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 clear and detailed lesson describes the process of oxidative phosphorylation, including the roles of the electron carriers, oxygen and the mitochondrial cristae and explains the role of chemiosmosis. The PowerPoint has been designed to cover points 5.2.2 (g) and (h) of the OCR A-level Biology A specification and includes details of the electron transport chain, proton gradients and ATP synthase.
The lesson begins with a discussion about the starting point of the reaction. In the previous stages, the starting molecule was the final product of the last stage but in this stage, it is the reduced coenzymes which release their hydrogen atoms. Moving forwards, the process of oxidative phosphorylation is covered in 7 detailed steps and at each point, key facts are discussed and explored in further detail to enable a deep understanding to be developed. Students will see how the proton gradient across the inner membrane is created and that the flow of protons down the channel associated with ATP synthase results in a conformational change and the addition of phosphate groups to ADP by oxidative phosphorylation. Understanding checks are included throughout the lesson to enable the students to assess their progress and prior knowledge checks allow them to recognise the clear links to other topics and modules.
This lesson has been written to tie in with the other uploaded lessons on glycolysis, the Link reaction and Krebs cycle and anaerobic respiration
Every one of the lessons included in this bundle is detailed, engaging and fully-resourced, and has been written to cover the content as detailed in topic 4 of the AQA A-level Biology specification. The wide range of activities will maintain engagement whilst supporting the explanations of the content to allow the students to build a deep understanding of genetic information, variation and relationships between organisms.
The following 18 lessons covering the 7 sub-topics are included in this bundle:
4.1: DNA, genes and chromosomes
DNA in prokaryotes and eukaryotes
Genes
4.2: DNA and protein synthesis
Genome, proteome and the structure of RNA
Transcription and splicing
Translation
4.3: Genetic diversity can arise as a result of mutation or during meiosis
The genetic code
Gene mutations
Chromosome mutations
Meiosis
4.4: Genetic diversity and adaptation
Genetic diversity
Natural selection
Directional and stabilising selection
Adaptations
4.5: Species and taxonomy
Species and taxonomy
4.6: Biodiversity within a community
Biodiversity within a community
Calculating an index of diversity
The balance between conservation and farming
4.7: Investigating diversity
Investigating diversity
Interpreting mean values and the standard deviation
If you would like to sample the quality of the lessons in this bundle, then download the DNA in prokaryotes and eukaryotes, structure of RNA, gene mutations, natural selection and standard deviation lessons as these have been uploaded for free
This lesson introduces the key inorganic ions that are involved in biological processes and includes cations and anions. The engaging PowerPoint and accompanying resources have been designed to cover point 2.1.2 § of the OCR A-level Biology A specification but also makes links to topics in upcoming modules such as respiration, photosynthesis and neuronal communication.
The roles of the following ions are covered in this lesson:
phosphate
nitrate
chloride
hydroxide
hydrogencarbonate
hydrogen
ammonium
sodium
potassium
calcium
Extra time is taken during the lesson to describe how these ions are involved in the transport of carbon dioxide, the conduction of nervous impulses and blood clotting as well as other processes and a number of quiz competitions have been included to introduce key terms in a fun and memorable way
This is a fully-resourced REVISION lesson which challenges the students on their knowledge of the content in TOPIC B5 (Health, disease and the development of medicines) of the Edexcel GCSE Combined Science specification. The lesson uses an engaging PowerPoint (79 slides) and accompanying worksheets to motivate students whilst they assess their understanding of this topic.
The lesson has been designed in the way that the students have to work their way through a series of wards at the hospital which deals with communicable diseases caused by a range of pathogens and the non-communicable diseases ward such as the cardiac ward where CHD patients are assessed and treated. A range of exam questions, differentiated tasks and quiz competitions back up the engaging lesson and are used to test the following sub-topics:
Bacterial, fungal and viral diseases in animals and plants
Treatment of bacterial infections with antibiotics
Preventing and reducing the spread of pathogens
Vaccinations
The physical and chemical defences of the human body
The risk factors of CHD
The range of surgical treatments for CHD
Calculating the BMI
Smoking and cardiovascular diseases
The mathematical element of the course is also tested throughout the lesson and students are given helpful hints on exam techniques and how to structure answers.
This resource is suitable for use at the end of topic B5 or in the lead up to mocks or the actual GCSE exams.
This bundle of 3 lessons covers all of the content in the sub-topic B3.3 (Maintaining internal environments) of the OCR Gateway A GCSE Combined Science specification. The topics covered within these lessons include:
The importance of maintaining a constant internal environment in response to internal and external change
Explain how insulin controls blood sugar levels
Explain how glucagon controls blood sugar levels
Compare type I and II diabetes
All of these lesson presentations and accompanying resources are detailed and engaging and contain regular progress checks to allow the students to constantly assess their understanding.
This lesson describes how homeostasis in mammals involves control systems that maintain the internal environment within narrow limits. The detailed and engaging PowerPoint and accompanying resources have been designed to cover the content of point 6.4.1 of the AQA A-level biology specification, which is the titled “Pripnciples of homeostasis and negative feedback”.
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 neuronal or hormonal 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.
