This lesson is designed for the NEW AQA Trilogy Physics GCSE, particularly the 'Molecules & Matter’ 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 radiation, firstly looking at background radiation. Students are given some time to discuss on their tables, the sources of background radiation. After students have fed into a class discussion the answers can be revealed on the PowerPoint. Next, students are shown some data on the sources of background radiation. Students will be required to answer a set of questions about this data, they can complete the work in their books and the mark scheme is provided on the PowerPoint. Next, students are introduced to Marie Curie and her work towards radioactivity. The students will be given a list of questions and they will need to answer these using the video, the answers to which are then included so students can self-assess their work. Students will then be asked to consider the safety rules when dealing with an radioactive substances before a teacher demonstration is carried out using a Geiger-Muller counter. Student are asked to observe the demo and also record their observations and answer a set of questions. This can then be marked using the mark scheme provided. The last task requires pupils to complete a summary worksheet on radiation, this work can be self-assessed using the mark scheme provided. The plenary activity is an exit card, students will need to write down three things they learned during the lesson, five key words and one questions to test their peers knowledge of the lesson content. 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 Trilogy Physics GCSE, particularly the 'Molecules & Matter’ 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 Firstly, students are asked to ‘Think > Pair > Share’ their ideas about how a gas exerts pressure upon a surface. Students will need to discuss their ideas within groups before feeding back the class, the explanation can then be revealed using the PowerPoint presentation - including a diagram. Students will then watch a video on gas pressure and temperature, students will need to answer a set of questions whilst watching the video. Once this has been completed students can self-assess their working using the mark scheme provided. Students are now shown some information on an investigation into the effect of temperature on gas pressure, using the PowerPoint presentation. Students will need to read the information and and answer questions on a worksheet, this work can then be self or peer assessed using the mark scheme provided. Lastly, students are now given an information sheet about observing random motion of gas particles using a smoke within a smoke cell. Students will be given a set of questions that they will need to answer after reading the information sheet, they can work together in pairs. The mark scheme for this task is included in the PowerPoint so students can assess and correct their work once this is complete. The plenary task requires pupils to complete a set of 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 :)

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 of the three main types of radiation: alpha, beta and gamma radiation. Students will firstly be asked to draw and label a diagram to show how each of these types of radiation can be stopped. Students will then be given some information about the penetrating power of these three types of radiation, using the information and their own knowledge students will need to complete a summary worksheet. Once this has been completed students can self-assess their work using the mark scheme provided. The next part of the lesson will focus on the dangers of radiation, firstly students will be shown a teacher/technician demonstration of the different types of radiation, outlining some of the dangers and precautions taken when handling radioactive sources. Students can complete a table of information on the relative dangers of these radioactive sources whilst watching the demo. This work can self-assessed against the mark scheme provided once it is complete. Next, pupils are asked to ‘Think > Pair > Share’ ideas about how scientists/workers can protect themselves against the hazards of ionising radiation. After a short class discussion the answers can be revealed for students to check their work and take extra notes if necessary. Lastly, students are asked to think about the uses of radiation, they will be given a list and they will need to determine which are real uses of radiation. The real uses of alpha, beta and gamma radiation can then be revealed on the PowerPoint presentation - students can check their answers and take notes on extra uses. The plenary task is for students to talk to the person next to them for one minute about 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 Trilogy Physics GCSE, particularly the 'Electricity’ 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 the structure of the atom, students will be asked to identify the sub-atomic particles on a digram of an atom. This then leads into a task whereby students are asked to label a diagram of an atom and complete a fill-in-the-blank task, the answers to this are included in the PowerPoint presentation. Next, students will complete a ‘memory test’ task where they will be given some information about the charges and relative masses of an electron, proton and neutron. They will be given a short time to remember this information before then having to copy it up from memory, their work can then be self-assessed using answers provided. Students will now complete a mid-lesson progress check to assess their understanding of what they have learned so far this lesson. The next part of the lesson focuses on static charge, students will firstly watch a video about static electricity, during which they will need to answer a set of questions. Once complete this work can be self-assessed using the mark scheme provided. Next, students will complete a fill-in-the-blank tast to summarise what they have learned so far, this work can also be self-assessed using the answers provided. The PowerPoint moves on to then explain how static charge is a non-contact force and a diagram is shown of an electric field of a charged object, students need to understand how two objects with opposite charges are attracted to each other. The final task is a past-paper question on the topic of static charge, students can complete this task on the worksheet provided (higher ability students may want to complete this without their notes) and then the task can be self-assessed using the mark scheme. The plenary task requires pupils to write a Whatsapp message to their friends explaining 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 is a lesson aimed at the new AQA Physics GCSE module on 'Energy'. For more lessons within this series please visit my shop: https://www.tes.com/teaching-resources/shop/SWiftScience The lesson begins by introducing the concept of 'work done', by using the example of a person pedalling a bike. The first task the pupils will need to complete is to produce a mind map on activities which require work to be done in order something to happen. Pupils are then shown the equation to calculate work done and they can work through a model question. You can work through this question with pupils on the board or ask them to try and complete it in their books, then self-assess the work. The main activity for this lesson is a practical activity, the method for this practical is included in the PowerPoint presentation. Pupils will drag a wooden block across the desk a measured distance, the wooden block will be dragged initially with no elastic bands around it and then with one elastic band and finally with two elastic bands. Pupils will measure the force applied to drag the block using a Newton meter and record their results in a table (table included at the end of the PowerPoint). Using the measured distance and the force applied pupils can then work out the work done to drag each type of wooden block. The plenary activity is for pupils to complete a couple more work done calculations. All resources are included in the PowerPoint presentation.

