This revision lesson will challenge the students on their understanding of the details of photosynthesis (topic B4.1 of the AQA GCSE specification). It has been designed to be used in the final weeks before the GCSE exams, or in the lead up to mocks or an end of topic test, and provides multiple opportunities for the students to check their understanding of the reaction, limiting factors, the inverse square law and the uses of glucose. The lesson contains a range of tasks, including exam-style questions and quizzes, that will maintain engagement whilst allowing any misconceptions or mistakes to be addressed.

Students commonly confuse the two forms of cell division, so this revision lesson has been designed to address those mistakes and misconceptions. The PowerPoint and accompanying resources have been planned to challenge the students on their understanding of the details of points 1.2.1, 1.2.2 and 6.1.2 of the AQA GCSE biology and combined science specifications. The lesson goes through each of the three stages of the cell cycle including mitosis, to ensure that students can describe the key events and state the outcome in terms of the daughter cells. The lesson contains a series of tasks which include exam questions, discussions and a quiz which allow the students to assess their understanding. The final part of the lesson focuses on meiosis and specifically the differences to mitosis in terms of the number of cell divisions, the gametes formed, and their genetic make up. This lesson has been designed to be used for revision purposes in the lead up to the GCSE exams or in preparation for an end of topic test or mocks.

This fully-resourced revision lesson allows students to check on their understanding of Linnaeus’s and Woese’s classification systems. The engaging PowerPoint and accompanying resources have been designed to challenge the details of point B6.4 of the AQA GCSE biology and combined science specifications. The lesson contains a range of tasks including exam-questions and quizzes which provide opportunities for the students to assess their knowledge of kingdom, phylum, class, order, family, genus and species as the classification taxa and to recognise the binomial naming system. The lesson also reminds students that the three domain-system divides the Prokaryote kingdom into Archaea and Bacteria and describes how this system was developed once new evidence was discovered. As well as testing the content of B6.4, this lesson uses a series of questions to challenge understanding of linked topics which include eukaryotic and prokaryotic cell structures, microscopes, communicable diseases and ecological terms. This lesson has been planned for revision purposes in the lead up to the GCSE exams or before end of topic tests or mocks.

This lesson revisits the topic of random and systematic errors and also challenges students on other scientific skills such as identifying variables. Students tend to find this topic confusing, so the PowerPoint and accompanying resources have been designed to support them to identify whether an error is random or systematic and then to understand what to do next. The lesson guides the students through a series of real life examples and shows them how to spot each type of error. There is a considerable mathematical element to this lesson, including the calculation of means or missing values in a table. The lesson concludes with a series of exam-style questions where the students have to apply their understanding of identifying errors, variables and calculating means.

This revision lesson challenges students to explain the results of an osmosis investigation and to calculate accelerations using 2 equations. The PowerPoint and accompanying resources have been designed to check on the understanding of these two topics as detailed in the AQA GCSE biology, physics and combined specifications. The lesson contains a range of tasks including worked examples, exam questions and quizzes which will remind students that water molecules move across partially permeable membranes by osmosis and how changes in the mass of a potato can be used to compare water concentrations in the potato and solution. Students will also recall that acceleration can be calculated from velocity-time graphs using change in velocity/time as well as through the use of F=ma.

This engaging revision lesson challenges students on their understanding of the homeostatic control system that regulates blood glucose concentration. The PowerPoint and accompanying resources have been designed to check on the understanding of the details in specification point 5.3.2 of the AQA biology and combined science specifications. A common mistake in this topic is that students confuse glycogen with glucagon and use them incorrectly so time is spent to ensure that students recognise the difference between the complex carbohydrate and the hormone. In addition to challenging the students on their knowledge of this control system, the following linked topics are also challenged: key biological terms (beginning with G) the digestive system structures in a control system

This engaging revision lesson challenges the students on their knowledge of the communicable diseases topic as detailed in the AQA GCSE combined science specification. The PowerPoint and accompanying resources include a range of tasks that enable the students to assess their knowledge of the 7 viral, bacterial, fungal and protist infections that are listed in topic B3.1. This lesson has been designed to be used as a final revision resource as the GCSE exams approach, or as part of revision for an end of topic test.

This lesson explores how certain farming methods reduce biodiversity and considers the importance of a balance between conservation and farming. The PowerPoint and accompanying resources are the second in a series of 2 lessons which cover the detail in point 4.6 (biodiversity within a community) of the AQA A-level biology specification. The lesson begins by challenging the students to use the % change formula to calculate the predicted population in the UK by mid 2030. This increase to almost 70 million will lead into the recognition that farmers are under constant pressure to grow and provide enough food to feed this ever-growing population. A series of tasks and discussions will consider farming methods such as continuous monoculture and herbicides and insecticides which reduce biodiversity. This introduces conservation as active management to prevent the loss of biodiversity and several methods including the CSS and buffer strips are explored to encourage the students to think about the aims of these strategies. The other lesson covering specification point 4.6 is uploaded and named “biodiversity within a community”.

This lesson focuses on the key terms associated with ecosystems and describes how populations are affected by a range of factors. The PowerPoint and accompanying resources are part of the 1st lesson in a series of 4 lessons that cover the details of point 7.4 of the AQA A-level Biology specification As shown in the cover image, a modified version of the quiz competition BLOCKBUSTERS runs throughout the lesson and this introduces new terms as well as challenging students to recall key terms that were encountered in previous topics. These include population, ecosystems, competition, niche, abiotic factors and carrying capacity. Each time a term is met, time is taken to describe its meaning and to explain its relevance and context in this topic of populations in ecosystems. Exam-style questions are also used to challenge the students to apply their understanding and displayed mark schemes allow them to assess their progress. Prior knowledge checks interspersed within the lesson which check on topics such as the nitrogen cycle, adaptations and the biological classification of a species

This lesson describes how to investigate the distribution and abundance of organisms and how to estimate the numbers of a species in a habitat. The PowerPoint and accompanying resources are part of the first lesson in a series of two lessons which have been designed to cover the details of point B6.1a of the OCR GCSE Biology specification. This first lesson focuses on the use of a quadrat to estimate population size as well as belt transects to consider distribution. Step by step guides are used throughout the lesson to model the workings required in the calculations. This includes the use of a 1 metre squared quadrat as well as other areas. Once a method has been modelled, the students are challenged with a series of exam questions and mark schemes are embedded into the PowerPoint to allow the students to self-assess.

This lesson introduces and explains the meaning of 11 key terms associated with the genetic inheritance topic. The PowerPoint and accompanying resources have been designed to cover point 6.1.6 of the AQA GCSE Combined Science specification and include explanations of genome, chromosome, gene, allele, genotype, homozygous, heterozygous, phenotype, dominant, recessive and gamete. The key term, genome, was met earlier in topic 6 so the lesson begins with a knowledge retrieval with the definition for this term. As the genome is the entire DNA of an organism, the next task challenges the students to identify three errors in a passage about DNA. This challenges their recall of the structure of this chemical as a double helix, its location in an eukaryotic cell in the nucleus and an understanding that the gene codes for the sequence of amino acids in a specific protein. This leads into discussions about chromosomes and genes and time is taken to explain that homologous chromosomes have the same genes at the exact same gene loci. The students will learn that alternative forms of the gene (alleles) can be found at these loci and that these structures explain the differences in inherited characteristics. Moving forwards, the main section of the lesson describes the link between the dominant and recessive alleles, homozygous and heterozygous genotypes, and the physical expression as the phenotype. The final key term is gamete, and the students are challenged to recognise a definition for this term using their knowledge of meiosis. Two progress and understanding checks complete the lesson and check on the students’ ability to recognise and write definitions for these 11 terms and to use them accurately in a written description

This lesson explains the meaning of 11 key terms associated with the genetic inheritance topic and challenges the students to use them in context. The PowerPoint and accompanying resources have been designed to cover point 6.1.6 of the AQA GCSE Biology specification and include explanations of genome, chromosome, gene, allele, genotype, homozygous, heterozygous, phenotype, dominant, recessive and gamete. The key term, genome, was met earlier in topic 6 so the lesson begins with a knowledge retrieval with the definition for this term. As the genome is the entire DNA of an organism, the next task challenges the students to identify three errors in a passage about DNA. This leads into discussions about chromosomes and genes and time is taken to explain that homologous chromosomes have the same genes at the exact same gene loci. The students will learn that alternative forms of the gene (alleles) can be found at these loci and that these structures explain the differences in inherited characteristics. Moving forwards, the main section of the lesson describes the link between the dominant and recessive alleles, homozygous and heterozygous genotypes, and the physical expression as the phenotype. The final key term is gamete, and the students are challenged to recognise a definition for this term using their knowledge of meiosis. Two progress and understanding checks complete the lesson and check on the students’ ability to recognise and write definitions for these 11 terms and to use them accurately in a written description

This lesson describes how the alveoli are adapted for gas exchange by diffusion between the air in the lungs and the blood capillaries. The PowerPoint and accompanying resource are part of the second lesson in a series of 2 which have been designed to cover the content of point 8.2 & 8.3 of the Edexcel GCSE Biology and Combined Science specifications. During the 1st lesson in this series, the students were shown how to calculate the surface area to volume ratio and so this lesson begins by challenging them to recall that the larger the organism, the smaller the ratio. This is done through the PLAY YOUR CARDS RIGHT format as shown in the cover picture, and leads into the key idea that complex multicellular organisms like humans have developed a range of different adaptations to increase this ratio at their exchange surfaces. Moving forwards, time is taken to consider and discuss how the following adaptations of the alveoli affect the rate of diffusion: large surface area lining of the alveoli consisting of a single layer of flattened cells maintenance of a steep concentration gradient Each feature is related to diffusion and current understanding and prior knowledge checks are used to allow the students to assess their progress and to challenge them to make links to other topics of the course. All exam questions have mark schemes embedded into the PowerPoint

This lesson describes the key steps involved in transcription, the 1st stage of protein synthesis. The PowerPoint and accompanying resource are part of the first lesson in a series of 2 lessons which have been designed to cover the content of point 3.8 of the Edexcel GCSE Biology specification. According to the specification, the students are expected to know this process in considerable detail, and the lesson has been planned to reflect this. In a previous lesson in topic 3, the students were introduced to the definition of a gene as a section of a DNA molecule that codes for the sequence of amino acids in a protein. They will learn that this represents coding DNA, so time is then taken to explain that not all DNA codes for proteins and that there are sections of non-coding DNA located in front and behind each gene. This is vital information as it leads into the start of the process, where the binding of RNA polymerase to a section of non-coding DNA located in front of the gene is the trigger for the start of transcription of that particular gene. Moving forwards, a step by step guide describes the key steps which include the lining up of the RNA nucleotides against the exposed bases and the formation of mRNA through the reactions catalysed by RNA polymerase. Students are given key details of RNA nucleotides, specifically the inclusion of uracil bases, and an understanding check challenges them to determine the sequence of RNA bases that will line up against a template strand. These current understanding checks along with prior knowledge checks are found throughout the lesson to allow the students to assess their progress and to challenge them to make links to previous lessons.

This lesson uses step by step guides to describe how to calculate the surface area to volume ratio. The PowerPoint and accompanying resources are part of the first lesson in a series of 2 lessons which have been designed to cover the detail of points 8.2 and 8.3 of the Edexcel GCSE Biology & Combined Science specifications. The calculation of the SA/V ratio can be an area of the course that students find difficult so this lesson breaks the calculation into parts to guide them through each step. The students are shown how to calculate the surface area, then the volume and then how to express the answer of the division calculation as a ratio against 1. After each step, the students are given the opportunity to apply their understanding and all questions have mark schemes with full workings embedded into the PowerPoint to allow the students to self-assess. Students also tend to struggle to see the relevance to Biology so the remainder of the lesson involves the calculation of the ratio for the alveoli in the human body. Students will discover that the surface area to volume ratio is significantly increased in these gas exchange surfaces which leads into the upcoming lesson on the adaptations of the alveoli to overcome the overall low ratio in larger organisms.

This lesson describes the role of meiotic cell division, including a detailed explanation of how 4 genetically unidentical daughter cells are formed. The PowerPoint and accompanying resources have been designed to cover point 3.3 of the Edexcel GCSE Biology and Combined Science specifications. The students covered the mitotic cell cycle in topic 2 and their knowledge of this type of cell division is utilised throughout the lesson to help with the understanding of this cycle. The lesson begins by challenging the students to recall the meaning of diploid and they will learn that the parent cell at the start of the meiotic cell cycle is a diploid cell. Time is taken to remind them of the events of interphase and then the lessons focuses on the 2 sets of division in meiosis which produces four haploid daughter cells. The identity of these cells as gametes is emphasised. The final part of the lesson uses a series of exam questions to challenge the students on their understanding of the cycle and the mark schemes are embedded into the PowerPoint to allow the students to assess their progress.

This lesson describes how the structure of the heart and the circulatory system is related to its function. The PowerPoint lesson and accompanying resources have been designed to cover the detail of point 8.8 of the Edexcel GCSE Biology and Combined Science specifications and includes descriptions of the role of the major blood vessels, the heart valves, and the relative thickness of the chamber walls. The lesson starts with an extract from Friends and challenges the students to recognise that full sized aortic pumps is a thesaurus version of big hearts. This reiterates the basic function of the heart that was met at KS2 and KS3 and moving forwards, the students will learn that it is the contraction of the cardiac muscle in the walls of the four heart chambers that allows this to happen. Students are provided with a diagram throughout the lesson which will be annotated as new structures are encountered and they begin by labelling the two atria and ventricles. The focus of the lesson is the relationship between structure and function so time is taken to consider the different roles of the atria and ventricles, as well as the right ventricle versus the left ventricle. Students will be able to observe from their diagram that the left ventricle has the thickest wall and they will be challenged to explain why later in the lesson once more detailed knowledge has been added. The next part of the lesson introduces the pulmonary artery and vein and a task challenges the students to consider the relationship between the heart and the lungs, and their prior knowledge of the adaptations of the alveoli is also tested. The remainder of the lesson discusses the double circulatory system and the heart valves. Understanding checks are found throughout the lesson and mark schemes are embedded into the PowerPoint to allow the students to assess their progress.

This lesson describes the meaning of the terms stroke volume and heart rate and explains how to use them to calculate the cardiac output. The PowerPoint and accompanying resources have been designed to cover the content of specification point 8.12 of the Edexcel GCSE Biology & Combined Science specifications. The lesson begins by challenging the students to use their knowledge of the structure of the heart chambers to identify the one which has the most muscular wall. Their discussions should lead to the left ventricle and following the introduction of the key term stroke volume using a quick quiz competition, they will learn that this factor is the volume of blood pumped out of the left ventricle each heart beat. Another competition introduces the normative values for stroke volume and the resting heart rate and then the students are challenged to use the provided equation to calculate the cardiac output and to write a definition for this factor using their current understanding. The remainder of the lesson considers how these three factors change during exercise and they are challenged to apply their understanding through a series of exam questions. This worksheet is differentiated two ways and the mark scheme is embedded into the PowerPoint to allow the students to assess their progress.

This lesson describes the structure of DNA as a double-stranded polymer coiled into a double helix and focuses on nucleotides as the monomers. The PowerPoint and accompanying resources have been designed to cover the detail of point 3.4 of the Edexcel GCSE Biology & Combined Science specifications. The lesson begins with a reveal of the acronym DNA and students will learn that this stands for deoxyribonucleic acid. There is a focus on the use and understanding of key terminology throughout the lesson so time is taken to look at the meanings of the prefixes poly and mono as well as the suffix -mer. This leads into the description of DNA as a polymer which is made up of many monomers known as nucleotides. Students will be introduced to the three components of a DNA nucleotide and will learn that four different bases can be attached to the sugar. An observational task is used to get them to recognise that DNA consists of two strands and that complementary bases are joined by hydrogen bonds. Understanding checks are interspersed throughout the lesson along with mark schemes so that students can assess their progress