The resources included here are designed to be stimulating, challenging and adequately differentiated. Time is precious to a teacher, and these 'oven ready lessons' include everything you need at a cost effective price. The resources included are perfect for subject specialists and non-specialists alike, and are produced through a modern/professional use of PowerPoint which utilises graphics, animation and timers (etc.) to promote maximum progress during lessons.
The resources included here are designed to be stimulating, challenging and adequately differentiated. Time is precious to a teacher, and these 'oven ready lessons' include everything you need at a cost effective price. The resources included are perfect for subject specialists and non-specialists alike, and are produced through a modern/professional use of PowerPoint which utilises graphics, animation and timers (etc.) to promote maximum progress during lessons.
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 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.
This lesson introduces students to the different types of fertilizers, including organic, inorganic, and slow-release options, and explores how to determine the correct application rates based on crop needs, soil conditions, and environmental factors. Through discussions, practical applications, and case studies, students learn how proper fertilization practices enhance plant growth and minimize environmental impact, especially in regions like North Queensland with heavy rainfall.
Learning Objectives:
Discuss the uses of organic, inorganic, and slow-release fertilizers.
Interpret soil test results to identify nutrient deficiencies.
Explain how crop type, soil conditions, and environmental factors affect fertilizer selection and application rates.
Identify appropriate fertilizer types and rates for specific crops.
Lesson Highlights:
Starter Activity: Students discuss the effects of over-fertilization, differences in crop nutrient needs, and strategies used in North Queensland to prevent fertilizer runoff.
Types of Fertilizers: Overview of organic, inorganic, and slow-release fertilizers, focusing on benefits and specific examples like compost, urea, and polymer-coated fertilizers.
Application Methods: Discussion on broadcasting, banding, foliar feeding, and fertigation, and how these methods suit different crop types and soil conditions.
Environmental Considerations: Exploration of split applications, slow-release options, and crop rotation to prevent nutrient leaching, particularly in tropical climates.
Practical Activity with Soil Probes: Students practice using soil probes to assess site suitability for crop planting based on pH, salinity, and nutrient levels.
Complete Answers and Timed Activities: All answers are provided to facilitate discussion, with timers for smooth lesson pacing.
Included Materials:
PowerPoint Presentation with fertilizer types and application methods
Worksheet for interpreting soil test results and choosing fertilizers
Answer key for all discussion points and practical exercises
Reflection prompts for student self-assessment
This lesson package equips students with practical skills for effective fertilizer application, helping them understand how to balance plant growth needs with environmental stewardship in agriculture.
This lesson introduces students to the levels of organization in plants, from cells to organ systems, and covers the functions of essential organelles in plant cells. Through structured activities and applied examples, students learn how cell structures contribute to the overall function of plant tissues, organs, and systems, with a focus on agricultural applications like sugarcane production. This lesson is ideal for building foundational knowledge in plant biology and its relevance to agriculture.
Learning Objectives:
Describe the structure and function of plant cells, tissues, organs, and organ systems.
Identify and classify different plant organs and their roles.
State the functions of key organelles within plant cells.
Apply knowledge of plant organization to real-world agricultural practices.
Lesson Highlights:
Starter Activity: Students explore different levels of organization in plants and identify key examples, such as roots and leaves.
Plant Cell Organelles Overview: Detailed explanation of the nucleus, mitochondria, chloroplasts, cell wall, and other key organelles, along with their roles in cell function.
Levels of Organisation in Plants: Examination of cells, tissues, organs, and organ systems, with examples like dermal, vascular, and ground tissues.
Application to Agriculture: Students connect plant organization to sugarcane growth, discussing how healthy plant structures impact yield and crop success.
Complete Answers and Timed Activities: All answers are included for teacher guidance, with timers for smooth pacing of activities.
