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 cell specialisation and organisation begins with a discussion to review specialised cell examples. Students should also describe the difference between smooth and rough endoplasmic reticulum, as well as the role of chloroplasts. To review organelles, students are then given a matching worksheet with descriptions of nine organelles. They can check the names of each with the answers on the slide. This task leads them to a series of organelle images to label and check as well. Students are then tasked with past-paper questions to check their understanding of cell structure. A mark scheme is on the next slide. To begin the discussion of cell specialisation students are tased with a worksheet to try with a partner. The worksheet asks students to consider what information each organelle can tell us. Suggested answers are on the following slides. The lesson should then spark some conversation about the organisation of certain cells, before students work through a few slides of questions about cell organisation in general. After learning the levels of cell organisation students are led through a few examples to decide for themselves which level each example fits in. To synthesise their learning, students will work through a ‘cut & stick’ task to create a table of each cell type and its characteristics. A completed table is on the following slide so students may self-asses. The plenary for this lesson is to write three sentences in their book summarising what they’ve learned! 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 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 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 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 begins with a starter discussion to review materials from the ‘biological molecules’ module. Students are then asked to begin thinking about types of cell by having a ‘think > pair > share’ discussion to define eukaryotic cells and their features. They can compare their answers to the diagram on the next slide which outlines of the main features of eukaryotic cells. The first task of this lesson is for students to fill in their worksheet using information cards about each organelle. Students should synthesise the information, not just copy it into their worksheet. The worksheet and information cards are available at the end of the slideshow. Using their mini whiteboards students are then guided to identify some photomicrographs from scanning and transmission electron microscopes. They should identify if the photomicrograph was taken by a scanning or transmission electron microscope, and bonus points if they can name the organelle! Students are then given another worksheet task to fill in the blanks and can self-assess using the following slide. The plenary task is to write a tweet about what they’ve learned! 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 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 diffusion begins with a starter discussion to remind students of the functions of the proteins in the cell membrane and the ‘fluid-mosaic’ model. Students will then ‘think > pair > share’ to discuss what sorts of substances cells import/export across the cell membrane. They should also examine why the cells import/export these substances. Answers are on the slide for self-assessment. Diffusion is then laid out in two diagrams to explain the passive nature of diffusion. Students should use these diagrams to inform the next ‘think>pair>share’ and discuss with a partner what factors might affect the rate of diffusion. Students are then introduced to facilitated diffusion, and the proteins required. They should take detailed notes on the features and functions of channel proteins and carrier proteins. Another form of facilitated diffusion is then introduced, in which the carrier protein picks up molecules of a matching shape, rather than changing its own shape. To quick check student understanding, they are asked three questions to answer in their books regarding the two forms of facilitated diffusion in comparison to simple diffusion, answers are provided on the next slide for self-assessment. Students will then complete an exam-style question, as always, a marking scheme is available for self-assessment. The plenary is a WhatsApp message task for students to draft a message to a friend, telling them what they’ve learned 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 AS-level Biology course, particularly the ‘Organisms & their Environment’ 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 the human gas exchange system begins with a review of gas exchange in plant leaves and insects, and the adaptations each have made in order to reduce water loss. The first task is to fill in the blanks in a paragraph describing gas exchange in mammals, particularly humans. Answers are on the following slide for self-assessment. Students are then introduced, slide by slide, to the features of human’s gas exchange system including the nasal cavity, trachea, bronchus, bronchioles and alveoli. Each slide has a diagram, description of the feature, and explanation of its role in gas exchange. The next task is to list the features of the efficient gas-exchange system in humans, at the epithelium of the alveoli. The adaptations of the alveoli are then expanded upon over the next few slides. Students will use the included worksheet to describe the on the ways which surface area, a permeable barrier, a thin barrier and maintenance of diffusion gradient make for efficient gas exchange. The plenary for this lesson is an anagram challenge! Students can uptake an extra challenge and define each unscrambled word as well. 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 is a lesson designed to meet specification points for the new OCR GCSE (Gateway) Biology 'Cell-level lsystems’ scheme of work. The lesson begins by students thinking about the raw materials needed for plants to photosynthesise and which factors might limit the rate. The three factors which students will need to learn about are then revealed - carbon dioxide, light intensity and temperature. Three limiting factor graphs are then shown for each of these factors and students need to have a go at explaining what the graphs are showing, as a class discussion. Pupils will then need to complete a fill-in-the-blank task and self- their assess their work using the answers provided. Next pupils are shown a green leaf and a variegated leaf and are asked to think>pair>share which leaf they believe will have a higher rate of photosynthesis, and why. This then leads to pupils learning that less chlorophyll means less photosynthesis will take place, which could lead to stunted growth. The next part of the lesson focuses on pupils being able to use practical equipment to set up an investigation which measure the effect of light intensity on rate of photosynthesis. Pupils will firstly be given some images of equipment they could use and are asked to come up with a potential method for this investigation. After this pupils are then shown a video where they have to answers questions about the variables in this investigation. The plenary is a silent 5 task where pupils need to answer questions about what they learnt this lesson on their own in their books. All resources are included in the PowerPoint presentation, thank you for purchasing :)

