A full differentiated lesson based on the Activate 2 SOW. Answers to all tasks included. Simple GCSE question included as a 'super stretch'. Research activity taken from another TES author. If you like this resource please visit my shop for more: https://www.tes.com/teaching-resources/shop/matt_nick1in

Natural selection for KS3, whole lesson and resources included. Tailored towards the Activate SOW. If you use it please review! :) Visit my shop for more! https://www.tes.com/teaching-resources/shop/matt_nick1in

A complete, differentiated revision lesson based on the new AQA B4 SOW. The lesson revisits the blood cells, blood vessels, heart structure, coronary heart disease and statins and stents. The worksheet activity is taken from another author on TES. If you like this resource please visit my shop for more: https://www.tes.com/teaching-resources/shop/matt_nick1in

A full lesson covering the topic of the digestive system. The lesson is tailored to the new AQA SOW (B3.2) but can be used for others. The lesson includes an information hunt (posters taken from TES), video, and a differentiated, competitive question grid challenge. The plenary is based around student reflection upon their progress towards the learning objectives. Students can be instructed to read out their answers during the plenary, and can elect peers through throwing around a soft toy. If you like this lesson please visit my shop for more: https://www.tes.com/teaching-resources/shop/matt_nick1in

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: https://www.tes.com/teaching-resources/shop/matt_nick1in

A full lesson based on the new AQA sow (B6.3). Literacy exercise taken from another TES author. The lesson uses thalidomide within the starter to incite interest. It then goes on to cover drugs from plants and microorganisms, the discovery of penicillin and medicines of the future. All answers included in the slides and timers are used to promote pace. If you like this free resource, visit my shop for more comprehensive lessons: https://www.tes.com/teaching-resources/shop/matt_nick1in

A full lesson based on the activate 2 (B2.9) SOW but can be used for others. The lesson covers ecosystems and the niche, includes a practical activity (quadrats) which does not have to be used, a worksheet exercise and a plenary quiz. If you like this resource please visit my shop for more: https://www.tes.com/teaching-resources/shop/matt_nick1in

A full differentiated lesson based on the new AQA (B7.2) SOW but can be used for others. A gripping starter involving a young child and her successful battle with a large tumour is used to incite interest. The lesson then covers tumour formation, benign vs. malignant tumours and the causes of cancer. A differentiated question grid is then used to apply knowledge/conduct AFL. The treatment of cancer is then covered followed by a PP question. Video, gif images and standard pictures/news articles are used throughout to maintain interest and focus. This lesson is particularly appealing to visual earners. All answers are included in the slides via animation facilitating questioning during self/peer assessment. Timers are included to promote pace. If you like this resource please visit my shop for more: https://www.tes.com/teaching-resources/shop/matt_nick1in

A full lesson based on the new AQA (B5.3) SOW but could be used for others. The lesson uses the plague to incite interest (first 2 slides) and then moves onto the work of Ignaz Semmelweis (literacy exercise taken from other TES author). The lesson then briefly discusses other important discoveries and ways to prevent the spread of communicable diseases; hygiene, destroying vectors, vaccination and isolating infected individuals. A differentiated question grid is used to apply student learning. The plenary is based on the students reflecting upon their progress against the learning objectives. If you like this resource please visit my shop for more: https://www.tes.com/teaching-resources/shop/matt_nick1in

A full lesson covering the topics noted above, I hope it saves you some time. If you like this resource visit my shop for more: https://www.tes.com/teaching-resources/shop/matt_nick1in

A full lesson based on the new AQA (B10) SOW but can be used for others. Students complete a revision broadsheet (taken from another TES author) and then apply themselves to PP questions (answers included). Text books can be used for support. Hope it saves some people time. If you like this resource please visit my shop for more: https://www.tes.com/teaching-resources/shop/matt_nick1in

A full lesson based on the OCR-A SOW and delivered to an A2 class. The lesson covers the organisation of genes in prokaryotes and eukaryotes, transcription factors and the lac operon. The activity is taken (and corrected) from another TES author. Regulation at the post transcriptional and post-transnational levels is covered in a following lesson. If you like this resource please visit my shop for more: https://www.tes.com/teaching-resources/shop/matt_nick1in

A full lesson based on the Activate 1 (WS 1.2) SOW but can be used for others. The lesson teaches experimental planning, accuracy and precision, uncertainty, repeatability and reproducibility. A range of activities are included, all the required answers are incorporated into the slides. If you like this lesson visit my shop for superior teaching resources: https://www.tes.com/teaching-resources/shop/matt_nick1in

A full practical lesson based on the Activate 2 (B1.5) SOW. This lesson has been used as a follow on to a theory based lesson which can be found here : https://www.tes.com/teaching-resource/bacteria-and-enzymes-in-digestion-complete-lesson-ks3-11785941. Hope this can be helpful to people.

