This lesson is designed for the NEW AQA Trilogy Chemistry GCSE, particularly the ‘Rates of Reaction’ 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 ‘Think, Pair, Share’ task to get students thinking about what the rate of a reaction tells us about that chemical reaction. After a short partner and class discussion, the answer can be revealed to the class via the PowerPoint slide. This is followed by a task whereby students need to place a mixture of chemical reactions in order of their speed, getting students to think about which of these reactions might have the fastest rate of reaction. Students are then introduced to the two ways in which scientists can measure the rate of reaction - how much product formed/how much reactant is used up over a given time. Students will be asked to read some information about this topic and then answer questions on it, this work can be self-assessed using the answers provided in the PowerPoint. Students will then watch a video on how to calculate the rate of a reaction using a graph, students can self-assess their answers using those provided in the PowerPoint presentation. Students will then practice these skills by plotting a graph using a set of data, which they will then need to use to answer a set of questions, this can be self-assessed using the mark scheme provided. The next video outlines how students can use a graph to a work out the rate of a reaction at a fixed point, students will answer questions whilst watching the video and then self-assess their work using the answers provided. Lastly, students will again practice this skill by plotting a graph using data provided and then will need to use the graph to work out the rate of reaction at different fixed points. This work can be self-assessed using the answers provided. The plenary task is is for pupils to complete one of a choice of sentences starters, which would summarize 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 Biology GCSE, particularly the ‘Ecology’ 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 Pupils are firstly given some information, in pairs, on how temperature can affect the rate of decay. They are asked to read through the information and complete a set of questions. Once this task is complete pupils can self-assess their work using the answers provided. The next task is for pupils to think > pair > share ideas about how you could stop or delay the decay process with food. Some images are provided on the PowerPoint slide as a prompt to help students, they can also use the information from the first task to help them come up with ideas. Once pupils have been given time to write their ideas down you can discuss as a group and then reveal the 5 main ways in which foods can be preserved. Pupils will then be given a set of information about each of these preservation methods, they need to use this information plus the information from the first task they completed to explain how each of the methods helps to prevent or delay the decay process. Pupils can then self or peer assess their work once complete. For the next task pupils are asked to use information posters places around the room or on their tables to answer a set of questions about decay & recycling. Once pupils have completed these questions they will need to assess their work using the answers provided. The very last task is an exam question that pupils can either complete in silence at the back of their books - higher ability - or perhaps use the work they have completed this lesson if they are lower ability. The plenary task is for students to write three sentences to summarise what they have learnt 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 Biology GCSE, particularly the ‘Inheritance, variation and evolution’ SoW, for the higher tier, biology only specification. 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 with a think > share > pair task on the definition of a species, pupils ca try and come up with their own definitions before you reveal the true answer. The next part of the lesson focuses on Alfred Russel Wallace and his work on the theory of speciation. Pupils will need to watch the video on Wallace and using the video come up with a timeline or notes on the life events and work produced by Wallace in his lifetime. Once this task is complete pupils can compare what they have written against success criteria provided, pupils can mark, correct and add any important notes using the criteria. The next part of the lesson focuses on the process of speciation, firstly pupils will need to watch a video about organisms which are separated and the develop certain characteristics depending on the environment they are living in. The second video provides a more detailed description of how speciation occurs, pupils will need to answer questions whilst watching this video. Pupils can mark their work using the mark scheme provided once they have completed this task. The next task is a card/statement sort, pupils will need to place the statements provided (can cut out as a card sort) into the correct order to describe the process of speciation, once pupils have completed this task they can mark their work. The final activity is an exam-style question on speciation, pupils will need to complete the exam question in their books (at the back without notes as an extra challenge). Once pupils have completed the exam question they can self or peer assess their work using the mark scheme provided. The plenary task is for pupils to write a twitter message by Alfred Wallace about his work on the theory of speciation. 