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I am a secondary school & A-level Science teacher, specialising in Biology. I am also an experienced AQA GCSE Biology Examiner. My resources contain a mix of Biology, Chemistry and Physics lessons aimed at meeting specification points for the new AQA Trilogy GCSE course and KS3 Activate course. All of my lessons include at least one opportunity for self-assessment, a range of activities to suit students of all abilities, a set of differentiated starter questions and a plenary.

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I am a secondary school & A-level Science teacher, specialising in Biology. I am also an experienced AQA GCSE Biology Examiner. My resources contain a mix of Biology, Chemistry and Physics lessons aimed at meeting specification points for the new AQA Trilogy GCSE course and KS3 Activate course. All of my lessons include at least one opportunity for self-assessment, a range of activities to suit students of all abilities, a set of differentiated starter questions and a plenary.
NEW (2016) AQA AS-Level Biology – Humoral Immunity & Antibodies
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NEW (2016) AQA AS-Level Biology – Humoral Immunity & Antibodies

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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 :)
NEW (2016) AQA AS-Level Biology – Defence Mechanisms & Phagocytosis
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NEW (2016) AQA AS-Level Biology – Defence Mechanisms & Phagocytosis

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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 review to remind students of the role of diffusion in glucose absorption, the process of co-transport, and the role of microvilli. Students are then guided through a summary of defence mechanisms, subdividing them as non-specific (physical barriers and phagocytosis) and specific (cell-mediated and humoral responses). Students should keep this in mind before trying to name some of the physical barriers to infection in the human body. Sample answers are on the next slide for self-assessment, and students should consider which of the answers were physical or chemical barriers. The next task is to consider three questions about the human body’s defence mechanisms in the stomach, skin, and trachea. After seven minutes students should self-assess to the answers on the following slide. To defend the body, lymphocytes must be able to distinguish the body’s own cells, students are asked to decide which biological molecules would most likely be used for this and where they are found. The next slide explains the immune system’s identification ability and asks students to consider the medical implications of self-defence responses. The example of organ and tissue donation is explained on the following slide, there are plenty of notes below the slide as well. If physical barriers fail, white blood cells are next, so students are then introduced to phagocytes and lymphocytes over the next few slides. Students will then watch a short video and follow along with their worksheet to fill in boxes and summarise phagocytosis. Answers are on the next slide for self-assessment. The next task is interactive! Students will use information stations around the classroom to complete their table on non-specific immune response. The plenary task is to draft a 140-character tweet demonstrating what they have learned today 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 :)
NEW (2016) AQA AS-Level Biology – Diffusion
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NEW (2016) AQA AS-Level Biology – Diffusion

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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 :)
NEW (2016) AQA AS-Level Biology – Co-Transport & Absorption of Glucose in the Ileum
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NEW (2016) AQA AS-Level Biology – Co-Transport & Absorption of Glucose in the Ileum

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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 co-transport and absorption of glucose in the ileum begins with a starter discussion which asks students to compare and contrast transport and diffusion. They are also asked to discuss the importance of transport rather than diffusion in regard to reabsorption in the kidneys. The first task is a microscope activity for students to work in partner pairs and investigate adaptations of the epithelial cells of the ileum. Students will set up their light microscope to examine prepared slides and answer some questions. Answer samples are in the notes below the slides. The following slides define villi and microvilli for students to note in their books. There is a brief explanation of the relationship between increased surface area and space for carrier proteins. Students are then introduced to the role of diffusion in absorption and should take clear notes regarding facilitated diffusion. They should use the diagram on the slide to discuss why glucose concentration differs between epithelial and ileum cells. Relying on diffusion will only result in the concentrations either side of the intestinal epithelium becoming equal. Students should discuss why this is a problem, and how it might be overcome. The next slide is a complete diagram explaining co-transport of amino acids or glucose molecules. Students should take notes in their books because the next task is to complete a cartoon of this process and summarise the main steps. Students are then asked to ‘think > pair > share’ about the co-transport process and decide whether it is a direct or indirect form of active transport. They should use the details on the slide to inform their discussion. The final task is an exam-style question, with a mark scheme on the following slide for students to self-assess and consolidate their learning from this lesson. The plenary task is to either; summarise the lesson in three sentences, or complete definitions for five key-terms from 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 :)
NEW (2016) AQA AS-Level Biology – Cancer
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NEW (2016) AQA AS-Level Biology – Cancer

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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! To begin this lesson on cancer, students will review their knowledge of cell processes. They should be able to describe mitosis, the prophase, and cytokinesis in detail. For a quick recap on mitosis students will watch a short video, then use their mini whiteboards to name cell cycles and their roles based the images on the following slides! Students will then learn to calculate miotic index (MI). The following slide features an exam-style chart for them to practice calculating MI values. They will then learn to calculate the time a cell spends in each stage and complete example calculations by showing all of their working on their mini whiteboards. Answers for self-assessment are on the following slide. Using their knowledge on MI and cell stage time students will begin to think about cancer. They should make note of the definitions of key words before moving on. Students will then watch a short video on the cancer genome project and answer four questions in their books while watching. Answers are provided for self-assessment. The cell cycle is controlled at three checkpoints, at which the cell can continue or stop production. Students should make clear note in their books before moving on to discuss how these checkpoints are relevant to cancer. The following slides define proto-oncogenes, oncogenes, and mutated tumour suppressor genes, so students should be able to explain how mutations cause cancer. Students are then taught how cancer treatment works in the cell cycle. The following slide considers the cellular side-effects of treating cancer. To consolidate students will practise an exam-style fill in the blank task. Answers are on the following slide for self-assessment. The plenary task is for students to draft a WhatsApp message to a friend explaining what they have learned about cancer 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 :)
NEW (2016) AQA AS-Level Biology – Microscope Measurements
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NEW (2016) AQA AS-Level Biology – Microscope Measurements

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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 little challenge for students to calculate the actual size of a specimen and complete three measurement conversions. The first outcome is for students to begin to understand graticules and their use. The following slides define eyepiece graticules and explain how to calibrate the eyepiece properly. Students will also watch a short video before working though example (b). Students will then practice calculating magnification to understand the relationship between the eyepiece graticule scale and the stage micrometer scale. To practise their learning students will complete the Calibrating an Eyepiece Graticule worksheet. The next task is to practise calibrating the eyepiece and measure three onion cells. Students will also be asked to complete a biological drawing of their onion cells, and examples of poor and quality drawings are provided in the slides with more detailed expectations. Students will then consolidate their learning by completing an exam-style question, answers are provided on the following slide for self-assessment. The plenary task is a quick exit card, students should write thee things they’ve learnt, five key words, and on question for their peers about 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 :)
NEW (2016) AQA AS-Level Biology – The Electron Microscope
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NEW (2016) AQA AS-Level Biology – The Electron Microscope

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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 review of total magnification and cell fractionation before defining the two main advantages of the electron microscope. The following slides offer detailed notes on the parts of the electron microscope and their functions. Students will then fill in a table in their books using information notes which have been posted around the room. A self-assessment slide follows! Students are then introduced to SEM and TEM and encouraged to compare the two before practising through a mini-whiteboard activity! To consolidate the lesson, students will complete an exam-style question and self-assess to the following slide. The plenary task is a series of answers for students to write the questions for. 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 :)
NEW (2016) AQA AS-Level Biology – Methods of Studying Cells
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NEW (2016) AQA AS-Level Biology – Methods of Studying Cells

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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! To begin this lesson on the methods of studying cells, students will review previous lessons by discussing the nature of water and the reasons water is important to living organisms. Students should also discuss the properties of ATP and the importance of those properties. Students will then learn some of the basics of different microscopes. The slides then explain magnification and resolving power. To prepare students to calculate total magnification, the students will work through a review slide on units of measurement then practise some unit conversions on their mini whiteboards! The next few slides define total magnification and explain how to make sense of the actual size of a specimen. The previous exercise on unit conversion will be helpful here! A final example is shown before students are given a task with two magnification questions to complete in their books. They can self-access to the following slide. Students can then complete an included worksheet on magnification calculation, answers are available on the next slide for self or partner-assessment. The attached Magnification Questions sheet also includes worked answers. To explain cell fractionation students will watch a quick video then answer a few questions. The stages of cell fractionation are then set out in detail on the following slides, extra thoughts can be found in the notes below the slides. Students can then complete a grid activity to demonstrate each stage in their books. The plenary task is to create quiz questions to test their peers on the methods of studying cells. 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 :)
NEW (2016) AQA AS-Level Biology – Osmosis
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NEW (2016) AQA AS-Level Biology – Osmosis

