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A full lesson based on the new AQA B4.4 SOW. The lesson covers issues with heart valves and pacemakers as well as the rectification of each. There is then a 17 mark past paper question for students to apply and consolidate their learning (answers included). Student notes and textbooks can be used for support. Artificial and donor hearts are then discussed over 3 slides. The students then complete independent research on 5 key points relating to heart transplantation, this can be done as a poster, leaflet or students can give brief paragraphs for each point. Ipads or access to a computer is required for this task. The plenary is based on the students reflecting upon their progress against the learning objectives.

This is a full, differentiated lesson based on the new AQA (B4.3) SOW but could be used for others. The lesson includes heart structure, the atria, ventricles and associated arteries and veins. Student understanding is checked by a differentiated question grid challenge. Students then conduct the heart dissection practical, a demo is useful here but a video is included. The lesson then covers coronary heart disease and is followed by a past exam question for AFL. The plenary is based on students reflecting upon their progress against the learning objectives.

This lesson explores the digestive systems of monogastric and ruminant animals, examining how each system is adapted to process different types of food. Through comparative analysis and interactive discussions, students learn the functions of key digestive structures and the dietary implications for each type. This lesson is perfect for students interested in animal biology and agricultural science, offering insights into digestive adaptations. Learning Objectives: Define and provide examples of monogastric and ruminant animals. Explain the function of main structures within monogastric and ruminant digestive systems. Compare the digestive processes and dietary adaptations between monogastric and ruminant animals. Lesson Highlights: Starter Activity: Students guess which animal is monogastric and which is ruminant, exploring the concept of “mono” (single) versus multi-chambered stomachs. Monogastric Digestive System Overview: Examination of the digestive process in monogastric animals, covering the function of structures such as the stomach, small intestine, and cecum. Ruminant Digestive System Overview: Detailed exploration of the four compartments of the ruminant stomach (rumen, reticulum, omasum, and abomasum) and their roles in breaking down fibrous plant material. Comparative Summary Table: Students complete a table comparing digestive processes, noting adaptations in each system that support dietary needs. Complete Answers and Timed Activities: Answers are provided for structured discussions, and timers are used to keep activities on track. Included Materials: PowerPoint Presentation with diagrams of monogastric and ruminant digestive systems Worksheet for digestive system comparison and analysis Answer key for all activities and discussion points Reflection prompts to encourage self-assessment This lesson package gives students a thorough understanding of digestive system adaptations, helping them appreciate how physiology aligns with diet and environment in agricultural animals.

A complete differentiated lesson with everything you need for ions and ionic lattices. Tailored towards Edexcell but can be used for any SOW.

A full lesson based on the Activate 2 (P1.6) SOW but can be used for others. The lesson covers poles, attraction and repulsion and magnetic fields. A practical activity is included where students draw magnetic field lines making use of a bar magnet and a compass. The students then study the earths magnetic field prior to attempting summary questions based on the content of the lesson (answers incorporated). Video and think pair share sessions are included to maintain student focus. The plenary is consists of students writing a reflective paragraph based on their progress against the learning objectives - prompts included on slides.

A full differentiated lesson based on the new AQA (B6.4) SOW. The lesson covers the features of a 'good drug', preclinical trials, clinical trials, double blind trials, and publishing results. The concept of 'placebo' is discussed at several stages. Learning is applied/assessed at 4 stages, a match up activity, differentiated question grid, past paper question and plenary quiz. All the answers are included through animation and timers are used to promote pace. There is also an opportunity for class debate during the summary of answers at the differentiated question grid stage.

A complete lesson based on the OCR-A SOW but can be used for others. The lesson covers primary and secondary succession, climax communities and the prevention/deflection of climax communities. These sections are punctuated by past paper questions for students to apply their learning and for you to conduct AFL. Answers are included in the slides to allow for self/peer correction. The plenary is based on the students reflecting upon their progress against the learning objectives.

A complete lesson based on the new AQA (B6.2) SOW. The lesson is well animated and is particularly accommodating to visual learners. The lesson covers painkillers to treat symptoms, disinfectants and antiseptics for outer surfaces, and antibiotics for bacterial infections. Student learning is applied through a differentiated question grid challenge. Antibiotics and their ineffectiveness against viruses is discussed alongside the generation of antibiotic resistance. The images of MRSA infections can be removed as these can be too much for some students - mine love them. There is then a PP question to complete ahead of the plenary which is based upon students reflecting upon their progress against the LOs. Answers to all questions/writing tasks are included through animation and timers are incorporated to promote pace.

A full, differentiated lesson based on the new AQA SOW (C5.7). A starter where students categorise items as acidic, alkaline or neutral is used to determine preconceived knowledge. Following this the pH range, acids, bases, and alkalis are discussed making use of examples. Students are prompted to take notes at key points using red font and a pen symbol. The release of H+ and OH- ions is also discussed ahead of methods in determining the pH of solutions. Knowledge is then applied to a differentiated question grid followed by peer/self-marking. A practical exercise (tailored to (C5.7) is then conducted where students prepare a pH curve by systematically adding acid to an alkaline solution using a burette, and monitoring the pH using a probe. Note, pipettes and universal indicator can be used as simple alternatives respectively. Stretch questions are included for the more able. The plenary is based on students reflecting upon their progress against the learning objectives. All answers are incorporated into the slides facilitating self/peer marking and timers are included to promote pace.

A full differentiated lesson based on the new AQA (P3.4) SOW. The lesson covers issues with fossil fuels, the advantages and disadvantages of nuclear energy and outlines the Chernobyl disaster (mainly to incite interest). A differentiated question grid is used to apply learning and to conduct AFL (answers included). The lesson then covers the advantages and disadvantages of renewable energy resources prior to a GCSE PP question (answers included) facilitating further application of knowledge and AFL. The plenary involves students reflecting upon their progress against the learning objectives.