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 B2 1.1 Health & Lifestyle. For more lessons designed for KS3 and KS4 please visit my shop at: https://www.tes.com/teaching-resources/shop/SWiftScience. The lesson begins with an introduction into what happens to your food during the process of digestion, students are shown a diagram which demonstrates how large, insoluble food molecules are broken down into small, soluble ones. This follows into the definition and role of the human digestive system, students now need to discuss their ideas of the names of organs present in the digestive system. After a short class discussion, students will now complete a ‘Memory Test’ task. Students will need be shown a diagram of the human digestive system with organs labelled. They will have a few minutes to memorise the names of the organs of the digestive system, the labels will be taken away and then students need to try to remember as many of them as possible, by labelling their own digestive system worksheet. This task can be self-assessed once it is competed. Next, students will be given an information sheet in pairs. Students will need to read the information sheet and using this write a description of the roles of a set of organs present in the digestive system. Once complete, students can mark and correct their work using the answers provided in the PowerPoint. Lastly, students are shown a diagram of the villi which are present in the small intestine. Students will need to describe the adaptations of the villi which aid the role of absorption of small molecules into the bloodstream. The final activity requires students to find ten word, all related to the digestive system, in a word search. The plenary activity is a set of answers, students will need to write the questions which match up these answers. 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 AS-level Biology course, particularly the ‘Biological Molecules’ module. For more lessons designed to meet specification points for the NEW AQA A-level Biology course please visit my shop: https://www.tes.com/teaching-resources/shop/SWiftScience A-Level lesson format: I teach in more of a lecture style compared to GCSE. In the majority of my A-level lessons the beginning portion of the lesson is mainly teacher-led, where students are expected to take notes onto a handout/in their books. This is then mixed in with student-led activities, as well as questions and exam prep. You will find some of my slides have blank spaces for you to add more detail/descriptions/explanations. If you look at the ‘Notes’ section underneath each of these slides, you will find additional content which you can add in as you teach! This lesson begins with a review discussion of ATP as an energy source and its role in plant cells. The next few slides are lecture-style and designed to teach students the properties of water as a biological molecule. The notes underneath the slides also offer some answers to the discussion questions on the slides. Students are then given a four question ‘quick check’ to demonstrate their understanding so far. They should answer in their books and self-assess or check a partner’s work with the answers on the following slide. Then students will each be given a reason why water is important; the two reasons can be found as descriptions at the end of the slideshow. Students should teach a partner with the opposite reason, then make notes in table form in their books before moving to the next slide which is a quick explanation of inorganic ions. As a summary test, students are given two questions, the first of which includes a few sub-questions. Students should answer independently in their books then self-assess with the answers on the following slide. This is a good opportunity to answer any other questions! The plenary task is to explain what they have learned through three facts, three key words, and a question to test their peers on. All resources are included. 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 Biology GCSE, particularly the ‘Inheritance, variation and evolution’ SoW, it contains some higher-tier only content. 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 firstly begins with a description and definition for gene expression in a cell, this leads onto introduce the idea of a mutation. Pupils are given a definition of a mutation and are asked to consider whether mutations are always negative effects. This leads onto show the ways in which a mutation can affect a protein/enzyme in the body and the effect that could have on the function of body processes. Next is a quick check-silent 5 activity to assess students knowledge of gene expression and mutation, pupils can answer the questions in their book and mark their work using the answers provided. There is on further activity on mutations, pupils will watch a video on sickle cell anaemia and answer questions in their books. The next section of the lesson is on inheritance, firstly pupils are introduced to the idea of alleles and are shown the genotypes of three rabbits with either black or white fur colour to show that it is the combination of alleles that determines this characteristic. Pupils are asked to complete some questions based on what they have learnt so far, which can be assessed using the answers provided. Next pupils are introduced to the difference between genotype and phenotype, homozygous and heterozygous genotypes. Pupils will then be given a set of images and are asked to identify whether these images are representing a genotype or phenotype, if it is a genotype they are asked to determine if it is homozygous or heterozygous. This work can then be assessed. Pupils are now shown how to construct a genetic diagram using a worked example, they are then given another genetic cross for which they need to construct their own genetic diagram and work out the percentage of each offspring that would be present, this work can be self-assessed. The final task is on sex determination, pupils are introduced to the idea of X & Y chromosomes and are shown the combinations needed to produce a male or a female. Pupils will