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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 :)
NEW (2016) AQA AS Biology – Structure of the Plasma Membrane
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NEW (2016) AQA AS Biology – Structure of the Plasma Membrane

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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 plasma membrane begins with a quick discussion about the function of the cell surface membrane and the phospholipid bilayer. It also asks student to apply their knowledge to skin cells and solar radiation. This discussion continues by asking students about the cell surface membrane and directs them to a worksheet task to identify cell membrane molecules. Students should watch a short video and make notes on this same worksheet as they listen. To follow up on this introduction there are a few lecture slides to explain phospholipids, proteins, cholesterol, glycolipids and glycoproteins. Extra notes on each can be found below the slides. Students will then view an animation of the fluid mosaic model as whole and label a diagram accordingly. They can self-asses to the following slide. Another video is attached to help explain why the model is called a “fluid mosaic” model which students should also summarise on their worksheet. To synthesise their learning the students will work on a group task to build a 3D model using the “build a membrane” worksheet. When they have finished, they can practise once more through a true/false activity! The next task is to answer the questions on the cell membrane worksheet, they may self-assess to the mark scheme on the following slide. Not all cell membranes have the same composition, students should think>pair>share to discuss why this might be. Suggested answers are on the following slide. The plenary task is a fun anagram challenge to reveal key terms from the lesson, as an extra challenge they can define each term 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 :)
NEW (2016) AQA AS Biology – Cell Specialisation & Organisation
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NEW (2016) AQA AS Biology – Cell Specialisation & Organisation

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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 :)
NEW (2016) AQA AS-Level Biology – Mitosis
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NEW (2016) AQA AS-Level Biology – Mitosis

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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 mitosis begins with a review of cells, viruses, and a discussion about the differences between mitosis and meiosis. To begin discussing mitosis, students will watch a short video describing the cell cycle and make notes on a worksheet. They can self-assess with the following slide and discuss any missing information. The next few slides are lecture style, they teach chromosome structure and define mitosis. Students should answer the discussion question “why is mitosis such an important process in organisms?” To check their discussion, points to note can be found in the ‘notes’ section under the slide. The lesson then defines each phase of mitosis before asking students to complete a jumbled sentence activity to synthesise their notes on the phases. The worksheet features jumbled sentences, and diagrams of the phases of mitosis for matching. The un-jumbled sentences are in the following slide so students may self-assess their worksheets. The next section defines cytokinesis in plant and animal cells then asks students to identify the stages of mitosis by microscopic images. They should give reasons for their choices and the answers can be found in the ‘notes’ part of the slideshow. This activity is built on through a mini-whiteboard activity in which students should identify the stages of the cell cycle and explain what is happening during this stage. The lesson ends with an exam style question which asks students to explain how mitosis leads to two identical cells. A mark scheme for this question is on the following slide. The plenary task is to complete a sentence in their book reflecting on their learning throughout 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 :)
NEW (2016) AQA AS-Level Biology – Prokaryotic Cells & Viruses
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NEW (2016) AQA AS-Level Biology – Prokaryotic Cells & Viruses

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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 :)
NEW (2016) AQA AS-Level Biology – Eukaryotic Cell Structure
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NEW (2016) AQA AS-Level Biology – Eukaryotic Cell Structure

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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 :)
NEW (2016) AQA AS-Level Biology – Water
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NEW (2016) AQA AS-Level Biology – Water

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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 :)
NEW (2016) AQA AS-Level Biology – Energy and ATP
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NEW (2016) AQA AS-Level Biology – Energy and ATP

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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 :)
NEW (2016) AS-Level Biology – Factors Affecting Enzyme Action
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NEW (2016) AS-Level Biology – Factors Affecting Enzyme Action

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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 to encourage discussion about the differences between the induced fit and lock and key models of enzyme action. Students are also asked to explain how temperature and pH balance affect enzyme action. The following slide briefly reviews enzyme-controlled reactions then asks students to use their mini whiteboards to write down four factors that might affect successful collision. Students can self-assess with the answers on the slide. Students are then taught to measure enzyme-catalysed reactions; in the notes I encourage you to ask students for examples and what the measurable changes are. Students can then use the slide to work through the ‘fill in the blank style’ paragraph using a graph as a guide to understand enzyme-catalysed reaction. On the board where everyone can see you should write - substrate - product (H202 -> h2 + 02). The following slide includes answers so students may self-assess or check their answers with a partner. The slides then work through a few more graphs to explain the effects of temperature and pH on enzyme action. The slides are lecture style, but you can see in my mores a few suggestions for discussion questions and further lecture material. Following these slides students are encouraged to graph on their own or perhaps as a large group. Students are then given the opportunity to answer two graph style questions in their books and then self-assess. Next the class will watch a video about measuring the rate of reaction at fixed points of time. After the video, students should answer four questions in their books and discuss the answers as a class. The next few slides build upon these questions and students are asked to practise calculating reaction rates on their own before self-assessing. The plenary requires students to solve seven anagrams in their books, then write an original sentence with each word. Each task or graph from the full lesson can be found on slides 22-27. 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 :)
NEW (2016) AS-Level Biology - Enzyme Inhibition
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NEW (2016) AS-Level Biology - Enzyme Inhibition

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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 explain the effect temperature has on enzymes. Students should explain why they think many enzymes cannot function at over 60 degrees celcius. Then, go on to teach students the inhibitor classifications and their functions through three slides containing definitions and diagrams. Students then have an opportunity to identify competitive and non-competitive inhibitors as a class through two easy diagrams. Students will then be asked to complete “worksheet 1” independently, in order to practise diagramming competitive and non-competitive inhibition with complete definitions, on their own. The answers are displayed on the following slide so students may self-assess, or you may choose to have them assess each-others’ work in partners. You can find worksheet 1 at the end of the PowerPoint on slide 17. The following slide explains substrate concentration and reaction rate with competitive, and then non-competitive inhibition. Students should use worksheet 2 (slide 18 of the PowerPoint) to take notes and answer the questions independently. When worksheet 2 is complete, define potassium cyanide and encourage a discussion between pairs about the danger of cyanide. Students should then complete the exam style questions from slide 19 and self-assess. If necessary, leave time for questions and discussion. The lesson concludes with a plenary task which asks students to write a tweet demonstrating what they’ve learned, their tweet should be no more than 140 characters and include #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 :)
NEW (2016) AS-Level Biology - Enzyme Action
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NEW (2016) AS-Level Biology - Enzyme Action

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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 enzymes and a starter discussion to review the structure of amino acids and the quaternary structure of proteins. Students will then watch a short video and work independently to answer review questions from the video. The following slide offers brief answers to these questions so that students may self-assess. The lesson then progresses through a series of lecture style slides explaining enzyme involvement in chemical reactions, the structure of enzymes, and the two models of enzyme action. Following these slides, students have an opportunity to work in pairs to teach each other the two enzyme action models. The information for each student in their pairs is provided as the last slide in the lesson. Students should take notes on both models in their books and are encouraged to sketch a ‘cartoon strip’ style diagram as an extra challenge. Students are then asked to practise two exam style questions, worth 7 marks and 2 marks respectively. The slide following these questions offers a marking scheme so students may self-assess. After a short discussion on these two questions, students are tasked with a third exam question on enzyme action. This exam style question is attached as an additional resource for students to fill in the blank spaces as a worksheet which requires students to define important terms related to enzyme action. As a plenary task to complete the lesson and check understanding, students are asked to complete one of four sentences in their books. 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 :)