoid alignment issues on powerpoint. Included in this collection are: Blank revision posters for the students to fill and consolidate their knowledge. Answer keys for the revision posters OR revision slides to complement the blank revision posters. Topics covered are: Section 17 Key concepts of Physics - Motion, Forces and Energy, Section 18 EM spectrum Section 19 Radiation The entire resource contains 69 slides.

By the end of the lesson learners should be able to: State what’s meant by power. Describe how power can be calculated. Explain why changing the time that energy is transferred in affects power.

By the end of the lesson learners should be able to: Identify different types of waves. Describe how to measure properties of waves. Compare constructive and destructive interference.

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 equipment needed for moving heat. Describe how altering the set-up of the system can lead to refrigeration or a heat pump being created. Use the coefficient of performance calculations for a heating system. 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.

A comprehensive lesson which teaches students about how IV graphs appear for fixed resistors, filament bulbs and diodes. The lesson also delves into the reasoning behind why these trends arise. Progress checks are available following each success criteria Tasks are differentiated to suit the needs of each learner. Learning objective: Use Ohm’s law to justify the trends seen in IV graphs for a fixed resistor, filament bulb and LED. By the end of the lesson learners should be able to: Success criteria: -Identify generally what happens to current as voltage increases. -Describe how to calculate resistance from a voltage-current graph. -Compare how the resistance changes with load in: fixed resistors, filament bulbs and diodes. Powerpoint contains 22 slides and a collection of past paper questions including the marking scheme.

A comprehension lesson that teaches students how to create and analyse Sankey Diagrams. The concept is introduced in the context of money to firstly engage the students (dirham currency is used as the students I taught were in the UAE, however, this should be fairly simple to understand as it is labelled below). Support sheets are also included to guide students should it be needed. Tasks are differentiated to suit the needs of each learner. Progress checks are placed after each success criteria checkpoint to assess understanding. By the end of the lesson students should be able to: Success criteria: I can critically analyse a Sankey diagram to identify quantifiable components. I can construct and adapt Sankey diagrams I can calculate efficiency of a system from its Sankey diagram. Learning objective: Develop and interpret Sankey diagrams to visualize and analyze complex data flows. Powerpoint contains 33 slides and a lesson plan is also attached.

A comprehension lesson that teaches students about: how factors contribute towards an objects density. How to calculate density, and how irregular shape density can be calculated. Progress checks are available following each success criteria Tasks are differentiated to suit the needs of each learner. Learning objective: Devise methods in order to calculate density of objects. By the end of the lesson learners should be able to: Success criteria: -State what is meant by mass. -State what is meant by volume. -Describe the term density. -Explain how to calculate density of regular and irregular shapes. Powerpoint contains 20 slides.