This interactive lesson introduces students to the biological and physical properties of soil and their importance in agriculture. Through discussions, practical demonstrations, and a hands-on soil assessment, students explore how soil properties like organic matter, texture, and porosity impact plant growth and crop productivity. This lesson is ideal for students studying soil science or agriculture. Learning Objectives: Identify key biological soil properties and their role in fertility. Describe physical soil properties and their impact on plant growth. Analyze how soil properties influence agricultural practices. Conduct a simple soil assessment for texture and water retention. Lesson Highlights: Starter Activity: Students observe a soil image, identifying visible organisms and discussing their role in soil health, the benefits of organic material, and the importance of soil layering in agriculture. Biological Properties Overview: Importance of organic matter, humus, and soil invertebrates (e.g., worms, beetles). Benefits include improved nutrient cycling, water retention, and microbial activity. Physical Properties Overview: Soil texture (sand, silt, clay proportions) and its impact on drainage and nutrient availability. Soil structure, porosity, and compaction and their role in root growth and water movement. Infiltration and water holding capacity, comparing sandy, loamy, and clay soils. Practical Soil Assessment: Students test soil samples for texture and water retention using a simple method and record their findings. Analysis and discussion of how results align with theoretical knowledge. Included Materials: PowerPoint Presentation with visuals of soil properties and their applications. Worksheet for soil assessment and property analysis. Answer key for all activities and discussions. Reflection prompts for student self-assessment. If you like this lesson please visit my shop for more lessons in the subjects of Agricultural science, Biology, Chemistry and Physics. https://www.tes.com/teaching-resources/shop/matt_nick1in

A lesson based on the OCR-A SOW but can be used for others. The lesson introduces the assumptions of the Hardy Weinberg principle and introduces each of the 2 equations with examples. The use of both equations in tandem is then introduced step by step, again using an example. There are then 12 questions for students to apply themselves (taken from another TES author). All answers are incorporated into the slides. If you like this resource please visit my shop for more: https://www.tes.com/teaching-resources/shop/matt_nick1in

I would probably spread this over 2 lessons, lots of information with a range of activities and all answers included. I have made use of some free content from other authors in this hence share and share alike! Hope it saves you time. For other resources please visit my shop: https://www.tes.com/teaching-resources/shop/matt_nick1in

This lesson introduces students to the fundamental processes of the water, carbon, and nitrogen cycles and their importance in supporting sustainable agricultural practices. Through explanations, examples, and discussion on ecosystem management, students learn how nutrient cycling impacts soil fertility, plant growth, and environmental health, essential for productive agriculture. Learning Objectives: Identify components of the water cycle Describe the steps within the carbon cycle Explain the processes within the nitrogen cycle and its uses in plants Link each of the cycles to key processes within agriculture Lesson Highlights: Starter Activity: Students identify processes within the water cycle, such as evaporation and infiltration, and discuss their roles in agriculture. Water Cycle Overview: Exploration of water cycle stages and their relevance to irrigation, soil health, and nutrient transportation in plants. Carbon Cycle Overview: Explanation of carbon processes, focusing on photosynthesis and respiration, and the role of carbon in plant growth. Nitrogen Cycle Overview: Discussion on nitrogen fixation, nitrification, and denitrification, highlighting the role of nitrogen in plant protein synthesis and growth. Agricultural Connections: Analysis of practices like crop rotation and composting that support nutrient cycling and sustainable productivity. Complete Answers and Timed Activities: Answers are provided for guided discussions, with timers included for a well-paced lesson. Included Materials: PowerPoint Presentation with visuals of each nutrient cycle and agricultural relevance Worksheet for identifying cycle components and linking them to agricultural practices Answer key for all discussion points and questions Reflection prompts for student self-assessment Please visit my shop for other stimulating lessons in the fields of Chemistry, Physics and Agricultural Science: https://www.tes.com/teaching-resources/shop/matt_nick1in

This lesson provides students with a comprehensive overview of photosynthesis and respiration, focusing on their roles in plant growth and agricultural productivity. Through discussions, practical examples, and analysis of factors that affect these processes, students learn how photosynthesis and respiration contribute to energy production in plants and animals. This lesson is ideal for students interested in plant biology and its agricultural applications. Learning Objectives: Identify the site of photosynthesis and respiration in plant and animal cells. Discuss the requirements and products of each process. Explain factors that influence the rates of photosynthesis and respiration. Connect these processes to their relevance in agriculture. Lesson Highlights: Starter Activity: Students identify where photosynthesis and respiration occur, list their requirements, and write the balanced equations for each process. Photosynthesis Overview: Explanation of photosynthesis in the chloroplast, focusing on inputs (CO₂ and H₂O) and products (glucose and oxygen). Respiration Overview: Examination of respiration in the mitochondria, highlighting its role in ATP production and its occurrence in both plants and animals. Factors Affecting Photosynthesis and Respiration: Analysis of temperature, light intensity, CO₂ concentration, water, and nutrient availability as limiting factors. Agricultural Relevance: Discussion on how understanding these processes can inform practices for optimizing crop growth and animal productivity. Complete Answers and Timed Activities: All answers are included for guidance, with timers to ensure structured activity progression. Included Materials: PowerPoint Presentation with visuals and key concepts of photosynthesis and respiration Worksheet for analyzing the factors that affect each process Answer key for all activities and discussion points Reflection prompts for student self-assessment If you like this lesson please visit my shop for more: https://www.tes.com/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: