Aimed toward BTEC nationals level 3 Applied science Unit 2 assignment C. Learners will be able to: Identify equipment needed to extract leaf pigments. Describe how to interpret a chromatogram. Suggest possible improvements to chromatography.

A resource used for BTEC Applied science Nationals level 3 - Unit 2 assignment D. By the end of the lesson learners will be able to: Identify areas for development when calibrating a thermometer. Describe how to improve the method of calorimetry. Explain why melting point apparatus is used in industry.

Lessons created to complement the activate 3 unit of work - Detection in biology. By the end of the lesson learners should be able to: Identify factors that can be investigated from a body. Describe the role of a pathologist. Compare dental records to bite marks.

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 the changes after the Big Bang. Describe the timescale of the universe. Explain why the universe is expanding.

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 should be able to: Solve to identify resultant forces. Describe how a resultant force affects the object. Create free body diagrams / vector diagrams.

A resource used for BTEC Applied science Nationals level 3 - Unit 2 assignment B. By the end of the lesson learners will be able to: Construction and interpretation of cooling curves: • temperature as a function of time • rate of cooling from the gradient of the tangent to the cooling curve • determination of melting point from the shape of a curve for a substance freezing • super cooling • shape of the curve and rate of cooling in relation to intermolecular forces and the state (solid or liquid) of the substance.

This lesson was created for unit 1 BTEC Applied Science physics. It contains past paper questions and answers relevant to the material covered. By the end of the lesson learners should be able to: Identify and link absorption, promotion and demotion, emission. Describe how gaseous materials can be made to show emission spectra. Explain why different colours are seen in the emission spectrum. Video links are embedded in the slides on google sheets, therefore, the resource would work optimally on google sheets as opposed to powerpoint.

A collection of 4 revision posters that summarises the content needed for unit 1 Physics Applied Science Pearsons Edexcel level 3. The following concepts are covered: Transverse and longitudinal waves, Wave speeds and tension on strings, Diffraction gratings, Standing waves, String harmonics, Snell’s law of refraction, Fibre optics and endoscopes, Applications of fibre optics, EM spectra and communication, Emission spectra. The revision poster includes blank versions and answer keys.

Resource prepared for BTEC Applied science Level 3 - Unit 3. By the end of the lesson learners should be able to: Identify circuit symbols. Describe how energy usage can be calculated. Explain why fuses are used.

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 Hooke’s law and identify limits of proportionality and plastic deformation on a graph. Describe how to calculate Young’s Modulus from a tensile stress-strain curve. Explain why rubber is effective at cushioning shocks. 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 streamline and turbulent flow. Describe what contributes to streamline and turbulent flow. Justify why viscosity is a factor that affects the flow of a fluid. 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: Identify the forces working during a crash. Describe how the reduce the crashing force. Explain why crumple zones and slower driving cause less damage during a crash.

By the end of the lesson learners should be able to: Identify short, medium and long wavelength waves in the EM spectrum. Describe how these waves are used. Explain why the use of short wavelengths are controlled.

A self-explanatory resource to show the formation of sedimentary rocks. The questions are scaffolded and differentiated - use the version of the questions required for your class. This resource also includes some filler tasks to use when needed.

A self-explanatory lesson explaining the green house effect, global warming and climate change. Ideal for KS3 students and could be used for lower ability GCSE students. Questions are scaffolded to ensure access for all students. Filler tasks at the end of the PPT to use when needed.

A comprehensive lesson that teaches students the difference between renewable and non-renewable energy resources. 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: Success criteria: Define renewable and non-renewable energy sources and list examples Describe the difference between renewable and non-renewable energy resources Explain how electricity is generated in a power station Learning objective: Investigate the differences in types of energy resources and evaluate the importance of some over others. Powerpoint contains 18 slides.

A comprehensive lesson which teaches students the basics of what makes an isotope and how relative isotopic mass can be calculated. By the end of the lesson learners should be able to: State what is meant by an Isotope. Describe how to calculate the relative atomic mass. Work backwords to calculate the relative abundance. Plenary checkpoint style question is used to assess understanding.