This lesson is designed for the Activate KS3 Science Course, specifically Year 7 P3 ’Light’. For more lessons designed for KS3 and KS4 please visit my shop at: https://www.tes.com/teaching-resources/shop/SWiftScience. Students are firstly introduced to the idea of ‘white light’ being split up into the colours of the rainbow. They are then shown a diagram of a ray of white light hitting a prism, which then leads to the refraction of this light - showing the colours of the rainbow from red to violet. Students can sketch a diagram of this into their books, indicating the most refracted and least refracted colours. Students are then shown a diagram which indicated how primary colours can be mixed together in various combinations to make secondary colours. The next part of the lesson, students will focus on how we observe different coloured objects. White light will bounce off an object, the colour the object appears depends on the colour of light that it reflects. Various diagrams are shown to students to demonstrate this point, they could sketch a copy of one of the diagrams or draw their own version in their books. They are then given a worksheet to assess their knowledge of what they have learned so far this lesson, extension questions are included for higher ability students. This work can be self-assessed using the mark scheme provided once it is complete. Students are now shown what happens to the appearance of objects when they are seen in coloured light rather than white light - coloured objects will only reflect the colour it is and will absorb any other colours - which means it appears to be black. Lastly, students are shown how filters are used to subtract light. Students will then complete a progress check to assess their knowledge of what they have learned this lesson, the mark scheme for this task is included on the PowerPoint. Students can then self-assess their answers using the mark scheme provided. The plenary requires students to write down 3 facts from the lesson, 3 key words and 1 question to test their peers knowledge of what they have learned. 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 ‘Motion & Pressure’. More Biology, Chemistry and Physics resources can be found in my TES Shop: https://www.tes.com/teaching-resources/shop/SWiftScience The lesson begins with a a ‘Think > PAir > Share’ task, students are provided with some information about ice road truckers, students are asked to consider whether the job of an ice road trucker is too risky. Students are also asked to discuss the meaning of the term ‘pressure’ - after a short class discussion the definition for the term ‘pressure’ will be revealed to students, they can make a note of this in their books. Students are now introduced to the formula for pressure (pressure = force / area), using this formula students will complete a couple of tasks where they will work through a set of pressure problems. Once complete this task can then be self-assessed using the mark scheme provided. Students will now complete an activity where they will work out the pressure they exert on the ground. Lastly, students will complete a ‘copy and correct’ task, they will be given a paragraph of information related to what they have learned this lesson. They will need to copy it out, correcting any parts they believe to be wrong. This task can the self-assessed using the mark scheme provided once it is complete. The plenary task requires students to complete an ‘exit card’ to summarise what they have learned this lesson, the exit card will include three key words, one fact and one questions for students to test their peers knowledge of what was 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 Activate KS3 Science Course, specifically Year 7 P2 ’Sound’. For more lessons designed for KS3 and KS4 please visit my shop at: https://www.tes.com/teaching-resources/shop/SWiftScience. Students will firstly be introduced to the main features of a wave - amplitude, frequency and wavelength. Students can sketch a diagram of a wave into their books and take notes on the main features. Students are now introduced to transverse and longitudinal waves, students will need to know the differences between the direction of the oscillations of these two waves. Students are then asked to discuss how a ‘slinky’ could be used to demonstrate these two waves, after a short class discussion students can be shown an animation to demonstrate how a slinky shows these two types of wave. Students will now get into groups and come up with a short role-play to demonstrate the differences between these two waves. Students will now complete a progress check where they will need to copy and complete a paragraph to summarise what they have learned so far this lesson. This task can then be self-assessed using the mark scheme provided. A diagram of a longitudinal wave which shows the differences between rarefactions and compressions is shown to students, they will then need to answer a set of questions. The answers to this task are included in the PowerPoint so students can self-assess their work once it is complete. Next, students will need to ‘Think > Pair > Share’ their ideas about what happens when two or more waves join together. Students can discuss their ideas first before being shown a video demonstrating the process of superposing waves. Students will then complete a fill-in-the-blank task to summarise what they have learned this lesson. The plenary task requires students to write a WhatsApp message to tell their friends 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 Trilogy Physics GCSE, particularly the 'Molecules & Matter’ 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 video on gas pressure and volume, students will need to answer a set of questions whilst watching the video. The mark scheme for this task is included in the PowerPoint presentation so students can self-assess this work once it is complete. Pupils are now introduced to ‘Boyle’s Law’, firstly students need to use white-boards to explain why a decrease in volume leads to an increase in pressure - students are shown a diagram of two pistons to demonstrate this. Once students have discussed this and written their ideas down on the white-board, the explanation can be revealed on the PowerPoint presentation. Students are now introduced to the calculation: P1V1 = P2V2. Student can take a note of the calculation and they will then be shown a worked example, which they can also take notes on. Students will then be given a set of problems to work through using the calculation, 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 be given an exam-stlye question which they will need to complete in their books, ensuring that they show all their working. The plenary task requires students to write three quiz questions, to test their peers knowledge of 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 Trilogy Physics GCSE, particularly the 'Electricity’ 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 starts with an introduction into the differences between series and parallel circuits, students can take notes and draw a diagram of each type of circuit in their books. Students will then watch a video on series and parallel circuits, they will need to answer a set of questions in their books which focuses on how current and potential difference across components changes in a series vs. parallel circuit. Once this task is complete, students can then self-assess their work using the mark scheme provided. Next, pupils have to identify whether a circuit is a series circuit or a parallel circuit from a set of diagrams. Then, students are given a worksheet of parallel and series circuits, given the current of the ammeter shown in the diagram they will need to work out the current of the ammeters placed elsewhere in the circuit. Students can then self or peer assess their work using the mark scheme provided. The next part of the lesson focuses on the resistance of components found in series and parallel circuits. Firstly, students will be given the ‘Resistance Rule’ for components in a series circuit, as well as the calculation to work out total resistance in a series circuit. Using this, students can then answer some questions which can be self-assessed using the mark scheme provided. Next, pupils are introduced to the ‘Resistance Rule’ for components placed in a parallel circuit. Once they have learned the rules, pupils can answer a set of questions which can then be either peer-assessed or self-assessed using the mark scheme provided. The plenary task is a ‘Pick a plenary’ task - students can either summarise what they have learned this lesson in three sentences or they can write a definition for a set of key words from the ‘Electricity’ topic. 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 Trilogy Physics GCSE, particularly the 'Electricity’ 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 the differences between alternating and direct current, demonstrate with a diagram and a video. Students will then watch another video, using which they will answer a set of questions about alternating current, direct current and the use of oscilloscopes. Once this task has been completed students can self-assess their work using the mark scheme provided in the power point presentation. The next task will require pupils to read a set of information about wiring within three-pin plugs before sketching a diagram of the plug and completing a table to summarise the colour and roles of the live, neutral and earth wires. Again, this work can be self-assessed using the mark scheme provided. Students will then need to sketch a diagram of an oscilloscope trace from an a.c. and d.c. supply and provide some notes about what these two traces are showing us. The next part of the lesson will focus on the National Grid, firstly students will observe a simplified diagram of the route taken by an electric current from the power station to people’s homes, this route involves the electric current passing through a step-up and step-down transformer. Students will need to watch a video and then summarise the role of these two types of transformers. This task can be self-assessed against the answer provided in the PowerPoint presentation. Next, the PowerPoint presentation explains why it is important to keep the voltage in the overhead cables very high and the current very low - to reduce resistance. Students will then need to complete a fill-in-the-blank task to sum up the main points about the National Grid. The last part of the lesson will require pupils to observe oscilloscope traces for different a.c. supplies, firstly they will be shown how to work out the period, they will need to apply this to each oscilloscope trace. Then using the period, they will need to calculate the frequency for each trace - making sure they show all their working! Once this task is complete pupils can self or peer assess their work using the mark scheme provided. The plenary task is an exit card, students are asked to write down three facts they have learned during the lesson, five key words and one question to test their peers knowledge. 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 Activate KS3 Science Course, specifically Year 7 P2 ’Sound’. For more lessons designed for KS3 and KS4 please visit my shop at: https://www.tes.com/teaching-resources/shop/SWiftScience. This lesson begins with an introduction into how sound can be ‘seen’ by using an oscilloscope. The PowerPoint then moves on to look at the differences between the ‘intensity’ of a sound and the ‘pitch’ of the sound. Students can copy and complete a set of sentences to summarise what they have learned so far as part of a ‘progress check’ - this work can then be marked using the mark scheme included. Students will then be given two different sound waves, they will need to use what they have learned so far to write a description/comparison of each of the waves, a list of key words will be provided to hep students. A model answer to this question is included in the PowerPoint so students can self-assess their work once it is complete. Students will now be given a worksheet of sound waves, along with a worksheet describing the sounds collected by the ‘Most Haunted’ team of a range of ghost sounds. Students will need to compare the description of the ghosts to the sound waves collected and match them correctly. This work can then be marked and corrected using the answers provided on the PowerPoint. Students will now think about the frequencies that humans can hear compared to other animals. The first activity requires students to watch a video which plays a set of sounds starting with a frequency of 500 Hz to 20,000 Hz. Students can put their hands up in the air until they can no longer hear the sound, you will need to turn the volume right up! Students are then told the audible range of humans compared to other animals like dolphins, hedgehogs and bats. The plenary activity requires students to complete a set of sentences, including outlining what they have learned today, what they already knew and what they would like to know more about. 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’. More Biology, Chemistry and Physics resources can be found in my TES Shop: https://www.tes.com/teaching-resources/shop/SWiftScience The lesson starts with students identifying the speeds of different animals, from a list provided. Students are then asked to think about the measurements needed to calculate speed, they will be then be shown a worked example of how to calculate speed; students can take notes on this in their books. Students will now be shown how to use a formula triangle to calculate either speed, distance or time and will be given the definition for ‘mean/average speed’ - they can also make a note of this in their books. Students will now complete a ‘quick check’ task, a set of questions based upon what the students have learned to far this lesson. This task can then be self-assessed using the mark scheme provided. Next, students will complete an investigation to calculate the walking speed of two students in their group. One student will walk a slow speed and one students will walk a fast speed, over a set distance, whilst the third member of the group records the time. Results can be recorded in table in their books, students can then complete a distance-time graph of their results. Lastly, students are introduced to the idea of relative motion through a ‘Think>Pair>Share’ task. The plenary task requires students to complete a 3-3-1 reduction of what they have learned this lesson, this includes 3 facts, 3 key words reduced to 1 key words. 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 Activate KS3 Science Course, specifically Year 7 P4 ’Space’. For more lessons designed for KS3 and KS4 please visit my shop at: https://www.tes.com/teaching-resources/shop/SWiftScience. This lesson begins with an introduction to the phases of the Moon, students are shown a diagram which show the changing appearance of the Moon as seen by Earth as the Moon orbits the Earth. The next task is a memory test, students will be shown images of the different phases of the Moon along with the names of these specific phases. Students will need to memorise the as many names as possible, before the names are taken away. Students will now have a few minutes to fill in their worksheet with the correct names, this task can then be self-assessed using the mark scheme provided. Next, students will complete a worksheet which requires them to shade in circles to show the phases of the Moon at particular positions. There is an extra challenge task to add labels to show the names for each phase. The mark scheme for this task is included in the PowerPoint so students can mark and correct their work. Next, students will watch a video on eclipses. Whilst watching the video they will answer a set of questions, once complete students can self-assess their work using the mark scheme provided. Laslty, students will complete a ‘copy-and-complete’ task to summarise what they have learned this lesson. This work can also be marked using the answers provided on the PowerPoint. The plenary task is a ‘pick a plenary’ - either unscramble a set of anagrams to spell five key words taken from the lesson today or use a set of key words (provided) to summarise what students 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 is a lesson aimed at the new GCSE Physics specification, it meets specification points for the 'Energy' module. For more lessons within this series please visit my shop: https://www.tes.com/teaching-resources/shop/SWiftScience This lesson begins by students considering how energy is transferred to useful or wasted energy stores and the concept of energy dissipation is introduced. The first activity involves students filling in a worksheet to identify the useful and wasted energy transfers in different systems, this is then self-assessed using the answers on the PowerPoint. Pupils are then given the opportunity to describe the energy transfers of a pendulum, particularly thinking about why a pendulum eventually comes to a stop. Pupils can self-assess their work using the mark scheme on the PowerPoint. Pupils are then introduced to energy 'efficiency' and how they can use the wasted and useful energy values of a system to calculate the efficiency of this device. Pupils are firstly given some easier calculations to try which can be modelled on the board, answers are provided. Pupils can then complete the worksheet of calculations, which they can self-assess using the answers on the Power Point slide. For the last activity pupils are required to copy and complete a table, filling in missing values of either the efficiency, the wasted energy or useful energy values of different devices. Pupils can again self-assess using the answers provided. The plenary activity is a past-paper exit card, I get pupils to hand the completed worksheet to me as they leave and I will mark it and hand it back to them for the next lesson with a grade and improvements. Thanks for purchasing, please let me know if you have any feedback :). Worksheets are found at the end of the PowerPoint slide and all answers are provided so pupils can peer or self-assess their work throughout the lesson.

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 :)