I am a secondary school & A-level Science teacher, specialising in Biology. I am also an experienced AQA GCSE Biology Examiner. My resources contain a mix of Biology, Chemistry and Physics lessons aimed at meeting specification points for the new AQA Trilogy GCSE course and KS3 Activate course.
All of my lessons include at least one opportunity for self-assessment, a range of activities to suit students of all abilities, a set of differentiated starter questions and a plenary.
I am a secondary school & A-level Science teacher, specialising in Biology. I am also an experienced AQA GCSE Biology Examiner. My resources contain a mix of Biology, Chemistry and Physics lessons aimed at meeting specification points for the new AQA Trilogy GCSE course and KS3 Activate course.
All of my lessons include at least one opportunity for self-assessment, a range of activities to suit students of all abilities, a set of differentiated starter questions and a plenary.
This bundle contains 57 whole lessons, along with all additional resources, which meet all learning outcomes within the complete Year 7 Activate Course, units include:
Biology:
B1.1 Cells
B1.2 Structure & Function of Body Systems
B1.3 Reproduction
Chemistry
C1.1 Particles & Their Behaviour
C1.2 Elements, Atoms & Compounds
C1.3 Chemical Reactions
C1.4 Acids & Alkalis
Physics
P1.1 Forces
P1.2 Sound
P1.3 Light
P1.4 Space
The resources were designed with the Year 7 Activate course in mind, it contains over 24 weeks worth of lesson content!! You can find more lesson bundles aimed for the KS3 and KS4 science curriculum at: https://www.tes.com/teaching-resources/shop/SWiftScience
All lessons contain a mix of differentiated activities, videos & animations, progress checks and more than two opportunities, per lesson, for self/peer red-pen assessment of tasks!
This bundle of resources contains 5 whole lessons, along with all additional resources, which meet all learning outcomes within the Year 7 P2 ‘Sound’ Unit.
Lessons include:
Waves
Sound & Energy Transfer
Loudness & Pitch
Detecting Sound
Echoes & Ultrasound
The lessons contain a mix of differentiated activities, videos & animations, progress checks and more than two opportunities, per lesson, for self/peer red-pen assessment of tasks.
This bundle of resources contains 7 whole lessons, along with all additional resources, which meet all learning outcomes within the Year 8 P2 1.1 'Energy’ Unit.
Lessons include:
Foods as Fuel
Energy Stores & Transfers
Energy & Temperature
Energy Transfers: Conduction & Convection
Energy Transfers: Radiation
Energy Resources
Energy & Power
Energy & Work
The lessons contain a mix of differentiated activities, videos & animations, progress checks and more than two opportunities, per lesson, for self/peer red-pen assessment of tasks.
This bundle of resources contains 7 whole lessons, along with all additional resources, which meet all learning outcomes within the Year 8 'Electricity & Magnetism’ Unit.
Lessons include:
Charging Up
Current & Charge
Resistance
Potential difference
Series & Parallel Circuits
Magnets & Magnetic Fields
Electromagnets
The lessons contain a mix of differentiated activities, videos & animations, progress checks and more than two opportunities, per lesson, for self/peer red-pen assessment of tasks.
This bundle of resources contains 8 whole lessons, along with all additional resources, which meet all learning outcomes within the Year 7 P3 ‘Light’ Unit.
Lessons include:
Light
Reflections
Refractions
The eye and The Camera
Colour
The lessons contain a mix of differentiated activities, videos & animations, progress checks and more than two opportunities, per lesson, for self/peer red-pen assessment of tasks.
This bundle of resources contains 4 whole lessons, along with all additional resources, which meet all learning outcomes within the Year 7 P4 ‘Space’ Unit.
Lessons include:
The Night Sky
The Solar System
The Earth
The Moon
The lessons contain a mix of differentiated activities, videos & animations, progress checks and more than two opportunities, per lesson, for self/peer red-pen assessment of tasks.
This bundle of resources contains 5 whole lessons, along with all additional resources, which meet all learning outcomes within the Year 7 P1 ‘Forces’ Unit.
Lessons include:
Introduction to Forces
Stretching & Squashing Forces
Friction & Drag Forces
Forces at a Distance: Non-contact Forces
Balanced & Unbalanced Forces
The lessons contain a mix of differentiated activities, videos & animations, progress checks and more than two opportunities, per lesson, for self/peer red-pen assessment of tasks.
This lesson is designed for the KS3 Year 8 Science course, specifically the P2 1.2 unit on ‘Motion & Pressure’.
More Biology, Chemistry and Physics resources can be found in my TES Shop: https://www.tes.com/teaching-resources/shop/SWiftScience.
All resources are included at the end of the presentation, thanks for looking, if you have any questions please let me know in the comments section and any feedback would be appreciated.