need to construct their own genetic diagram to show the percentage chance of a baby being male or female. This topic can also be assessed using an exam-style questions for higher ability pupils. The plenary activity is for pupils to write a glossary in the back of their books for any new key words they have learnt 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 a resource aimed at the new AQA GCSE Biology specification as part of the 'infection & response' unit. This lesson is part of a 12 lesson bundle for the NEW 'Infection & Response' Unit, found in my TES shop - https://www.tes.com/teaching-resources/shop/SWiftScience The lesson begins with a recap of what makes a good medicine. Pupils are then given a scenario where they have to read some information cards on different medicines and using the information they need to decide which medicine would be the best to treat a bacterial infection. The next PowerPoint slide will go through the difference between antibiotics and painkillers and hopefully students should have chosen the antibiotic as the drug to treat bacterial infections in the previous activity. Next is an introduction to Alexander Fleming, the scientist who first discovered penicillin. Pupils can watch a video on his work and answer questions on a worksheet. Pupils can then peer-assess their work. The next few slides focus on how the growth of bacteria are affected by antibiotics, pupils can then use some data on the growth of bacteria to answer some questions. For the plenary pupils need to choose the correct word to complete the sentences. Other lessons for the NEW AQA 'Infection & Response' unit can be found in my TES shop. Thanks :)

This lesson is designed for the KS3 Year 8 Science course, specifically the C2 1.2 unit on ‘Metals & Other Materials’. 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 three main acids and their chemical formulae - nitric acid, hydrochloric acid and sulphuric acid - students are asked to identify what the three compounds have in common. Students should hopefully identify that they are contain hydrogen atoms. This then leads onto the next slide where students are introduced to the idea of a salt - the compound which forms when an acid and a metal react together. Students are given some information about this reaction and about salts, using this information students will need to answer some questions. Once this task has been completed, students can self-assess their work using the mark scheme provided. Students will then watch a video of a metal reacting with an acid, whilst students watch this video they are asked to write down any observations they make about the reaction, as well as think about what is happening that we can’t see/hear/feel. Students are now shown the word equation for magnesium metal reacting with hydrochloric acid and zinc metal reacting with hydrochloric acid, students are asked to think about the pattern with the products formed from these reactions. Hopefully, students can identify that a salt + hydrogen is formed in each one. Students are now asked to copy and complete a set of word equations for several more metal + acid reactions. This work can be self-assessed once complete. Next, students will conduct an investigation into how different metals react differently with acids. Students will test five metals - copper, iron, zinc, lead and magnesium - with hydrochloric acid. Hopefully, by completing this investigation they will be able to successfully place the metals in order of reactivity, this can be checked using the answers provided on the PowerPoint. Lastly, students need to be able to describe the test for hydrogen gas. Students will firstly be asked to ‘Think > Pair >Share’ their ideas about how this may be carried out, before watching a video to check whether their ideas were correct. Students can then make a note of this test in their books. The plenary task requires students to write a list of key words which were learned in the lesson today. 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 Chemistry GCSE, particularly the ‘Chemical changes and electrolysis’ 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 Students are firstly introduced to the idea of a displacement reaction using an example of aluminium and iron oxide, pupils will then be given a list of chemical reactions and for each one students will need to decide whether a displacement reaction will occur. Students will now conduct an investigation whereby they will place a metal - copper, magnesium, iron and zinc - into copper sulphate solution and observe what happens. Using the results from this investigation, students should decide on the order of reactivity of these metals. Students are now given another list of reactions, for each one students need to now decide if a displacement reaction will take place and if so write out the word equation for each. Students can mark their work using the answers provided. The next part of the lesson focuses on oxidation and reduction, firstly students are provided with a definition of these two processes. They are then shown how to write an ionic half equation to demonstrate what is happening what is happening during a displacement reaction, which metal has been oxidised and which has been reduced. Pupils need to complete the ionic half equations for a list of reactions, pupils can assess their work against the answers provided on the PowerPoint presentation. The last task is a progress check, students need to work their way through a set of questions to assess what they have learnt this lesson. The answers to which are included on the PowerPoint slides forstudents to self-assess or peer-assess their work. The plenary task is for pupils to write a twitter message about what they learnt this lesson, no more than 140 characters and #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 