This is a fast paced broken down lesson that is aimed at students for grades 3 - 9. This lesson covers the objectives: I can describe what is meant by kinetic energy and how to calculate it. I can calculate kinetic energy in exam style questions and in a practical situation. I can re-arrange equations and apply ideas about kinetic energy to objects that move. The lesson has a jigsaw to start the lesson off to help students absorb key ideas. This gets copied in books after students have completed and lesson Objectives have been introduced. Has information to introduce students to what kinetic energy is. Modelling how to answer a question. (metacognition aspect). White board activity to assess students (individual and group). Practical. Students apply and use ideas learnt. true or false to score them and assess. Score is then directing students to different parts of a differentiated resource. Has a support sheet. Answer sheet - students to correct in green. Plenary.

This lesson is on Density. It its aimed at KS4 students but can be used for high able KS3 students. It has worksheets and assessment opportunities at the start, middles and during the lesson. The worksheets have model answers. It is has many metacogntive parts to this lesson.

This lesson is aimed at GCSE students graded 2 to 7. It is has a focus on collaboration/discussion with practical work. The practical is based on the card, glass and penny trick. Objectives. I can define newtons first law and calculate resultant force. I can describe newton’s first law of motion in objects and link ideas of resultant force. I can explain how inertia law applies to non familiar contexts and answer exam style questions on this. Quick quiz starter Definition and task encouraging students to think about it. Practical and paired/group task. Differentiated sheets on the PPT to print out. Model answers for task. Assessment. True or False with answers. Assessment will then dictate the questions students complete consequently differentiated. Questions with model answers. Plenary.

This a complete GCSE Specific Heat Capacity (SHC) lesson. It has key opportunities for assessment, metacognition when going through the calculation. All examples of calculations have model answers for green pen corrections. The practical is the standard SHC practical with a block and an immersion heater, then using the results to calculate SHC. The main worksheet is differentiated by the points that students start at, which is assessed by a true and false quiz based on objectives. The worksheet has model answers for green pen corrections. This is either a slow paced two part lesson (1 - six) or a high paced lesson (for a students grades 5 - 9). My students loved it

This is a whole lesson focusing on calculating magnification in Biology - from a do it now style starter, all the way through to a plenary. The lesson is fully differentiated with model answers. It has assessment built in assessment checkpoints. This lesson not only focuses on knowledge and execution of the calculation, but applies the ideas and gets the students to link it to real life. This lesson is also good for weaker AS level students before they complete harder magnification questions. Objectives: I can describe what is meant by magnification and resolution. I can carry out calculations involving magnification, real size and image size. I can also describe the differences between mm, um, nm. I can work out questions related to magnification by rearranging the formula. I can recognise when/how to change units in questions and how to use standard form. The lesson will: Introduce definitions and basic material. Get students to think and look at conversions of units. Students will then practice calculating magnification and teacher will model how to complete questions. Mini assessment. Quiz Assessment and reinforcement of key ideas Differentiated questions Bronze Silver Gold Model answers Plenary.

This lesson is all about how scale, units and standard form is used in Science. It uses ideas from microscopy, atoms and space and gets students to think about how scale, units and standard form can be used in science. The lesson is primarily used to prepare year 9’s for GCSE just before they start GCSE content. However it can be used for years 8 - year 11. Grades 2 - 8. Includes handouts, worksheets, differentiation, model answers, starter and plenary. The lesson is a two parter if the task on the solar system is completed. The lesson is designed to be engaging and interesting, incorporating many key ideas in science: the atom, solar system, microscopy, ways to go to calculate one unit to another. I can recognise what some science and mathematical prefixes are and appreciate scale I can describe how convert one unit into another for example metres to nanometres. I can explain how to convert numbers up (including in unfamiliar situations) and use standard form. Starter Discussion on measuring and scale Group and building solar system task based on measurements and scale. worksheet. Model answers and feedback plenary

This lesson is designed to be a guided intro (metacognition and modeling) to electricity so that students gain confidence on the practical skills before going into detail on electricity as a whole. This is aimed at KS4 but can be used at KS3. This lesson will cover: circuit symbols; drawing circuits properly; and building circuits from diagrams and text. This can be done as one fast paced lesson or a two parter. For students grade 1-5. This lesson is a two parter and anything higher one lesson. I have always found, of this lesson is completed well, teaching electricity is always slightly easier and student confidence with circuits is better. The lesson comes with differentiated resources, card sorts and enough material for an information hunt (as an alternative to the card sort or as supporting material) Objectives: I can state what some of the keywords are for the unit electricity. I can identify circuit symbols of components, describe what many do and draw simple circuit diagrams I can draw series and parallel circuits and build these circuits from circuit diagrams Lesson structure. Starter. Do it now style task. Lesson intro. Card sort or information hunt. (differentiated) Modeling circuit diagrams. (metacogntion: Me (teacher), Us, you) Building circuits (differentiated task) Plenary

This lesson can be used from mid to HA year 7/8/9 and also low to mid ability KS4. It contains worksheets and also capacity for assessment and whole group/individual progress tracking during the lesson. It also has the model answers within the ppt as well.