This bundle of resources contains 6 whole lessons, along with all additional resources, which meet all learning outcomes within the Year 8 P2 1.1 'Motion & Pressure’ Unit.
Lessons include:
Speed
Motion Graphs
Pressure on Solids
Pressure in Liquids
Gas Pressure
Levers
The lessons contain a mix of differentiated activities, videos & animations, progress checks and more than two opportunities, per lesson, for self/peer red-pen assessment of tasks.
This is a lesson aimed at the NEW AQA Trilogy 'Particle models of matter' SoW for the new Physics specification.
The lesson begins by recapping on the definitions of melting point, boiling point and freezing point. Pupils will also be asked to consider why salt is added to a pan of water or to roads which may become icy to get them thinking about how impurities can affect the melting/boiling point of a substance.
This then leads on to the introduction of a temperature-time graph demonstrating changes in state, pupils will need to sketch the graph and then match statements to the correct numbered step on the graph.
The next slide introduces the idea of latent heat, this will be explored in more detail in a separate lesson. In the next activity pupils will use data to produce a graph and then answer questions on the data they have produced.
The plenary activity is a past-paper question, mark scheme provided for pupils to peer-assess their work.
This lesson is designed for the NEW AQA Physics GCSE, particularly the ‘Forces in Action’ SoW.
For more lessons designed to meet specification points for the NEW AQA Trilogy specifications for Biology, Chemistry and Physics please see my shop: https://www.tes.com/teaching-resources/shop/SWiftScience
The lesson begins with an introduction to moments, using a spanner. Students are then introduced to the calculation - moment = force x distance from the pivot.
Students are then shown a worked example using the calculation, before being presented with a problem to solve themselves. Next, students are shown a diagram of a man pushing down on one side of a see saw, at the other side is a bag of money. This diagram is labeled to show the effort force, pivot and load.
Students are then given a worksheet on levers, students will need to identify the effort force, pivot and load in each of the diagrams and also match the key words to the correct definition. This work can be self-assessed using the mark scheme provided once it is complete.
The last two tasks are assessment tasks, firstly students will copy and complete the paragraph, using the key words provided, to summarise what they have learned this lesson. This can then be self-assessed using the mark scheme provided. Lastly, students are presented with a set of moment problems, using the calculation they learned at the beginning of the lesson students will need to work through these calculations. The mark scheme for this task is also included so students can self-assess or peer-assess their work.
Lastly, students will be shown a diagram of apparatus which can be used to investigate the turning effect of a force. Students are asked some questions about this investigation, they will then need to complete a ‘Quick Check’ task which will assess students knowledge of what they have learned this lesson. This task can then be self-assessed using the mark scheme provided.
The plenary task requires students to copy and complete a sentence starter to summarise what they have learned this lesson.
All resources are included at the end of the presentation, thanks for looking, if you have any questions please let me know in the comments section and any feedback would be appreciated
The plenary task requires students to write a Whatsapp message to summarise what they have learned this lesson.
All resources are included at the end of the presentation. Thanks for looking, if you have any questions please let me know in the comments section and any feedback would be appreciated :)
This lesson is designed for the NEW AQA Physics GCSE, particularly the ‘Radioactivity’ SoW.
For more lessons designed to meet specification points for the NEW AQA Trilogy specifications for Biology, Chemistry and Physics please see my shop: https://www.tes.com/teaching-resources/shop/SWiftScience
This lesson begins with an introduction to some key terms, including ‘activity’ and ‘count rate’, students can take notes from the board so they have the key definition in their books. Next students will be introduced to the idea of a ‘half-life’, students will be given the definition and shown a graph and a diagram to help illustrate this concept.
Students will then have an opportunity to investigate whether the radioactive is random or predictable, students will be given a coin in pairs and will be asked to flip it 20 times. Can you predict the outcome of the next flip? What was the rough ratio of coins flipped head:tails? This investigation demonstrates that the process of radioactive decay is random but with a large enough sample it is possible to predict the number that will decay in a certain amount of time.
Students will then be shown how to complete half-life calculations using a worked example, before students are given a set of problems to work through. The mark scheme for this work is included in the PowerPoint for students to assess their work.
Pupils are given another worksheet of problems to work through, students must show their working at all time. This task can also be self-assessed or peer-assessed using the mark scheme included in the PowerPoint.
The last task requires students to fill-in-the-blanks on a paragraph which summarises what they have learned this lesson. The answers to this task is also included so students can mark and correct their own work…
The plenary task is for students to write a set of summary sentences about what they have learned this lesson, including as many key words as possible from the list provided.
All resources are included at the end of the presentation. Thanks for looking, if you have any questions please let me know in the comments section and any feedback would be appreciated :)
This lesson is designed for the NEW AQA Physics GCSE, particularly the ‘Radioactivity’ SoW.
For more lessons designed to meet specification points for the NEW AQA Trilogy specifications for Biology, Chemistry and Physics please see my shop: https://www.tes.com/teaching-resources/shop/SWiftScience
This lesson begins with a recap on background radiation, students need to create a mind map in their books of the different source of background radiation. Once this task is complete students can mark their work against the answers provided. This is followed by a task whereby students will complete a worksheet about background radiation, the mark scheme for this task is included so students can self-assess their own work.
Next, pupils will need to recap their knowledge of the dangers of alpha, beta and gamma radiation. Students will need to copy and complete a table which summarises the dangers of these three types of radiation, inside and outside the body. Students can self-assess this task once it has been completed, using the mark scheme provided.
The next part of the lesson focuses on radioactive waste, firstly students are given some information about the type of waste that is produced by a nuclear power plant. Students will then watch a video on the topic, during which they will need to answer a set of questions. This work can be marked and corrected using the answers provided.
Students are now shown information about Chernobyl and Fukishima, two videos on the topics help to demonstrate the ideas written on the PowerPoint presentation. This is followed by some details of designs for new nuclear reactors which will be built in the next 20 years, students need to understand the advances made in safety and design for third-generation nuclear reactors.
Lastly, pupils will complete a set of exam-style questions on radioactivity. This work can be self-assessed using the mark scheme provided.
The plenary requires pupils to come up with questions for a set of answers that are provided on the PowerPoint.
All resources are included at the end of the presentation. Thanks for looking, if you have any questions please let me know in the comments section and any feedback would be appreciated :)
This homework activity is designed for the KS3 Science Course, specifically Year 8 B2.1 Module on ‘The Periodic Table’
For more lessons designed for KS3 and KS4 please visit my shop at: https://www.tes.com/teaching-resources/shop/SWiftScience.
This activity contains a set of differentiated questions, it also includes additional extra challenge tasks for higher ability students to complete. This worksheet could be used as a homework or as an extension/revision activity in class.
I have included a comprehensive mark scheme for teacher or self-assessment of the work, there are also details of grade boundaries which I use to RAG pupils work, a full explanation of how I do this is included.
Thanks for looking, if you have any questions please let me know @swift_science_education or swift.education.uk@gmail.com, any feedback would be appreciated :)
This homework activity is designed for the KS3 Science Course, specifically Year 8 B2.1 Module on ‘Energy’
For more lessons designed for KS3 and KS4 please visit my shop at: https://www.tes.com/teaching-resources/shop/SWiftScience.
This activity contains a set of differentiated questions, it also includes additional extra challenge tasks for higher ability students to complete. This worksheet could be used as a homework or as an extension/revision activity in class.
I have included a comprehensive mark scheme for teacher or self-assessment of the work, there are also details of grade boundaries which I use to RAG pupils work, a full explanation of how I do this is included.
Thanks for looking, if you have any questions please let me know @swift_science_education or swift.education.uk@gmail.com, any feedback would be appreciated :)
This homework activity is designed for the KS3 Science Course, specifically Year 8 B2.1 Module on ‘Motion & Pressure’
For more lessons designed for KS3 and KS4 please visit my shop at: https://www.tes.com/teaching-resources/shop/SWiftScience.
This activity contains a set of differentiated questions, it also includes additional extra challenge tasks for higher ability students to complete. This worksheet could be used as a homework or as an extension/revision activity in class.
I have included a comprehensive mark scheme for teacher or self-assessment of the work, there are also details of grade boundaries which I use to RAG pupils work, a full explanation of how I do this is included.
Thanks for looking, if you have any questions please let me know @swift_science_education or swift.education.uk@gmail.com, any feedback would be appreciated :)
This lesson is designed for the NEW AQA Physics GCSE, particularly the ‘Forces in Action’ SoW.
For more lessons designed to meet specification points for the NEW AQA Trilogy specifications for Biology, Chemistry and Physics please see my shop: https://www.tes.com/teaching-resources/shop/SWiftScience
This lesson begins with an introduction to force diagrams, students are given some information about how arrows can show the direction and size of forces acting upon an object. Students will then need to add force arrows to a diagram of a brick falling, this task can then be checked against the answer provided.
Students are now shown a ‘Tug of war’ diagram, students are asked to ‘Think > Pair > Share’ their ideas about which side would win and why. After a short class discussion, students are now introduced to the idea of balanced and unbalanced forces, using ‘tug of war’ images as examples. Students are then given some information outlining how the motion of an object is affected by balanced/unbalanced forces acting upon it.
Students will now complete a forces circuit to consider the type and size of forces acting upon different objects in the circus, students will need to identify the type/size of the forces and decide whether they are balanced or unbalanced. This task can be self-assessed once it is complete.
Students will now be introduced to the definition of resultant forces, and will be shown some examples of how to calculate resultant force using ‘tug of war’ examples again.
Students will now complete a couple of tasks to assess their knowledge of what they have learned so far on resultant forces, both tasks can be self-assessed using the mark scheme provided in the PowerPoint presentation.
Lastly, students are shown how to draw ‘Free-body Force Diagrams’, an example is given before students are asked to draw their own onces using the two scenarios provided. The work can be marked and corrected using the mark scheme provided.
The plenary task requires students to write a Whatsapp message to summarise what they have learned this lesson.
All resources are included at the end of the presentation. Thanks for looking, if you have any questions please let me know in the comments section and any feedback would be appreciated :)
This lesson is designed for the KS3 Year 8 Science course, specifically the P2 1.2 unit on ‘Energy.
The lesson begins with a ‘Think > Pair > Share’ task whereby students are asked to think about why explorers need some large quantities of energy? What foods would provide them with such daily energy requirements? Students should have the covered the ‘Diet & Nutrients’ topic in Biology by this point, so after a short discussion in pairs they can feed their ideas back to the class and the answer can be revealed.
Students will now be provided with a set of food labels, if possible they should also be allowed access to the Internet via phones/laptops, using these tools students should estimate their daily energy intake, compare this with others and then make a list of all the ways their body might use this energy.
This follows into a task whereby students will look at activities, students will need to place these activities in order from most energy intensive to least energy intensive. Once complete, students can assess their work against the answers provided in the PowerPoint presentation.
Students are now provided with a set of data on the energy required to perform a range of activities for one hour. They will firstly need to plot this data onto a bar graph, they will also need to answer a set of questions. The mark scheme for this task is included in the PowerPoint presentation so students can self-assess their work once it is complete.
Lastly, students will complete an investigation into the energy content within food. The practical worksheet is included, students can collect the equipment listed and follow the steps in the method to fill in the results table in their books. Once complete, students should answer the summary questions.
The plenary task requires students to write a twitter message to their friends, including #keywords.
All resources are included at the end of the presentation, thanks for looking, if you have any questions please let me know in the comments section and any feedback would be appreciated :)
This lesson is designed for the KS3 Year 8 Science course, specifically the P2 1.2 unit on ‘Energy.
The lesson starts with students asked to ‘Think > Pair > Share’ their ideas about what the difference between heat and temperature is. Students can discuss and then feed their ideas back to the class, the answers can then be revealed using the PowerPoint presentation.
Students will now watch a video, recapping on particle theory, whilst watching students will need to answer a set of questions, this task can be marked and assessed using the mark scheme included in the PowerPoint presentation.
Next, students are asked to consider what affects the amount of energy stored in something. Students will be given an example of a glass of water and a swimming pool full of water, both at 28 degrees celsius. Once students have had a chance to discuss, the answers will be revealed and students will then need to complete a set of questions on this topic. The answers for this task are included so students can self-assess their work using the mark scheme provided.
Lastly, students are asked to sort a a set of diagrams out from those that will store the most amount of heat energy to those that will store the least amount of energy, given the description.
The plenary task requires students to pick a plenary - either summarise what they have learned in three sentences or write a list of definitions for a set of key words included.
All resources are included at the end of the presentation, thanks for looking, if you have any questions please let me know in the comments section and any feedback would be appreciated :)
This lesson is designed for the KS3 Year 8 Science course, specifically the P2 1.2 unit on ‘Energy.
The lesson begins with an introduction to the law of the conservation of energy, students are told that energy cannot be created or destroyed but it can be stored and transferred. Next, students are introduced to the five main energy stores, students are asked to match the correct names to the photos displayed. This task can then be self-assessed using the mark scheme provided.
Next, students are introduced to the ways in which energy can be transferred - via light waves, sound waves and electricity. They will be shown an energy transfer diagram, depicting the energy transfers which take place within a torch. Once students have seen the complete diagram, they will then have a go at completing it themselves, using the statements provided. This task can the be marked against the mark scheme provided.
Students will then complete two further energy diagrams to display the energy transfers taking place within a candle and TV. The answers to this task are also included in the PowerPoint presentation so students can self-assess their work using the mark scheme provided.
Lastly, students will complete an investigation into the height a ball bounces back up to after it has been dropped from a height. Students will work in groups of three, following the instructions provided on the PowerPoint to complete the results table provided. Students will then need to answer a set of questions using the data they collected from the investigation. This can be self-assessed using the mark scheme provided.
The plenary task requires students to complete one of the sentence starters, to summarise what they have learned this lesson.
All resources are included at the end of the presentation, thanks for looking, if you have any questions please let me know in the comments section and any feedback would be appreciated :)