By the end of the lesson learners should be able to: Identify the trends in atomic radius across a period. Identify the trend in atomic radius down a group. Describe the trend in melting points across a period. Explain why this trend occurs by mentioning the types of bonding. Suitable for KS5 students (Yrs 17-18)

By the end of the lesson learners should be able to: Identify the: Dalton, Thomson and Rutherford models of atoms. Describe how each of the models came about. Explain why Rutherford’s experiment proved that atoms are made mostly of empty space.

By the end of the lesson learners should be able to: •Identify the elements within periods 2 and 3. •Describe how periods 2 and 3 will react with Oxygen. •Explain the formula, state and structure of each element in period 2 and 3.

By the end of the lessons learners should be able to: Identify the 3 allotropes of carbon. Describe how the atoms of carbon are arranged in the allotropes of carbon. Explain the properties of the allotropes of Carbon.

A simple to follow KS4 (Yrs 14-16) lesson describing the properties of Ionic compounds. **By the end of the lesson learners should be able to: ** Recall ionic compounds. Describe the properties of Ionic compounds. Explain why Ionic compounds have these properties.

A comprehensive lesson which teaches students about the noble gases and their chemical properties. There are links to KS4 included where students explain the reasoning for being non-reactive in relation to the electron shells. Learning objective: To explore the trends seen in group 0 and explain their reactivity. By the end of the lesson learners should be able to: Identify Noble gases. Describe the properties of Noble gases. Explain why Noble gases are used for double glazing and Neon Lights. Suitable for KS3 (yrs 11-14) and KS4 (yrs 14-16) Slides are marked. 10 slides are included in the powerpoint.

By the end of the lesson learners should be able to: Identify the key products made from a metal acid reaction. Identify the key products made from a metal carbonate acid reaction. Describe what’s meant by an ionic equation. Explain how OILRIG can be used.

A self-explanatory lesson explaining the process of recycling materials and why people are choosing to recycle. Scaffolded questions are used to ensure all learners can access the material.

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: Identify waste products that would be released from a car exhaust. Describe using word equations how waste products are broken down in an exhaust. Explain why catalytic converters are needed in a car exhaust system.

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: Identify the structure of some nanomedicines. Describe how nanoparticles are used in medical treatments. Explain why nanomedicine might be used instead of traditional medicine.

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.

Created for BTEC Applied Science Nationals Extended Diploma level 3. Unit 4 assignment B. This lesson gives guidance on how to make an ester (ethyl-ethanoate) in a laboratory.

A comprehensive collection of materials needed to deliver the entire activate 3 (for year 9) curriculum. Although the SoW states that GCSE content can be delivered in term 3, there is enough content in this pack to last the final half term. Materials were prepared using google docs / slides - to prevent formatting issues, please open the resources using google slides instead of powerpoint. The materials include: A fully written scheme of work. Full lessons for each lesson / concept. Revision mind maps for end of units. GAP tasks to consolidate learner knowledge. It does not include due to copyright infringements: The end of unit tests for activate 3.

A comprehensive collection of materials needed to deliver the entire Pearsons Edexcel Applied Science National Foundation Diploma Level 3. The materials include: A fully written scheme of work. Full lessons for each lesson / concept. A unit grade calculator based on the Edexcel grade calculator online that will easily let you calculate final grades for students. Revision mind maps for end of unit (for examined unit 1) The units covered in this scheme are: Year 12 units are: Principles and application of Science for Biology chemistry and physics. Practical Scientific procedures and techniques. Science Investigation skills Laboratory techniques and their application. Year 13 units are: Physiology of human body systems. Human regulation and reproduction It does not include due to copyright infringements: Assignment briefs, assessment records, IV documents. These are all freely accessible on the Edexcel Website.

Learning Objectives: To understand that distillation can be used to separate a liquid from the solids, which are dissolved in it. To explain how distillation occurs. To explain how Condenser works to distill a solvent from a solution.

By the end of the lesson learners should be able to: •Identify the equipment needed to perform chromatography. •Describe how substances react to chromatography. •Explain why chromatography is used by the police.

By the end of the lesson learners should be able to: Identify the 2 intermolecular bonds. Describe how London / Van-Der-Waals forces are formed. Describe how permanent dipole / Hydrogen bonds are formed. Compare the strength of Van-Der-Waals and Hydrogen bonds. This lesson is aimed toward KS5 students (Yrs 16-18)

By the end of the lesson learners should be able to: •Identify the S, P and D blocks. •Describe what is meant by an ionisation energy. •Explain why the ionisation energy changes through groups and periods.