This lesson describes how to use the Spearman’s rank correlation to analyse the relationships between the distribution of species and abiotic and biotic factors. The PowerPoint and accompanying exam-style question are the first lesson in a series of 2 which have been designed to cover point 18.1 (e) of the CIE A-level Biology specification and challenges the students on their knowledge of the t-test as covered in topic 17 as well as preparing students for the next lesson on the use of the Pearson’s linear correlation formula. As with the lessons on the t-test and Simpson’s index of diversity, a step by step guide is used to walk the students through the use of the formula to generate the rank coefficient and to determine whether there is a positive correlation, no correlation or a negative correlation. The students are also reminded of the null hypothesis and will be shown how to accept or reject this hypothesis and to determine significance. The students will work through an example with the class and then are given the opportunity to apply their newly-acquired knowledge to an exam-style question which assesses whether there is a relationship between light intensity and % plant cover in a habitat. The mark scheme is displayed on the PowerPoint so the students can assess their understanding and address any misconceptions that may arise

This lesson describes the biuret test for proteins and then uses a range of activities to challenge the students on their knowledge of topic 1.4.1. The engaging PowerPoint and accompanying resources are part of the last lesson in a series of 3 lessons which have been designed to cover the content detailed in topic 1.4.1 (General properties of proteins) of the AQA A-level Biology specification. The first section of the lesson describes the steps in the biuret test and challenges the students on their recall of the reducing sugars and starch tests from topic 1.2 to recognise that this is a qualitative test that begins with the sample being in solution. The students will learn that the addition of sodium hydroxide and then copper sulphate will result in a colour change from light blue to lilac if a protein is present. The remainder of the lesson uses exam-style questions with displayed mark schemes, understanding checks and quick quiz competitions to engage and motivate the students whilst they assess their understanding of this topic. The following concepts are tested during this lesson: The general structure of an amino acid The formation of dipeptides and polypeptides through condensation reactions The primary, secondary, tertiary and quaternary structure of a protein Biological examples of proteins and their specific actions (e.g. antibodies, enzymes, peptide hormones)

This fully-resourced lesson describes the processes of active transport, endocytosis and exocytosis and explains the need for ATP. The PowerPoint and accompanying worksheets have been designed to cover the second part of point 4.2 (a) of the CIE International A-level Biology specification. The first part of 4.2 (a), concerning simple and facilitated diffusion, was covered in the previous lesson. The start of the lesson challenges the students to use their prior knowledge of biological molecules to come up with the abbreviation ATP and they will learn that this is a phosphorylated nucleotide that contains adenine, ribose and three phosphate groups. Students may not have known this as the energy currency from GCSE so time is taken to explain that this molecule must be broken down to release energy and students are challenged to recall which type of reaction will be involved and to predict the products of such a reaction. This hydrolysis of ATP can be coupled to energy-requiring reactions within the cell and the rest of the lesson focuses on the use of this energy for active transport, endocytosis and exocytosis. Students are challenged to answer a series of questions which compare active transport against the forms of passive transport and to use data from a bar chart to support this form of transport. In answering these questions they will discover that carrier proteins are specific to certain molecules and time is taken to look at the exact mechanism of these transmembrane proteins. A quick quiz round introduces endocytosis and the students will see how vesicles are involved along with the energy source of ATP to move large substances in or out of the cell. The lesson concludes with a link to a future topic as the students are shown how exocytosis is involved in a synapse.

This fully-resourced lesson describes the differences between continuous and discontinuous variation. The engaging PowerPoint and accompanying resources have been designed to cover point 17.1 (a) of the CIE A-level Biology specification but also acts as a revision of topic 16 as it challenges students on their knowledge of gene mutations and meiosis. The students begin the lesson by having to identify phenotype and species from their respective definitions so that a discussion can be encouraged where they will recognise that phenotypic variation within a species is due to both genetic and environmental factors. The main part of the the lesson focuses on these genetic factors, and describes how mutation and the events of meiosis contribute to this variation. A range of activities, which include exam-style questions and quick quiz rounds, are used to challenge the students on their knowledge and understanding of substitution mutations, deletions, insertions, the genetic code, crossing over and independent assortment. Moving forwards, the concept of multiple alleles is introduced and students will learn how the presence of more than 2 alleles at a locus increases the number of phenotypic variants. Another quick quiz round is used to introduce polygenic inheritance and the link is made between this inheritance of genes at a number of loci as an example of continuous variation. In line with the title of the lesson, the next task challenges them to recognise descriptions and examples which apply to the different types of variations. The final part of the lesson introduces a few examples where environmental factors affect phenotype, such as chlorosis in plants, so that students are prepared for the following lesson.

A highly engaging lesson presentation (74 slides) and accompanying worksheets that uses exam questions (with explained answers), quick tasks and quiz competitions to allow students to assess their understanding of the topic of Biological molecules (Topic 3.1). Students will have fun whilst recognising those areas of the specification which need further attention.

An engaging lesson presentation (61 slides) and associated worksheets that uses a combination of exam questions, quick tasks and quiz competitions to help the students to assess their understanding of the topics found within unit B2 (Organisation) of the AQA GCSE Biology specification (specification point 4.2) The topics that are tested within the lesson include: Principles of organisation The human digestive system The heart and blood vessels Blood Coronary heart disease The effect of lifestyle on some non-communicable diseases Plant organ systems Students will be engaged through the numerous activities including quiz rounds like “SPOT the SUBSTANCE" and “Where’s LENNY” whilst crucially being able to recognise those areas which need further attention

An engaging lesson presentation (60 slides) and associated worksheets that uses a combination of exam questions, quick tasks and quiz competitions to help the students to assess their understanding of the topics found within unit B2 (Organisation) of the AQA GCSE Combined Science specification (specification point 4.2) The topics that are tested within the lesson include: Principles of organisation The human digestive system The heart and blood vessels Blood Coronary heart disease The effect of lifestyle on some non-communicable diseases Plant organ systems Students will be engaged through the numerous activities including quiz rounds like “SPOT the SUBSTANCE" and “Where’s LENNY” whilst crucially being able to recognise those areas which need further attention

A fully resourced revision lesson which uses a range of exam questions (with explained answers), quick tasks and quiz competitions to enable the students to assess their understanding of the topics found within module 6.3.1 (Ecosystems) of the OCR A-level Biology A specification. The topics tested within this lesson include: Ecosystems Transfer of biomass Recycling within ecosystems Succession Studying ecosystems Student will enjoy the range of tasks and quiz rounds whilst crucially being able to recognise any areas which require further attention

This fully-resourced REVISION LESSON has been designed to provide the students with numerous opportunities to assess their understanding of the content of module 5.2.2 (Respiration) of the OCR A-level Biology A specification. The importance of this metabolic reaction is obvious and this is reflected in the volume of questions in the terminal exams which require an in depth knowledge of the stages of both aerobic and anaerobic respiration. The lesson contains a wide range of activities that cover the following points of the specification: Glycolysis as a stage of aerobic and anaerobic respiration The use and production of ATP through respiration Anaerobic respiration in mammalian muscle tissue The stages of aerobic respiration that occur in the mitochondrial matrix Oxidative phosphorylation The use of respirometers Calculating the respiratory quotient value for different respiratory substrates Revision lessons which cover the other sub-modules of module 5 are uploaded and tie in well with this content

This lesson guides students through the use of the chi-squared test to determine the significance of the difference between observed and expected results. It is fully-resourced with a detailed PowerPoint and differentiated worksheets that have been designed to cover point 6.1.2 © of the OCR A-level Biology A specification which states that students should be able to demonstrate and apply their knowledge and understanding of the test to compare the observed and expected results of a genetic cross The lesson has been written to include a step-by-step guide that demonstrates how to carry out the test in small sections. At each step, time is taken to explain any parts which could cause confusion and helpful hints are provided to increase the likelihood of success in exam questions on this topic. Students will understand how to use the phenotypic ratio to calculate the expected numbers and then how to find the critical value in order to compare it against the chi-squared value. A worked example is used to show the working which will be required to access the marks and then the main task challenges the students to apply their knowledge to a series of questions of increasing difficulty.

This is a fast-paced lesson which goes through the main steps of selective breeding and looks at the potential risks of this process. The lesson begins by looking at the characteristics of a number of organisms that would be selected. Time is taken to ensure that students understand that selective breeding is not a new thing and has been going on for a very long time and therefore some of the problems associated with this are now being experienced. The actual process is reduced down into 5 steps which can be recalled and applied to questions. The remainder of the lesson looks at the potential issues with selective breeding. The reduction in the nose size of pugs is explored as an example of the health problems which bred animals may face. This lesson has been written for GCSE students.

This is a fully-resourced lesson that looks at the functional and structural differences between the transport tissues in a plant, the xylem and phloem. The lesson includes an engaging lesson presentation (41 slides), which includes numerous student-led tasks, progress checks and quick competitions and two question worksheets, one of which is a differentiated version to enable those students who are finding this topic difficult to still be able to access the learning. The lesson begins with the introduction of the two tissues as well as a brief introduction to the substances which they each carry. The next part of the lesson focuses on the xylem cells and the resulting xylem vessel, and key terms such as lignin are brought into the lesson so that students can understand how these cells are waterproofed, which causes them to decay and form hollow tubes. Having met a lot of information, students are challenged to act like an examiner to form a table based question to compare the xylem against the phloem where they have to come up with features which could be compared against. This table will form the backbone of the lesson and students will use it later in the lesson when they have to write summary passages about each of the tissues. Moving forwards, a quick competition is used to enable the students to meet the names of the cells that form the phloem tissue, the sieve tube elements and the companion cells. Students will see how they are involved in the functioning of the phloem and questions are posed which relate to other topics such as the involvement of mitochondria wherever active transport occurs. Progress checks like this are found at regular intervals throughout the lesson so that students can constantly assess their understanding. This lesson has been designed for GCSE students. If you are looking to teach about these tissues but to a higher standard, you could use my uploaded alternative called Xylem and Phloem (A-level)

This revision resource has been designed to include a range of activities such as exam questions, understanding checks and quiz competitions which will motivate the students whilst they assess their understanding of the content found in module 2.1.4 (Enzymes) of the OCR A-level Biology A specification. The resource includes a detailed and engaging Powerpoint (70 slides) and associated worksheets The range of activities have been designed to cover as much of the content as possible but the following sub-topics have been given particular attention: The role of enzymes as biological catalysts that lower the activation energy The lock and key theory and the induced fit hypotheses The mechanism of enzyme action to include the tertiary structure The effect of inhibitors on the rate of enzyme-controlled reactions The effect of pH on the rate of reaction Coenzymes and cofactors The idea of an optimum temperature and explaining the decrease in rate when temperatures increase or decrease Calculating the temperature coefficient In addition to these topics, some topics from other modules such as the PCR and precursor molecules are tested in order to challenge the students on their ability to make links between the modules.

A detailed lesson presentation (37 slides) and associated worksheets that looks at the different pieces of evidence that scientists use to support evolution and discusses how these support the theory. The lesson begins by challenging students to decide which piece of evidence is the key piece in supporting evolution (fossils). Students will then have to arrange a number of statements to describe how a fossil is formed. Students are introduced to the fossil record and questions are used to check that they understand where the oldest fossils would be found. Moving forwards, students are given three pieces of evidence that would be observed in the fossil record and they are challenged to explain how each of these supports the theory of evolution. Quick competitions are then used to get the students to see some extinct organisms in the Dodo and Woolly Mammoth and again they are questioned on how extinct animals support the theory of evolution. Further evidence in rapid changes in species and molecular comparison is discussed. There are regular progress checks throughout the lesson so that students can assess their understanding and there is a set homework included.

A fully resourced revision lesson which uses a range of exam questions (with explained answers), quick tasks and quiz competitions to enable the students to assess their understanding of the topics found within module 4 (Biodiversity, evolution and disease) of the OCR A-level Biology specification. The topics tested within this lesson include: Communicable diseases, biodiversity, classification and evolution Student will enjoy the range of tasks and quiz rounds whilst crucially being able to recognise any areas which require further attention

A whole lesson on the topic of active transport which includes a concise lesson presentation (20 slides) and a set of questions that are used to check on the students’ understanding. This lesson is designed for GCSE students (14 - 16 year olds in the UK) but could be used with A-level students who are covering the topic of movement across cell membranes. The main focus of the lesson is to get students to understand that this is an active process which moves substances against the concentration gradient and therefore needs energy for this process. The final part of the lesson looks at the different types of questions that can accompany this topic and a step-by-step guide is used to answer a difficult longer answer question as a class.

This is a fully-resourced revision lesson that uses a combination of exam questions, understanding checks, quick tasks and quiz competitions to enable students to assess their understanding of the content found within Module 5.2.1 (Photosynthesis) of the OCR A-level Biology A specification. The sub-topics and specification points that are tested within the lesson include: The interrelationship between photosynthesis and respiration The structure of a chloroplast The importance of photosynthetic pigments in photosynthesis The light dependent stage of photosynthesis The fixation of carbon dioxide and the light independent stage of photosynthesis Factors affecting photosynthesis Students will be engaged through the numerous quiz rounds such as “Can you DEPEND on your knowledge” and “Photosynthesising the SAFE way” whilst crucially being able to recognise those areas which require their further attention during general revision or during the lead up to the actual A-level terminal exams

This is an engaging and fully-resourced revision lesson which uses a range of exam questions, understanding checks, quick tasks and quiz competitions to enable students to assess their understanding of the content within topic 2 (Cells and control) of the Edexcel GCSE Biology 9-1 specification. The specification points that are covered in this revision lesson include: Describe mitosis as part of the cell cycle, including the stages interphase, prophase, metaphase, anaphase and telophase and cytokinesis Describe the importance of mitosis in growth, repair and asexual reproduction Describe the division of a cell by mitosis as the production of two daughter cells, each with identical sets of chromosomes in the nucleus to the parent cell, and that this results in the formation of two genetically identical diploid body cells Explain the importance of cell differentiation in the development of specialised cells Discuss the potential benefits and risks associated with the use of stem cells in medicine Describe the structures and functions of the brain including the cerebellum, cerebral hemispheres and medulla oblongata Explain how the difficulties of accessing brain tissue inside the skull can be overcome by using CT scanning and PET scanning to investigate brain function Explain the structure and function of sensory receptors, sensory neurones, relay neurones in the CNS, motor neurones and synapses in the transmission of electrical impulses, including the axon, dendron, myelin sheath and the role of neurotransmitters Explain the structure and function of the eye as a sensory receptor including the role of the cornea, lens and iris Describe defects of the eye including cataracts, longsightedness and short-sightedness Explain how long-sightedness and short-sightedness can be corrected The students will thoroughly enjoy the range of activities, which include quiz competitions such as "Can I have a P please BOB” where they have to recognise the different phases of mitosis from pictures or descriptions. The activities will crucially enable the students to determine which areas of topic 2 will need their further attention. This lesson can be used as revision resource at the end of the topic or in the lead up to mocks or the actual GCSE exams.