A Science teacher by trade, I've also been known to be found teaching Maths and PE! However, strange as it may seem, my real love is designing resources that can be used by other teachers to maximise the experience of the students. I am constantly thinking of new ways to engage a student with a topic and try to implement that in the design of the lessons.
A Science teacher by trade, I've also been known to be found teaching Maths and PE! However, strange as it may seem, my real love is designing resources that can be used by other teachers to maximise the experience of the students. I am constantly thinking of new ways to engage a student with a topic and try to implement that in the design of the lessons.
This lesson explains the effects of light intensity, carbon dioxide concentration and temperature (limiting factors) on the rate of photosynthesis. The PowerPoint and accompanying resources have been designed to cover points (1 & 2) of the CIE A-level Biology specification (for assessment in 2025-2027) and also considers how knowledge of these limiting factors can be used to increase crop yields in the protected environment of a greenhouse.
The lesson has been specifically written to tie in with the previous lessons in topic 13.1 which covered the structure of the chloroplast, the light-dependent reactions and the light-independent reactions. Exam-style questions are included throughout the lesson and these require the students to explain why light intensity is important for both reactions as well as challenging them on their ability to describe how the relative concentrations of GP, TP and RuBP would change as carbon dioxide concentration decreases. There are also links to previous topics such as enzymes when they are asked to explain why an increase in temperature above the optimum will limit the rate of photosynthesis. Step by step guides are included to support them to form some of the answers and mark schemes are always displayed so that they can quickly assess their understanding and address any misconceptions. The final part of the lesson provides details of the World’s largest rooftop greenhouse in Montreal and challenges their knowledge of related topics such as cellulose structure, pollination and biological control.
Photosynthesis and respiration are two of the most commonly-assessed topics in the terminal A-level exams but are often poorly understood by students. These 16 lessons have been intricately planned to contain a wide range of activities that will engage and motivate the students whilst covering the key detail to try to deepen their understanding and includes exam-style questions so they are prepared for these assessments.
The following specification points in modules 5.2.1 and 5.2.2 of the OCR A-level Biology A course are covered by these lessons:
The structure of a chloroplast and the sites of the two main stages of photosynthesis
The importance of the photosynthetic pigments
Using thin-layer chromatography to separate photosynthetic pigments
The light-dependent stage of photosynthesis
The fixation of carbon dioxide and the light-independent stage of photosynthesis
The uses of triose phosphate
Factors affecting photosynthesis
The need for cellular respiration
The structure of the mitochondrion
The process and site of glycolysis
The link reaction and its site in the cell
The process and site of the Krebs cycle
The importance of coenzymes in cellular respiration
The process and site of oxidative phosphorylation
The chemiosmostic theory
The process of anaerobic respiration in eukaryotes
The relative energy values of carbohydrates, lipids and proteins as respiratory substrates
The use of the respiratory quotient
Due to the detail of these lessons, it is estimated that it will take in excess of 2 months of A-level lessons to cover this module
If you would like to sample the quality of the lessons, download the uses of triose phosphate, link reaction and respiratory substrates lessons as these have been shared for free
This lesson bundle contains 7 fully-resourced lessons which will engage and motivate the students whilst covering the content of module 5.2.1 of the OCR-A-level Biology A specification in the depth of detail required to support them to answer assessment questions on this topic of PHOTOSYNTHESIS confidently. This cellular reaction can be poorly understood by students so intricate planning has gone into the design of the lesson PowerPoints and accompanying resources to ensure that key details are embedded and reinforced throughout and that knowledge acquired in previous lessons is regularly checked.
The following specification points are covered by the lessons in this bundle:
The structure of the chloroplasts and the two main stages of photosynthesis
The importance of photosynthetic pigments for photosynthesis
Using thin-layer chromatography to separate photosynthetic pigments
The light-dependent stage of photosynthesis
The fixation of carbon dioxide and the light-independent stage of photosynthesis
The uses of triose phosphate
Factors affecting photosynthesis
If you would like to sample the quality of the lessons, then download the “uses of triose phosphate” lesson as this has been shared for free
This fully-resourced lesson describes the conversion of Calvin cycle intermediates to carbohydrates, lipids and amino acids. The engaging and detailed PowerPoint and accompanying resources have been primarily designed to cover point (12) of topic 13.1 of the CIE A-level Biology specification (for assessment in 2025 - 2027) concerning the uses of GP and TP but as the lesson makes continual references to biological molecules, it can act as a revision tool for a lot of the content of topic 2.
The previous lesson described the three stages of the Calvin cycle and this lesson builds on that understanding to demonstrate how the intermediates of the cycle, GP and TP, are used. The start of the lesson challenges the students to identify two errors in a diagram of the cycle so that they can recall that most of the TP molecules are used in the regeneration of ribulose bisphosphate. A quiz version of Pointless runs throughout the lesson and this is used to challenge the students to recall a biological molecule from its description. Once each molecule has been revealed, time is taken to go through the details of the formation and synthesis of this molecule from TP or from GP in the case of fatty and amino acids. The following molecules are considered in detail during this lesson:
glucose (and fructose and galactose)
sucrose
starch and cellulose
glycerol and fatty acids
amino acids
nucleic acids
A range of activities are used to challenge their prior knowledge of these molecules and mark schemes are always displayed for the exam-style questions to allow the students to assess their understanding.
As detailed above, this lesson has been specifically written to tie in with the earlier lessons in this topic on the structure of the chloroplast, the light-dependent stage of photosynthesis and the Calvin cycle.
Respiration and photosynthesis are two of the most commonly-assessed topics in the terminal A-level exams but are often poorly understood by students. These 16lessons have been intricately planned to contain a wide range of activities that will engage and motivate the students whilst covering the key detail to try to deepen their understanding and includes exam-style questions so they are fully prepared for these assessments.
The following specification points in topics 12 and 13 of the CIE A-level Biology course are covered by these lessons:
The need for energy in living organisms
The features of ATP
The synthesis of ATP by substrate-level phosphorylation in glycolysis and the Krebs cycle
The roles of the coenzymes in respiration
The synthesis of ATP through the electron transport chain in the mitochondria and chloroplasts
The relative energy values of carbohydrates, lipids and proteins as respiratory substrates
Determining the respiratory quotient from equations for respiration
The four stages of aerobic respiration
An outline of glycolysis
When oxygen is available, pyruvate is converted into acetyl CoA in the link reaction
The steps of the Krebs cycle
Oxidative phosphorylation
The relationship between the structure and function of the mitochondrion
Distinguish between aerobic and anaerobic respiration in mammalian tissue and in yeast cells
Anaerobic respiration generates a small yield of ATP and builds up an oxygen debt
The products of the light-dependent stage are used in the Calvin cycle
The structure of a chloroplast and the sites of the light-dependent and light-independent stages of photosynthesis
The role of the chloroplast pigments
Absorption and action spectra
Using chromatography to separate the chloroplast pigments
The light-dependent stage of photosynthesis
The three stages of the Calvin cycle
The conversion of Calvin cycle intermediates to carbohydrates, lipids and amino acids
Explain the term limiting factor in relation to photosynthesis
Explain the effects of changes in light intensity, carbon dioxide concentration and temperature on the rate of photosynthesis
Explain how an understanding of limiting factors is used to increase crop yields in protected environments
Due to the detail of these lessons, it is estimated that it will take up to 2 months of allocated A-level teaching time to cover the detail included in the slides of these lessons
If you would like to sample the quality of the lessons, download the roles of the coenzymes, the Krebs cycle and the products of the Calvin cycle lessons as these have been shared for free
This lesson describes the importance of homeostasis in mammals and focuses on the parts of a control system and negative feedback . The detailed and engaging PowerPoint and accompanying resources have been designed to cover the content of points (1 and 2) of topic 14.1 of the CIE A-level biology specification, but positive feedback is also discussed to broaden student understanding.
As homeostasis is a topic met at GCSE, this lesson has been written to build on this knowledge as well as to check on their prior knowledge of earlier A-level topics such as osmosis when considering blood water potential and the use of glucose as a respiratory substrate. Discussion points are written into the lesson at regular intervals to encourage the students to consider why a particular process or method takes place and understanding checks allow them to assess their progress. Students will recall how body temperature, blood water potential and blood glucose concentration are maintained within restricted limits and the importance of these systems are looked into in detail. Time is taken to consider the importance of maintaining these aspects, specifically with relation to the activity of enzymes. As such, students will also discuss how the pH of the blood is maintained. The key components of the control system are recalled and then time is taken to focus on the cell signalling that occurs between the coordination centre and the effectors. Students will learn to associate the response with either the use of the nervous or endocrine system. The final part of the lesson looks at the importance of negative feedback in reversing the change in order to bring the aspect back to the optimum and the added degree of control which this provides. Positive feedback is also briefly mentioned at the end.
This lesson describes the mechanism by which the guard cells open and close the stomatal apertures in response to changes in environmental conditions. The PowerPoint and accompanying resources have been designed to cover points 1, 2 and 3 as set out in topic 14.2 of the CIE A-level biology specification (for assessment in 2025 - 2027).
The lesson begins with a plant biology check, where the students have to spot the structure which isn’t found in a leaf, and then to spot the three leaf cells. This reveals the palisade and spongy mesophyll cells, but most importantly the guard cells. In a change to the normal, this lesson considers the function of the guard cells first before the structure is considered, and an understanding of the relationship between the two is embedded. Students will understand that there’s a balance between the opening of the stomatal aperture to allow carbon dioxide to diffuse in for photosynthesis, with the closing to reduce transpiration losses. The students’ knowledge of photosynthesis and other related topics are challenged throughout, and answers to all of the questions are found in the PowerPoint to allow the students to assess their progress. The final part of the lesson describes the mechanism by which the guard cells open the stomata, including details of ATP, potassium ions and the movement of water by osmosis.
This lesson describes the structure of the human kidney, focusing on gross structures like the renal artery and vein, before considering the nephron. The detailed PowerPoint and accompanying resource have been planned to cover the content of points (4 & 5) of topic 14.1 of the CIE A-level Biology specification (for assessment in 2025 - 27). The lesson was designed at the same time as the other lessons in this topic on ultrafiltration, selective reabsorption and osmoregulation so that a common theme runs throughout and students can build their knowledge up gradually to develop a deep understanding of this organ.
Students will come to recognise the renal cortex and renal medulla as the two regions of the kidney and learn the parts of the nephron which are found in each of these regions. Time is taken to look at the vascular supply of this organ and specifically to explain how the renal artery divides into the afferent arterioles which carry blood towards the glomerulus and the efferent arterioles which carry the blood away. The main task of the lesson challenges the students to relate structure to function. Having been introduced to the names of each of the parts of the nephron, they have to use the details of the structures found at these parts to match the function. For example, they have to make the connection between the microvilli in the PCT as a sign that this part is involved in selective reabsorption.
This lesson describes the homeostatic control of blood glucose concentration using negative feedback mechanisms. The PowerPoint and accompanying resources have been planned to cover the content of points (9 and 10) of topic 14.1 of the CIE A-level Biology specification (for assessment in 2025-27) and therefore also explain how the binding of glucagon and the formation of a second messenger is cell signalling.
The wide range of activities will maintain motivation and engagement whilst the content is covered in detail to enable the students to explain how the receptors in the pancreas detect the concentration change and how the hormones attaching to receptor sites on the liver triggers a series of events in this effector organ. This is a topic which has a huge amount of difficult terminology so time is taken to look at all of the key words, especially those which begin with the letter G so students are able to use them accurately in the correct context. The final part of the lesson looks at the role of the secondary messenger, cyclic AMP, and describes how this is involved when glucagon and adrenaline attach to receptors on the liver. The action of adrenaline is also considered and linked to the breakdown of glycogen to glucose during glycogenolysis.
This lesson describes how urea is produced in the liver from the deamination of excess amino acids. The engaging PowerPoint and accompanying resource have been designed to cover the content of point (3) of topic 14.1 of the CIE A-level biology specification (for assessment in 2025 - 27)
The lesson begins by reminding students that excretion is one of the 7 characteristics of living organisms, as introduced within MRS GREN when they were younger. An A-level worthy definition of excretion is then introduced, and time is taken to ensure that students recognise that substances must be products of metabolism to be deemed to be excreted.
Moving forwards, the role of the liver and then the kidneys in the excretion of urea are described. There is a focus on terminology, specifically prefixes and suffixes, to allow students to understand the meaning of deamination which occurs in the liver. The students will learn that ammonia and a keto acid are formed, and the former needs to be immediately converted to urea because of its solubility and toxicity.
The final part of the lesson introduces the kidney as the destination for the urea after the liver and explains how this small molecule will be filtered and form the main component of urine.
This lesson explains how the structure of the Bowman’s capsule leads to the formation of glomerular filtrate by ultrafiltration. The PowerPoint and accompanying resource are part of the 1st lesson in a series of two lessons which have been planned to cover the content of points (6 and 7) of topic 14.1 of the CIE A-level Biology specification (for assessment in 2025-27)
The lesson provides students with the opportunity to gauge a deep understanding of ultrafiltration and be able to explain how the mechanisms found in the glomerulus and the Bowman’s capsule control the movement of small molecules out of the blood plasma. Key terminology is used throughout and students will learn how the combination of the capillary endothelium and the podocytes creates filtration slits that allow glucose, water, urea and ions through into the Bowman’s capsule but ensure that blood cells and plasma proteins remain in the bloodstream. A number of quiz competitions are used to introduce key terms and values in a fun and memorable way whilst understanding and prior knowledge checks allow the students to assess their understanding of the current topic and to challenge themselves to make links to earlier topics. The final task of the lesson challenges the students to apply their knowledge by recognising substances found in a urine sample that shouldn’t be present and to explain why this would cause a problem
The 2nd lesson in this series covers selective reabsorption.
This lesson describes the relationship between the structure of the proximal convoluted tubule and the function of selective reabsorption. The PowerPoint and accompanying resource are part of the second lesson in a series of 2 lessons which have been written to cover the content of points (6 and 7) of topic 14.1 of the CIE A-level Biology specification (for assessment in 2025-27). It has specifically been designed to build on the knowledge gained in the previous lessons on the structure of the nephron and ultrafiltration.
The lesson begins by challenging the students to recall the substances that are found in the glomerular filtrate so that each of them can be considered over the course of the rest of the lesson. Moving forwards, the first of the numerous discussion points which are included in the lesson is used to get students to predict the component of the filtrate which won’t be found in the urine when they are presented with pie charts from each of these situations. Upon learning that glucose is 100% reabsorbed, along with most of the ions and some of the water, the rest of the lesson focuses on describing the relationship between the structure of the PCT and the function of selective reabsorption. Again, this section begins by encouraging the students to discuss and to predict which structures they would expect to find in a section of the kidney if the function is to reabsorb. They are given the chance to see the structure (as shown in the cover image) before each feature is broken down to explain its importance. Time is taken to look at the role of the cotransporter proteins to explain how this allows glucose, along with sodium ions, to be reabsorbed from the lumen of the PCT into the epithelial cells. The final part of the lesson focuses on urea and how the concentration of this substance increases along the tubule as a result of the reabsorption of some of the water.
This lesson describes the structure and function of sensory and motor neurones as well as the role of intermediate neurones. The PowerPoint and accompanying resources have been planned to cover the content of point (3) of topic 15.1 of the CIE A-level Biology specification (for assessment in 2025 - 27) and also focuses on the organisation of the nervous system to support students with their understanding of upcoming content in this topic.
The PowerPoint has been designed to contain a wide range of activities that are interspersed between understanding and prior knowledge checks that allow the students to assess their progress on the current topics as well as challenge their ability to make links to topics from earlier in the modules. Quiz competitions like SAY WHAT YOU SEE are used to introduce key terms in a fun and memorable way.
The students will be able to compare these neurones based on their function but also distinguish between them based on their structural features. Time is taken to introduce the importance of the myelin sheath that is present in both neurones to allow saltatory conduction to occur.
This lesson describes the role of abscisic acid in the closure of stomata during times of water stress, including the role of calcium ions. The PowerPoint and accompanying resources have been planned to cover the content of point (4) of topic 14.2 of the CIE A-level biology specification (for assessment in 2025-27).
The lesson begins with an introduction of water stress and the description of the need for plants to adapt to these conditions because they can’t flee like animals can. A step-by-step guide underpins the lesson, consisting of 8 key steps in the mechanism. A series of tasks run alongside this, supporting the students with their understanding of key substances, such as abscisic acid, calcium ions, and potassium ions. There are multiple understanding checks, with answers embedded into the PowerPoint, to allow students to assess their own progress. There are also prior knowledge checks which encourage students to make links to previously covered content, including the response to a low blood glucose, and also the role of ions in living organisms.
This lesson has been specifically designed to follow the lesson on guard cells and stomata, which is also uploaded.
This bundle of 9 lessons describes homeostasis in mammals and plants, explaining the content using real-world examples including osmoregulation and the control of blood glucose and the opening and closing of the stomatal apertures.
The lessons have been planned at length and are filled with a wide variety of tasks which will engage and motivate the students whilst checking on their understanding of the following points from topic 14 of the CIE A-level biology specification (for assessment in 2025-27):
14.1: 1 - 10
14.2: 1 - 4 (ALL)
The quality of the lessons can be experienced through the download of the osmoregulation lesson as this has been shared for free.
This lesson describes the ultrastructure of striated muscle with particular reference to sarcomere structure. The PowerPoint and accompanying resource have been planned to cover point (11) of topic 15.1 of the CIE A-level Biology specification.
There are a wide range of key terms and regions in this topic so they are introduced in a fun and memorable way using a variety of activities that include quiz competitions. These are followed by understanding checks to allow students to assess their progress and ensure that any misconceptions are addressed. Connections are made to the upcoming topic of the sliding filament model as the students discover that despite the shortening of the sarcomere (and I band and H zone) during contraction, the fact that the A band remains the same length shows how the filaments slide over each other. The two main tasks of the lesson challenge the students to label a diagram of a sarcomere and then the microscope image as shown in the cover picture.
This lesson explains why the conduction of an impulse along myelinated neurones is faster than along unmyelinated neurones. The PowerPoint and accompanying resources have been written to cover point (7) of topic 15.1 of the CIE A-level Biology specification.
A wide range of activities are included in this lesson to maintain the motivation of the students whilst ensuring that the detail is covered in depth. Interspersed with the activities are understanding checks and prior knowledge checks to allow the students to not only assess their understanding of the current topic but also challenge themselves to make links to earlier topics such as the movement of ions across membranes and biological molecules.
Over the course of the lesson, students consider the structure of the myelin sheath and specifically how the electrical insulation is not complete all the way along. This leaves gaps, known as the nodes of Ranvier, which allow the entry and exit of ions. Saltatory conduction can be poorly explained by a lot of students so time is taken to look at the way that the action potential jumps between the nodes and this is explained further by reference to local currents. The rest of the lesson focuses on the other two factors which are axon diameter and temperature and students are challenged to discover these two by focusing on the vampire squid.
This bundle contains 7 fully-resourced and detailed lessons that have been designed to cover the content of topic 15.1 of the CIE International A-level Biology specification which concerns the control and coordination in mammals. The wide range of activities included in each lesson will engage the students whilst the detailed content is covered and the understanding and previous knowledge checks allow them to assess their progress on the current topic as well as challenging them to make links to other related topics. Most of the tasks are differentiated to allow differing abilities to access the work and be challenged.
The following sub-topics are covered in this bundle of lessons:
The structure of sensory neurones and motor neurones
The transmission of an action potential along a myelinated neurone
The importance of the myelin sheath
The structure of a cholinergic synapse
The roles of the synapse
The roles of the NMJ, transverse tubules and sarcoplasmic reticulum in the stimulation of striated muscle
The ultrastructure of striated muscle
The sliding filament model of muscular contraction
If you want to see the quality of the lessons before purchasing then the lesson on the structure and role of the cholinergic synapse is a free resource to download
This bundle contains 7 fully-resourced lessons which are highly detailed and will engage and motivate the students whilst covering the content of topic 13 of the CIE A-level Biology specification (for assessment in 2025 - 27). The following specification points are covered:
Topic 13.1: points 1 - 12
Topic 13.2: points 1 & 2
The lesson PowerPoints and accompanying resources contain a wide range of tasks which include exam-style questions, whole class discussion periods and quiz competitions which are designed to introduce key terms and values in a memorable way.
If you would like to get an idea of the quality of these lessons, then download the Calvin cycle intermediates lesson as this has been shared for free.
This bundle covers the content of the 4 specification points in topic 14.2 of the CIE A-level biology specification, titled “Homeostasis in plants”. The 4 specification points concern the structure and function of guard cells as well as the role of abscisic acid and calcium ions in a plant’s response to water stress.
The plant biology topics can be poorly understood by students, so both lessons have been filled with understanding checks so students can constantly assess their progress and address any knowledge gaps that arise.