NEW AQA Trilogy Biology GCSE, particularly the ‘Ecology’ SoW. The first part of this lesson will focus on a recap of some of the details learnt during the decay lesson, pupils are given a set of four multiple choice questions which they should answer in their books and then self-assess. The first task introduces recycling of materials in the ecosystem, pupils will need to read through a paragraph of information as a class. The slide will then be changed and pupils will need to try to recreate the paragraph as best as they can using the key words provided. Once completed the slide can be changed back to the initial paragraph for pupils to check and correct their work. The next part of the lesson is for pupils to look at the difference between a decomposers and detritivores, students will be given information in pairs and will need to teach each other about the organism card they have in their hands. Students will then try to write a description of each of the organisms in their books. The next part of the lesson focuses on the water cycle, firstly students will need to come up with as many processes as they can think of that contribute to the water cycle. Once this task has been assessed pupils will then be given a set of questions which they will need to answer whilst watching a video, once complete their answers can be assessed using the mark scheme provided. Using their answers from their previous tasks pupils will now need to match up the key words to the definition and the final task is for pupils to complete a diagram of the water cycle using the key words and definitions provided in the last task. The plenary task pupils will be given a set of 5 answers, it is up to the pupils to come up with 5 questions which may correspond to these 5 answers. 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 Chemistry GCSE, particularly the ‘Structure & Bonding’ 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 lessons starts with looking at the way in which we use models to represent the structure of different compounds, models include the 3D ball and stick model, 2D ball and stick model, dot and cross diagrams and displayed formula showing bonds. Pupils are reminded of the limitations of some of these models, this is something they should be able to recount. Pupils are now shown a diagram to show how intermolecular forces act between simple covalent molecules, pupils should be able to explain the difference between the strong covalent bonds between atoms but the weak intermolecular forces between molecules and how this relates to the the low melting and boiling points of simple covalent molecules. The next part of the lesson is going to focus on giant covalent structures, firstly pupils will watch a video and answer a set of questions. Their work can be self-assess using the answers provided on the PowerPoint presentation. Students are then introduced to the three main covalent structures - diamond, graphite and silicon dioxide. Students will be given a set of information on these structures which they will need to use to complete their worksheet on giant covalent structures. To assess their knowledge of this topic there is a set of ‘quick check’ questions, pupils of a higher ability may want to complete these questions in the back of their books without discussing with others. The work can be assessed using the mark scheme provided. The last part of the lesson focuses on fullerenes and graphene - two other giant covalent structures with unique properties. Students are firstly introduced to the structure and uses of these compounds before watching a video and answering questions about them. The work from this task can be self or peer assessed using the answers provided. The plenary task is for pupils to pretend they are a scientist researching the use of nanotubes, fullerenes and grapehene, they need to come up two ideas of how these materials can be used in future technologies. 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 B2 1.3 unit on Adaptation & Inheritance. For more lessons designed for KS3 and KS4 please visit my shop at: https://www.tes.com/teaching-resources/shop/SWiftScience. The lesson begins with a video on inheritance, students should watch the video and whilst watching this they will answer a set of questions about chromosomes and where these structures are found within a cell. Once this task is complete, students can self-assess their work using the mark scheme provided. Next, students are introduced to the idea of a gene. Students will be given the definition of a gene and will then need to complete a ‘Memory Test’ task which helps students to identify the locations of genes, chromosomes, the nucleus and cell membrane. Students will get a few minutes to study this image, they will then need to recreate it in their books. This task can then be self-assessed using the mark scheme provided. Next, students are shown another image, they will need to use what they have learned so far this lesson to identify the different structures. They can discuss their ideas in pairs before the answers are revealed using the PowerPoint. Students will then need to complete a ‘Who Am I?’ task, - matching the names of structures to the correct description. The mark scheme for this task is included in the PowerPoint so students can self-assess their work once it is complete. Students will now be shown a diagram to depict how fertilisation takes place, a sperm and egg cell meeting, nuclei fuse and genetic material joins together to form an embryo where each body cell (except sex cells) contains 46 chromosomes. Students could sketch a diagram of this in their books. Lastly, students will watch a video on the discovery of DNA by Watson & Crick. Whilst watching the video they will need to answer a set of questions, once this task has been completed students should self-assess their answers using the mark scheme provided. The plenary task is an ‘Anagram Challenge’ - students would need to unscramble a set of words to reveal 6 key words from this lesson. There is an ‘Extra Challenge’ task for students to come up with a definition for each of these key words, the answers to the anagrams are 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 NEW AQA Trilogy Chemistry GCSE, particularly the ‘Chemical Analysis’ SoW. Firstly, students will conduct an investigation which carries out flame tests to check for the presence of different positive ions. Pupils will need to follow the method provided and record their results in a table in their books, once this task is complete they can self-assess their work using the mark scheme provided. Pupils will then watch a video on the use of sodium hydroxide solution in the test for positive ions, they will need to answer a set of questions using the information provided in the PowerPoint presentation. The answers to this task are provided in the PowerPoint so students can self-assess their work. Next, pupils will need to complete a flow diagram to demonstrate the steps involved in identifying a range of positive ions by using sodium hydroxide solution, this task can be self-assessed using the mark scheme provided. To assess their knowledge of flame tests and use of sodium hydroxide solution in identifying positive ions, pupils will need to fill in the blanks in a summary table. This work can be self-assessed using the answers provided. The next part of the lesson will focus on negative ions, firstly students will watch a video and will need to answer a set of questions using the information provided in the video. This work can self-assessed using the answers provided. Lastly, students will practice writing ionic equations for reactions which lead to the identification of either positive or negative ions before a final set of summary questions. Answers to these tasks are provided for self or peer assessment. The plenary task is for pupils to write a set of quiz questions to test their peers knowledge of what they have learned during the 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 Chemistry GCSE, particularly the ‘Chemical changes’ 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 worked example of how to balance equations, after this pupils are asked to complete a fill-in-the-blank task to summarize the importance of balancing equations. This work can be assessed using the answers provided on the PowerPoint presentation. There are two further worked examples for the teacher to go through using the PowerPoint presentation, pupils will specifically look at the number of atoms of each element on each side of the equation to decide whether it is balanced or not. If it is not balanced then the class can discuss how to go about balancing it and pupils can attempt to answer the problems. The next worksheet is a set of equations, for each one the student must add up the number of atoms of each element on each side of the equation to decide if the equation is balanced or not. If it is not balanced students can have a go at balancing it, pupils can self-assess their work using the answers provided on the PowerPoint presentation. Finally pupils can have a go at balancing a list of equations, again the answers will be provided for pupils to assess their work. The next part of the lesson pupils will look at reacting masses, pupils will be shown how they can use a balanced symbol equation to work out the reacting masses Pupils will be shown a worked example first, then be given the steps that they need to carry out the calculations themselves. Pupils will then be given a worksheet of problems to work their way through, this work can be self-assessed using the answers in the PowerPoint presentation. Pupils will then be given a set of slightly harder problems to work through, these can be skipped for lower ability classes but would be useful to higher ability classes. The last part of the lesson focuses on teaching students to use the masses of reactants to work out the balanced symbol equation for a reaction. Again, pupils are shown a worked example and given a set of steps to help them to complete the problems themselves. They will then be given a worksheet to complete a set of problems. The plenary task requires students to write a twitter message on what they have learned about quantitative chemistry. 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 Biology GCSE, particularly the ‘Organisation’ 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 by identifying what metabolic rate is and then asking pupils to think about what important metabolic reactions take place within organisms. Pupils can discuss and try and come up with a brain storm in their books. Pupils then learn about the role of the liver by watching a video and answering questions at the same time, once pupils have finished completing this task they can assess their work using the answers provided on the PowerPoint slide. Next, pupils need to specifically learn about the role of the liver in clearing lactic acid from the body. They will be given an information card and will need to answer some questions using this information, once finished they can mark or peer assess their work. The final activity is an exam-style question about glycogen in the liver, pupils can answer this question in silence at the back of their books (for higher abilities this would be most suitable) or for lower abilities you may allow them to discuss and answer in pairs. Once completed they can mark their worn work. The plenary activity is a list of answers, pupils need to come up with the questions to which these words are the answers. 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 AS-level Biology course, particularly the ‘Cells’ module. For more lessons designed to meet specification points for the NEW AQA A-level Biology course please visit my shop: https://www.tes.com/teaching-resources/shop/SWiftScience A-Level lesson format: I teach in more of a lecture style compared to GCSE. In the majority of my A-level lessons the beginning portion of the lesson is mainly teacher-led, where students are expected to take notes onto a handout/in their books. This is then mixed in with student-led activities, as well as questions and exam prep. You will find some of my slides have blank spaces for you to add more detail/descriptions/explanations. If you look at the ‘Notes’ section underneath each of these slides, you will find additional content which you can add in as you teach! This lesson on Osmosis begins with a discussion to review diffusion and osmosis, students should think about what they remember from GCSE. After defining osmosis and water potential, students will watch a short video and answer worksheet questions. Answers are available on the next slide for self-assessment. To test the students’ knowledge, they will then practice identifying direction of movement from water potential of two plant cells. They can use mini whiteboards to pick a movement direction, or lack thereof! To further the lesson on water potential, students will consider isotonic, hypertonic, and hypotonic solutions. They will then practice matching these terms to their definitions before completing a worksheet to demonstrate how these conditions affect red blood cells. Answers for self-assessment are on the next slide. This information is synthesised by a quick discussion of osmosis in onion cells. Then, using their whiteboards to test their understanding of water potential, students will identify what is happening to cells in a series of pictures. Students will then practise by working through a few exam-style questions and self-assessing to the answers provided in the slides. As a plenary the students should write three sentences summarising what they have learned in this lesson. All resources are included. 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 Biology GCSE, particularly the ‘Inheritance, variation and evolution’ 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 and a set of questions which pupils will need to answer about extinction and try and come up with a definition for this term. Once completed pupils can check their work against the answers provided on the PowerPoint. The next activity is for pupils to think > pair > share ideas about the sorts of changes that might occur within an organisms environment to bring about extinction. Pupils can discuss with their partner and create a mind map of their ideas in their books. Once pupils have completed this you can reveal some of the reasons for environmental change on the PowerPoint slide and pupils can check what they have got against the answers, adding in any they didn’t manage to get. The next activity is for pupils to read some cards of information about the causes of extinction, pupils can work in pairs or groups to read through these causes and summarise each one in their books. To put thees causes into context, the next activity is for pupils to look at examples of organisms which are at the brink of extinction and the reasons why. Pupils will be given a set of cards with information about a range of animal and plant organisms which are at different stages on the IUCN red list. Pupils will need to complete a table of information to describe the habitat and reasons why four of these organisms are endangered. The last part of the lesson will focus on mass extinctions, pupils will watch a video and answer questions about the causes and repercussion of mass extinction events. Once completed pupils can mark their work against the assessment criteria. The plenary activity is for pupils to pretend they are a conservationist campaigning to protect an organism of their choice, they need to write a twitter message to their followers to raise awareness of the factors which may be critically affecting the organism. 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 Chemistry GCSE, particularly the 'Using Our Resources’ 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 a Think > Pair > Share task for pupils to consider the properties of gold, pupils can list them down and then share their ideas with the class. The property of gold being very soft is not always useful, especially when it is being used to make jewelery and so it is often mixed with another metal (e.g. platinum) to make it stronger. The concept of an ‘alloy’ is then introduced, as well as a definition and an explanation as to why alloys are useful. Some useful properties of alloys are listed - malleable, durable, strong, flexible - pupils need to come up with a a definition for each of these properties. Once this task is complete students can self-assess their work using the mark scheme provided. The next task for pupils to complete is ‘Who’s right for the job?’ - students will be given information on the properties of different metals, as well as a list of alloys needed for different jobs - used in jewelery/used to make airplane bodies. Students need to select the correct metals to make the alloys required, their work can be self-assessed using the mark scheme provided. The next part of the lesson focuses on iron alloys specifically, firstly students will watch a video on iron alloys and will need to answer a set of questions - this work can then be self-assessed using the answers provided. The last task for pupils to complete is a table whereby students need summarise how carbon content affects steel and it’s properties, this work can also be self-assessed using the mark scheme provided. The plenary task requires pupils to spend a minute talking to the person next to them 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 :)