Included Materials:
PowerPoint Presentation with visuals of cell structures and levels of organization
Worksheet for identifying and explaining the function of plant organelles and structures
Answer key for all activities and discussion points
Reflection prompts for student self-assessment
This lesson package provides students with an understanding of plant cell biology and organizational levels, helping them connect biological concepts to agricultural applications.
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.
This lesson is based on the new AQA (B3.3) SOW and includes the required practical. Students first complete a table on proteins, carbohydrates and lipids as you work through the slides. There is then a review of this information through Q/A (answers incorporated into the slides). Students then move onto the practical, with stretch questions included for those who finish early. The plenary is based on students reflecting on their progress towards the learning objectives.
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.
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 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.
This lesson is tailored to the new AQA (B3.5) SOW but can be used for others. The lesson includes the effect of pH and temperature upon enzymes and uses video to relate extremophiles to the topic. Students must then plot a graph of data relating to pepsin activity and temperature and are scaffolded up to calculating the rate of reaction. Students can then explain their findings with the knowledge they have obtained within the lesson relating to denaturation etc. The plenary is based upon students reflecting upon their progress against the learning objectives.
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 full, differentiated lesson based on the topic of cell differentiation (AQA). This lesson introduces stem cells, discusses differentiation in plant and animal cells as well as cloning. Answers to each learning checkpoint are included into the slides through animation and timers are used to promote pace. The differentiated question grid activity can be deployed as a competition. The plenary is based on students answering reflective questions in reference to the LO’s.
A full lesson based on the new AQA (B3.7) SOW. This lesson covers the importance of temperature and pH on enzyme activity with given examples. Student understanding is checked with past paper exam questions. The lesson then outlines how the body regulates pH within digestion, and students are again directed to past paper questions. This is repeated for the regulation of surface area (emulsification). All answers are incorporated into the slides allowing for peer assessment. The plenary is based on students reflecting upon their progress against the learning objectives.
A full lesson based on the new AQA (B5.7) SOW. The lesson covers the skin, nose and trachea/bronchi as the first line of defence. A differentiated question grid is used to apply knowledge and to conduct AFL (answers included). The lesson then moves onto the white blood cells and their role in phagocytosis, antibody and antitoxin production. Students then apply their knowledge to a PP question (answers included). The plenary is based on students reflecting upon their progress against the learning objectives.
A full differentiated lesson based on the new AQA (B7.5) SOW but can be used for others. The lesson covers what alcohol is, how it is absorbed and how it effects the brain and liver. A data exercise, graphic images, news articles and celebrities are used to incite and maintain student interest whilst promoting relevance. A differentiated question grid is then used to apply learning/conduct AFL. The lesson then progresses to cover alcohol and pregnancy (giving capacity for debate through think pair and share), fetal alcohol syndrome and other carcinogens. The Chernobyl disaster is used to promote interest further. The plenary is based on students reflecting upon their progress against the learning objectives. A final plenary PP question is included as a backup, revising key topics from B7. All answers are included in the slides and timers are used to promote pace.
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 SOW (B4.7). The lesson covers xylem and phloem and the importance of transport in plants. There is then a differentiated question grid and a past paper question to apply learning/conduct AFL. All answers are included to facilitate self/peer marking. There is then a simple practical (over 2 days) where students observe xylem tissue using coloured water and celery. The plenary is based upon the students reflecting on their progress against the learning objectives.
A full differentiated lesson based on the new AQA (B4.9) SOW. The lesson covers environments and their relation to transpiration. The lesson the progresses to discuss photosynthesis, temperature, humidity (etc.) and their impact on transpiration. A video is used to introduce how plants are adapted to hot, dry climates and mechanisms of controlling water loss are introduced. A differentiated question grid is then used to apply student learning and conduct AFL. The use of the potometer is then discussed prior to another video and a final past paper question. The plenary is based on the students reflecting upon their progress against the learning objectives. All answers to written tasks are incorporated into the slides and timers are included to promote pace.
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.
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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.
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