This lesson is designed to meet specification points for the NEW OCR GCSE (Gateway) Biology 'Cell-level systems’ SoW. For more lessons designed to meet specification points for the NEW Biology, Chemistry and Physics specifications please visit my shop: https://www.tes.com/teaching-resources/shop/SWiftScience This lesson begins by pupils being introduced to what an enzyme is, what it looks like and it’s role in the body. Pupils will then watch a video and will need to answer questions (provided) whilst watching the video, they can self-assess their work using the answers provided. Next pupils are shown a diagram of an enzyme’s lock & key mechanism in action, they will need to draw their own diagram of this process and include labels to show what is happening. Next, pupils are introduced to the factors that can affect the rate of enzyme action. They are given a set of data on how temperature affects the rate of reaction. Pupils will need to plot this data onto a graph, they are then given a set of labels which they will need to match to certain points on their graph to describe what is happening. In the next task pupils will need to complete sentences to explain the data that the graph is displaying, pupils can self-assess their work using the answers provided. The very last task requires pupils to look at the effect of pH on the rate of enzyme action, pupils will need to think about the pH needed for enzymes in the stomach to work. They can discuss this question or come up with an answer themselves. The plenary task is a fill-in-the-blank task for pupils to complete in their books, this can be self-assessed using the answers provided. Any questions please let me know by leaving a comment, and any feedback is much appreciated :)!

This lesson is designed for the NEW OCR GCSE (Gateway) Biology, ‘Cell-level systems’ SoW. For more lessons designed to meet specification points for the NEW GCSE specifications for Biology, Chemistry and Physics please see my shop: https://www.tes.com/teaching-resources/shop/SWiftScience Firstly pupils are asked to consider why organisms may not be able to continuously carry out aerobic respiration. They can discuss in pairs and then as a class and be introduced to the idea of anaerobic respiration. They will fill then complete a fill-in-the-blank task to sum up this process. Pupils will then watch a video where they will answer questions about anaerobic respiration, their answers can be checked against the mark scheme provided. Now pupils are introduced to the idea of oxygen debt, they are given an information card in pairs (for lower ability classes you may want to tag read this as a class) and then pupils will need to answer questions about this information. They can talk about in partners, once finished they can self or peer assess their work. Finally the different products of anaerobic respiration that are made in different organisms are highlighted, it is touched upon in the video but this is clear slide to show anaerobic respiration in plants, bacteria and yeast. Pupils will complete some exam-style questions to assess their knowledge of this topic, can be answered in the back of their books to fully test them! Pupils can then mark their own work using the mark scheme 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 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 prokaryotic cells and viruses begins with a starter discussion regarding the tissue of the stomach, and the difference between prokaryotic and eukaryotic cells. Students should then work to fill in a table to recap the organelles of eukaryotic cells and their functions, in their notes. The following slides introduce students to the features and content of prokaryotic cells, with a little memory test to help them label cell contents. Students can then self-assess against the slide before they move on to the next task where they will match cell structures to their role in the cell. The next task is a ‘think>pair>share’ to compare and contrast prokaryotic and eukaryotic cells. Student partners can then work together to compare and contrast on a worksheet table and self-access. Moving on to viruses! Students are asked to think and discuss the structure and function of viruses. They will also be asked to determine their confidence level for each of the outcome of the lesson by highlighting, in order to check their understanding. In order to learn about cell division in prokaryotic cells students are then asked to use an animation to help them draw a simple diagram of binary fission in their books. They are then asked to watch a short video explaining the rate of division and then calculate the rate of division for each hour for eight hours. Another video is included to help students complete a ‘fill in the blank’ passage about the replication of viruses, they can self-assess their passage on the following slide. A past-paper question is also included for students to check their understanding of the lesson, they can then self or partner-assess their work. As a plenary task, students should complete three sentences in their books describing what they have learned, what they already knew, and what they might like to learn more about. 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 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 starter discussion to review the enzymes needed for DNA replication and the process of DNA replication itself. Students are then asked to make a list in their books of all of the biological processes that require energy. Students are then taught to think of ATP as an ‘energy currency’ and on the following slide asked to define the parts of the structure of ATP before reviewing ATP’s function. Students should use the ‘ATP handout’ to take notes. The next task asks students to answer a few questions on their mini whiteboards and discuss with a partner how ATP releases energy. Answers for self-assessment are on the next slide. The following slides explain the synthesis, roles, and properties of ATP. You will find further details for these slides in the ‘notes’ section under each slide. Students are then encouraged to ‘think > pair > share’ some ideas of why ATP’s properties might be useful to the role of ATP in cells. Answers for self-assessment are on the following slide. Students are then given an activity task to demonstrate knowledge of energy-requiring processes. Each student will be given a description of a process, these can be found at the end of the slideshow, there are five processes in total. Students should then work in small groups to teach each other the different processes and produce a table to represent what they’ve learned. After completing the lecture and tasks students are given four summary questions to answer in their books and self or partner-assess. Students should then make note of the summary slide before concluding the 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 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 humoral immunity & antibodies begins with a starter discussion to get students to describe the role of cytotoxic t-cells, and the role of lysosomes during phagocytosis. They should also discuss the fate of cloned t-cells during a cell-mediated immune response. Humoral immunity is defined first, and students are asked to consider why the term humoral is used. Then, students will fill in gaps on their worksheet as humoral immunity is further explained. There are extra notes below the slide, and the answers will appear for self-assessment. The next slide sets out a diagram of humoral immunity, then students are asked to arrange the process by sequencing sentences, then self-assess. In pairs, students will then be given information on either plasma cells or memory cells and teach each other about the cell they’ve been assigned. Each student should complete descriptions of both types in their books. Students are then asked to consider why lymphocytes don not attack their own cells and taught the significance of lymphocytes development in the foetus. The next task is to sort information cards into categories; cell-mediated, humoral, or both. They can self-assess this task to the following slide. Students are then introduced to the structure of antibodies. They will watch a video, and answer seven questions, including a diagram. They can self-assess to the slide before considering how antibodies lead to the destruction pathogens. Students are also asked to consider why it is important that antibodies have two antigen binding sites. The plenary is to spend a full minute discussing with a partner what they have learned from 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 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 the human immunodeficiency virus begins with a starter discussion on immunity and vaccination. Students should discuss the features of a successful vaccination program, and why vaccination cannot often eliminate a disease. Students are then introduced to the structure of HIV and its function as a retrovirus. To explain the infection process students will watch a short video while answering questions in their books. Answers are available on the following slide for self-assessment. The next task is a worksheet for students to label and correctly describe each stage of HIV infection and replication. They can self-asses to the next slide. Students will then discuss the process by which HIV causes the symptoms of AIDS. The following slides explain the function of antibiotics and explain why these are not suitable for treating viruses. In order to introduce the ELISA test, students will watch two short animations and answer questions in their books. Answers are on the following slide for self-assessment. They should take thorough notes in their book, on two diagrams of indirect and direct ELISA. The plenary is to write a tweet demonstrating their learning, including #keywords! 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 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 an introduction to lipids, including a description of the structure of lipids as well as the importance and roles of lipids in the human body. Students are then introduced (or reminded if taking A-level Chemistry) of the full displayed chemical formula and shorthand formula of a fatty acid, the example given is butanoic acid. Students are now shown the displayed chemical formula of glycerol next to the fatty acid formula, and are asked to use their mino whiteboards to show how a condensation reaction could occur between the two molecules. Once students have had a go, the answers are revealed and students can note down the chemical structure of the triglyceride molecule which results. Students are now shown the difference between a saturated and unsaturated fatty acid, the next activity involves students reading information posters about saturated fats, unsaturated fats, cholesterol and phospholipids. They will need to use these information posters to complete a worksheet. Lastly, students will be shown the foot test for lipids and then be given a set of exam questions on this topic. This will then be self-assessed using the mark scheme provided. The plenary question requires students to describe the difference between saturated and unsaturated fats. 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 AS-level Biology course, particularly the ‘Organisms & their Environment’ 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 in exchange systems begins by asking students to think of example of exchange systems and the substances which would need to be exchanged. The next slide demonstrates the differences in exchange process for single and multicellular organisms. Notes are available under the slide for discussion. Using the pictures on the slides, students will then identify some examples of substances that need to be interchanged between a living organism and its environment. Those images are then ordered specifically on the next slide to demonstrate SA and body size. If multicellular organisms relied on diffusion, they would die, so they have evolved in other ways! Students should identify these evolved features in their next task. They will fill a table out to explain how each feature functions to help organisms exchange the substances they need. They should be able to identify why multicellular organisms need specialised exchange surfaces or systems. The next slides explain Fick’s Law and define important terms before asking students to calculate the surface area of cells. Answers for self-assessment are on the following slide. Students will then complete lab task CP8 to engage with the effect of SA:V ratio on the rate of diffusion. Materials and method are explained on the slides. Exam-style summary questions are included to consolidate the lab task with lecture notes, and answers for self-assessment are on the following slide. As a plenary, students will spend 60 seconds speaking with the person next to them about what they learned from the lesson over all. 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 is a lesson designed to meet specification points for the new OCR GCSE (Gateway) Biology 'Cell-level lsystems’ scheme of work. Pupils will learn about the products made during photosynthesis and how these are used plants. In particular the uses of protein, cellulose, starch and fats & oils. At a higher level pupils will consider the advantages and disadvantages of energy storage molecules such as fats, oils & starch. Pupils will have an opportunity to use information points around the room to complete a levelled worksheet on this topic which will be peer assessed at the end of the lesson. Extension opportunities are available if finished. Once this first activity has been self or peer assessed pupils will then have the opportunity to conduct an experiment to investigate the presence of starch in normal and variegated leaves. Students will also learn about investigations that can be carried out to prove that chlorophyll, carbon dioxide and light are needed for photosynthesis to take place. The last activity pupils will complete are two exam-style questions on the topic of the lesson, this can then be self-assessed. All resources are included in the PowerPoint presentation, thank you for purchasing :)

This is a lesson designed to meet specification points for the new OCR GCSE (Gateway) Biology 'Cell-level lsystems’ scheme of work. The lesson begins with a recap from the last lesson, children are shown images of pieces of equipment which could be used to measure the rate of photosynthesis. Students can discuss, and write down in their books, a simple method using the equipment pictured. They can then self-assess their answers using the answer provided on the PowerPoint. Children will now be given a worksheet which describes an experiment carried out to test the effect of carbon dioxide concentrations on the rate of photosynthesis. Students will need to plot a graph to represent the results, and then answer questions about this data. Lastly, students will be introduced to the idea of the inverse square law - when you double the distance from a light source, the light intensity falls by a factor of four. Students will then need to use this to answer some questions in their books. All resources are included in the PowerPoint presentation, thank you for purchasing :)

This is a lesson which meets specification points within the OCR Gateway Science - B1 -Cell-Level Systems SoW. The lesson begins by pupils using posters around the room to complete a levelled worksheet on the structure and function of animal and plant cells. Pupils will then peer-assess their work, providing feedback of the grade each pupil achieved and ways to improve their work. Pupils will then complete a ‘revision’ task in the back of their books, they will need to stick in a sheet and match the structure to the function. Pupils can self-assess their work. The final task, an assessment task, involves pupils answering a past-paper questions. They should try and do this with their book closed to test their knowledge of what they have learnt this lesson. Pupil can then either peer-assess or self-assess their work. All resources are included, please review with any feedback :)

This lesson is designed for the NEW OCR GCSE (Gateway) Biology ‘Cell-level systems’ SoW. For more lessons designed to meet specification points for the NEW GCSE specifications for Biology, Chemistry and Physics please see my shop: https://www.tes.com/teaching-resources/shop/SWiftScience This lesson begins with an introduction of the process of aerobic respiration including the word equations that pupils will need to learn. Next is a video, pupils will need to answer questions whilst watching the video, once it is finished they can self-assess their work using the mark scheme provided. Pupils are then introduced to the idea that aerobic respiration is exothermic and look specifically at the ultra-structure of the cell and which parts are important for respiration, this activity is a match up activity that pupils can complete and then mark. A mid-plenary is a true or false task and the final activity is a levelled worksheet pupils will complete using information cards on how animal and plant organisms use the energy released by respiration. Once finished they can self-assess using the mark scheme on the PowerPoint slides. Pupils have a choice of two activities to complete for their plenary - either an anagram challenge or a summary sentence using a list of 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 is a homeschool pack designed for the GCSE Biology course, specifically the ‘B1.1 Cells’ unit of work. For more lessons & homeschool packs designed for KS3 and KS4, please visit my shop at: https://www.tes.com/teaching-resources/shop/SWiftScience. This comprehensive pack contains nine pages of information, to meet all learning objectives within the GCSE Biology ‘Cells’ unit of work. This is followed by five pages of questions, differentiated to suit a range of abilities, as well as a detailed mark scheme for students/parents to mark and correct answers. The pack covers the following topics: Animal & Plant Cells Eukaryotic & Prokaryotic Cells Specialised Cells Chromosomes & Mitosis Diffusion Osmosis Active Transport Exchanging Materials Thanks for looking :), if you have any questions please email me at swift.education.uk@gmail.com.