A lesson based on the Activate 2 (P1.4) SOW but can be used for others. The lesson includes an introduction to series and parallel circuits, and explains their differences in terms of current and potential difference. A whiteboard quiz then follows (AFL) prior to a practical exercise. For the practical exercise simple circuit components are required; battery packs, voltmeters, ammeters, connection wires, bulbs and switches. Additional 'stretch' questions are included in the instance that the students progress speedily through the practical, with the answers incorporated into the slides. The plenary is based around student reflection on their progress against the learning objectives. Students can be elected to read out answers and this can be 'pop corned' on between peers.

A full differentiated lesson on metabolism and the liver. Lesson is based on AQA SOW (B9.4) but can be used for others. Covers metabolism, basic structure of the liver, metabolic functions of the liver, removing lactic acid and deamination. Slides include timers to promote pace, and answers included via animation to facilitate self/peer correction during review of each learning checkpoint.

A full, differentiated lesson on the topic of drag forces and friction. The lesson is based on the activate 1 SOW and so is pitched to a year 7 group. The lesson includes a think pair and share, DART activity, simple practical activity (requiring different surfaces and a newtonmeters), differentiated question grid challenge and a reflective plenary. All answers are incorporated into the slides via animation and timers are included to promote pace.

A full differentiated lesson with everything you need to teach the topic of the nervous system. Lesson includes timers and animations to promote pace and self/peer mediated correction of answers. Support sheets included for less able and stretch activities for more able. Based on the AQA (B10.2) SOW but can also be used for others.

A full lesson on the topic of energy transfer in ecosystems. The lesson is based on the OCR-A SOW but can be used for others. The lesson recaps on trophic levels and moves onto energy transfer in ecosystems, biomass pyramids, calculating energy transfer and biomass transfer and discusses the impact of human activities on energy transfer. Past paper questions are used for AFL. The plenary is based on reflective writing, students gauge their progress towards the lessons learning objectives, and how they can improve. Additional 'back up' questions are included for more able students.

A full differentiated lesson based on the activate 2 (P3.3) SOW but can be used for others. The lesson covers pressure in gases and the effects of volume and temperature. Student understanding is checked with a differentiated question grid challenge. Atmospheric pressure is introduced ahead on the 'crushing can' demonstration - very easy; a can, water, tongues and bunsen burner is required (youtube for demo). Students then reorder statements to explain their observations. The effect of altitude on gas pressure is then discussed with use of examples. The plenary is an 'articulate' activity where students make logical and scientific speeches making use of key words from the lesson. Those with the most key words used can be given a reward. This lesson includes all answers for self/peer assessment and no additional worksheets are required. The use of animation and the choice of topics to explain each theory were chosen with an emphasis on promoting a love of learning. Timers are included to promote pace.

A full, differentiated lesson based on the new AQA B7.3 SOW but could be used for others. This lesson covers the chemicals found in cigarettes, nicotine, carbon monoxide, smoking during pregnancy and carcinogens. A differentiated question grid and a PP question is then used to apply learning and to conduct AFL. The effects of smoking and cardiovascular disease are then discussed followed by a final PP question ahead of a reflective plenary. All answers to written activities are included into the slides, and timers are used to promote pace. This lesson uses video, animation and news articles to incite interest throughout, making it particularly useful for visual learners.

A revision lesson tailored to the OCR-A specification, covering the following topics: DNA structure DNA replication Translation and the interrelation of organelles Epistasis Hardy-Weinberg

A full differentiated lesson based on the new AQA B4.6 SOW. The lesson covers general plant tissues, xylem and phloem, plant organs and plant organ systems. A differentiated question grid is then used to apply student knowledge and conduct AFL (answers included). Students then observe leaf sections using microscopes, identify plant tissues/organs and draw sketch. Stretch questions are included for the more able (answers included). The plenary is based upon students reflecting on their progress against the learning objectives. If you like this resource please visit my shop for others: /teaching-resources/shop/matt_nick1in

This lesson introduces students to the classification of plants as monocots or dicots, highlighting key differences in their structures, such as seed leaves, leaf venation, root systems, and vascular bundle arrangement. Through practical activities and real-world examples, students learn to distinguish between these two groups and understand their significance in agriculture. This lesson is ideal for foundational plant biology and agricultural applications. Learning Objectives: Define monocotyledons (monocots) and dicotyledons (dicots) as categories of plants. Describe the structural features of monocots and dicots. Differentiate between monocots and dicots based on their distinct features. Identify examples of monocots and dicots relevant to agriculture. Lesson Highlights: Starter Activity: Students explore images of monocots and dicots and discuss their differences, introducing basic classification concepts. Key Structural Differences: Detailed comparison of monocot and dicot characteristics, including cotyledon number, leaf venation patterns, root types, and floral part arrangements. Practical Activity: Students examine and draw biological slides of monocot and dicot stems, labeling structures like vascular bundles, xylem, and phloem. Agricultural Examples: Exploration of common monocot and dicot crops, such as wheat, maize, beans, and tomatoes, with discussions on their significance in agriculture. Complete Answers and Timed Activities: All answers are included for guidance, with timers to structure activities. Included Materials: PowerPoint Presentation with visuals of monocot and dicot features Worksheet for comparing plant structures and listing examples Answer key for all activities and discussions Reflection prompts for student self-assessment This lesson package provides students with a clear understanding of plant classification and its relevance to agriculture, equipping them with knowledge to identify key crop types and their characteristics. Visit my shop for other resources in the fields of Biology, Chemistry, Physics and Agricultural science: