Comes attached with QCA Science level descriptions. I found this very helpful when SLG insisted on levelled objectives and evidence of lesson structure, as I could quickly add a scheme of work and adjust it to suit my needs. It gradually swelled as the year went past. Now I only have to tinker my lessons! Hope it helps. Any suggestions, please leave a comment. I can take it *sob.

These are just simple homework sheets to help with definitions. More to be added as I do them. I found they worked well at the end of a unit and just reiterated some of the main keywords expected at KS3. Obviously these can be catered for different classes and abilities. Hope they help. If you have any suggestions, leave a comment. I can take it *sob.

A powerpoint lesson on convection. Objectives: To define heat transfer by convection To describe an example of convection To explain why convection happens Includes: Starter Potassium Permanganate Demo Definition Examples Gap exercise Application with Convection heater True or False

For OCR Applied Science A-level - Working Waves External Assessment unit G635. In this pack is a large (very large) powerpoint covering each statement in the specification (one statement per slide generally). The optical fibre stuff gave me a headache so apologies if I'm missing anything. I've also included some exam questions interspersed with the relevant markschemes for revison purposes, taken from Exam papers 2011 to 2014.

A simple lesson which helps students think about science in the past, present and the future. It helps them determine which of the three "umbrella" disciplines (Bio, Chem, Phys) and allows them the choice of activities. I used this as an end of term filler lesson and it worked well with year 7 & 8 (especially the fact or fiction activity) To note: The past is everything they currently study, the present is the fact or fiction activity at the end. The future is a posed question in the plenary, as we don't know what the future of scientific discovery is, though it may prompt some nice discussion.

What you get for your money: A revision calendar from 1st Sept to July 2015 AQA Science A Core & Additional content statements in a numbered list for each unit. As the title suggests, a simple excel revision calendar for year 11 2015 to 2016 cohort. It includes all the AQA content statements and works on the basis that students study one statement from each discipline a night. It provides structure for students who simply don't know where to start, tells them what to revise and when. Useful from the beginning of the year, but if you're coming to it later, adjust the dates/statements to match the time left. AQA exam dates and holidays are marked on, and obviously can be changed to suit timeframe needs. ALSO, if the calendar isn't for you but you are looking for a complete microsoft friendly list of AQA specification content statements for core and additional science, then this is for you; just copy and paste. Best printed on A3 but will fit on A4 double sided, if you don't object to small font.

A straightforward lesson on power equation, running costs and power ratings with lots of calculation practice. There is a supporting powerpoint and a worksheet differentiated D to C/C to A included which provides further examples.

A powerpoint lesson on the Hertzsprung-Russell Diagram, Binary Stars, and nuclear fusion.

My assignments and a summary of the course content for planning purposes for Unit 44 Astronomy BTEC Level 3. Useful if you are looking for a starting point for your own assignments or you simply don't have the time to write brand new work. In this resource you get: 6 complete assignments which have passed external moderation A summary of the course content A short test on the solar system Notes on the effects of space travel on human beings Spectral Class information A homework activity on space observatories A worksheet on sun structure A worksheet on origins of the universe

A GCSE Physics lesson on terminal velocity with differentiated worksheets and practical activity (will need equipment) based on a class of 24 pupils in 4 groups. It's busy, mucky, and, like all good physics lessons, they've got to work stuff out. MUST: Identify forces on a falling object in a fluid SHOULD: Use force diagrams to show how force changes during a fall/describe changes COULD: Explain terminal velocity/in terms of resultant force/Interpret v/t graphs Powerpoint is to provide structure to the lesson and includes the plenary. I recommend embedding the online stopwatch. Starter – individual (Grade C) entry question based on previous lessons Task 1: Experiment – groups, roles in groups, (calculations v=d/t + mean) B- A grade Task 2: Group 4 – Aristotle worksheet (B grade) – less wordy task Group 3 – Galileo worksheet (B to A grade) – task includes acceleration calculations Group 2 & 1 – Newton worksheet (A grade) – focuses on graphs only Plenary  Exam question – individual, self-assess.

A lesson for AS Physics students which covers density equation, pressure in solids, liquids and gases, upthrust, and archimedes principle. There are practice exam questions to check learning (with answers).

A powerpoint lesson on relative motion for KS3 Physics Learning Objectives: To describe what relative motion is To plot a distance time graph and use it to calculate the relative speeds of objects To calculate the relative motion of various objects Includes Starter Concept animations Explanations with examples Calculations of delta-v with graphs Supporting questions with answers Differentiated Plenary

A lesson on speed and velocity for AQA EDEXCEL OCR specifications GCSE Physics. Lots of examples in the powerpoint and a worksheet for challenge, extra practice, or simply homework. I've also included an investigation planning sheet for testing height of ramp on toy cars. Objectives 1. To know the correct units to apply 2. To be able to calculate and rearrange s=d/t 3. To explain the difference between speed and velocity What you get for your buck: A supporting powerpoint A nice picture of a Saleen S7 twin turbo (lovely. Yellow, but lovely) A short history on what we consider fast (in ppt) Oodles of calculation examples and practice (in ppt) A nice interactive slide with moving blocks (you'll need a stopwatch) (in ppt) More calculations (in ppt) An explanation of speed versus velocity More calculations (in ppt) A scaled worksheet with the answers separate for homework, practice etc. You could differentiate by giving the students: A speed investigation proforma (they plan the test given the question - independent learning task) That should keep them busy for an hour ;) Have fun

A festive powerpoint lesson on physics equations for GCSE students. Ten taxing questions and some fun nerdy facts about Santa to keep those physics classes busy before christmas. Excellent end of term lesson for higher sets or just to fill a gap. There's even a *unit to value* starter. All answers are revealed on the slides. Equations are: v=d/t, a=(v-u)/t, W=mg, f=1/t, E=mgh, Ek = 0.5mv2 - rearrangement to v F=ma I=V/R E=QV Q=It

A lesson on scalar and vector quantities, outlining the definitions, in preparation for GCSE physics. Physics units starter Supporting powerpoint with problems and examples Worksheet identifying scalar and vector quantities Calculating Fnet worksheet on parallel vectors Challenge worksheet (good for extension, homework, differentiation)

A powerpoint lesson with diagrams, worked examples, and questions for AS Physics students studying OCR A.

A grade laddered lesson with lots of calculations with practice exam questions at the end. Order of business... Starter - match the energy type Draw energy transfer diagrams Calculate energy conservation Calculate efficiency Use Sankey diagrams Exam questions Print slide 22 or the attached worksheet files

A lesson on wave interference and application in everyday life for KS3 students or low-level KS4 students. Comes with a plan, a complete powerpoint, and the accompanying worksheet. Learning Objectives Suggest what happens when 2 waves combine. Apply the concept of interference in everyday life. Evaluate how to reduce interference in sound waves.

A lesson for AS Physics students covering triangle of forces, with notes, examples and questions

Designed for an OCR A Physics lesson, this powerpoint has accompanying activities as well as exam practice questions. Covers: Acceleration, g, of free fall concept. Techniques and procedures used to determine the acceleration of free fall in the laboratory using trapdoor and electromagnet arrangement or light gates and timer.