All 4 lessons included in this bundle are fully-resourced and have been designed to cover the content as detailed in topic 6.2 (Nervous coordination) of the AQA A-Level Biology specification. The specification points that are covered within these lessons include:
The structure of a myelinated motor neurone
The establishment of a resting potential
Depolarisation
All or nothing principle
Factors affecting the speed of conductance
The lessons have been written to include a wide range of activities and numerous understanding and prior knowledge checks so students can assess their progress against the current topic as well as be challenged to make links to other topics within this module and earlier modules
If you would like to sample the quality of the lessons, download the saltatory conduction lesson which is free
Each of the 4 lessons included in this bundle are fully-resourced and have been designed to cover the content as detailed in topic 7.3 (Evolution may lead to speciation) of the AQA A-Level Biology specification. The specification points that are covered within these lessons include:
Phenotypic variation within a species
The effects of stabilising, directional and disruptive selection
The importance of genetic drift in causing changes in allele frequency
Allopatric and sympatric speciation
The lessons have been written to include a wide range of activities and numerous understanding and prior knowledge checks so students can assess their progress against the current topic as well as be challenged to make links to other topics within this module and earlier modules
If you would like to see the quality of the lessons, download the phenotypic variation lesson which is free
This engaging lesson explores the roles of the SAN, AVN, Bundle of His and Purkyne fibres in the transmission of the wave of excitation through the heart. The PowerPoint and accompanying resources have been designed to cover the first part of point 6.1.3 of the AQA A-level Biology specification which states that students should be able to describe the myogenic stimulation of the heart and the subsequent wave of electrical activity.
The lesson begins with the introduction of the SAN as the natural pacemaker and then time is given to study each step of the conduction of the impulse as it spreads away from the myogenic tissue in a wave of excitation. The lesson has been written to make clear links to the cardiac cycle and the structure of the heart and students are challenged on their knowledge of this system from topic 3. Moving forwards, students are encouraged to consider why a delay would occur at the AVN and then they will learn that the impulse is conducted along the Bundle of His to the apex so that the contraction of the ventricles can happen from the bottom upwards. The structure of the cardiac muscle cells is discussed and the final task of the lesson challenges the students to describe the conducting tissue, with an emphasis on the use of key terminology
This bundle contains 11 fully-resourced lessons which will engage and motivate the students whilst covering the following specification points in topics 7 and 8 of the CIE A-level Biology specification:
TOPIC 7
The structure of xylem vessel elements, phloem sieve tube elements and companion cells
The relationship between the structure and function of xylem vessel elements, phloem sieve tube elements and companion cells
Explain how hydrogen bonding of water molecules is involved with the movement in the xylem by cohesion-tension in transpiration pull and adhesion to cell walls
The pathways and mechanisms by which water and mineral ions are transported from the soil to the xylem and from roots to leaves
Assimilates move between sources and sinks between phloem sieve tubes
The mechanism by which sucrose is loaded into the phloem
The mass flow of phloem sap down a hydrostatic pressure gradient
TOPIC 8
The double, closed circulatory system of a mammal
The relationship between the structure and function of arteries, veins and capillaries
The role of haemoglobin in carrying oxygen and carbon dioxide
The significance of the oxygen dissociation curve of adult haemoglobin at different carbon dioxide concentrations
The external and internal structure of the heart
The cardiac cycle
The role of the SAN, AVN and Purkyne tissue in the initiation and conduction of the heart action
The lesson PowerPoints and accompanying resources contain a wide range of tasks which include exam-style questions with mark schemes, discussion points and quiz competitions that will check on current understanding as well as making links to previously covered topics.
This fully-resourced bundle includes 10 detailed PowerPoint lessons and their accompanying worksheets which cover the content as set out in topic 3.4 (Mass transport) of the AQA A-level Biology specification. This topic includes sections on mass transport in animals (3.4.1) and mass transport in plants (3.4.2).
The lessons have been designed to include a wide range of tasks to maintain motivation whilst ensuring that the understanding of the content is constantly checked and links are made to other topics.
The specification points in topic 3.4 which are covered in these lessons are:
The haemoglobins
The role of haemoglobin in the transport of oxygen
The oxyhaemoglobin dissociation curve
The Bohr effect
The general pattern of blood circulation in a mammal
The gross structure of the human heart
The valve movements in the cardiac cycle
The structure of the blood vessels
The formation of tissue fluid
The transport of water in the xylem
The structure of the phloem tissue
Translocation by mass flow
If you would like to see the quality of these lessons, download the arteries, tissue fluid and translocation lessons as these have been uploaded for free
This fully-resourced lesson describes how the release of ADH from the pituitary gland controls mammalian plasma concentration. The engaging PowerPoint and accompanying resources have been designed to cover the detail included in point 9.9 (iv) of the Edexcel A-level Biology B specification and also includes details of the roles of the osmoreceptors in the hypothalamus.
The principles of homeostasis and negative feedback were covered in an earlier lesson in topic 9, so this lesson acts to build on that knowledge and challenges them to apply their knowledge. A wide range of activities have been included in the lesson to maintain motivation and engagement whilst the understanding and prior knowledge checks will allow the students to assess their progress as well as challenge themselves to make links to other Biology topics.
The lesson begins with a discussion about how the percentage of water in urine can and will change depending on the blood water potential. Students will quickly be introduced to osmoregulation and they will learn that the osmoreceptors and the osmoregulatory centre are found in the hypothalamus. A considerable amount of time is taken to study the cell signalling between the hypothalamus and the posterior pituitary gland by looking at the specialised neurones (neurosecretory cells). Links are made to the topics of neurones, nerve impulses and synapses and the students are challenged to recall the cell body, axon and vesicles. The main section of the lesson forms a detailed description of the body’s detection and response to a low blood water potential. The students are guided through this section as they are given 2 or 3 options for each stage and they have to use their knowledge to select the correct statement. The final task asks the students to write a detailed description for the opposite stimulus and this task is differentiated so those who need extra assistance can still access the work.
All 10 lessons included in this bundle are highly detailed and are fully-resourced. The lesson PowerPoints and their accompanying worksheets contain a wide range of tasks that will engage and motivate the students whilst covering the following specification points as set out in topic 4 of the Edexcel International A-level Biology specification:
The structure and ultrastructure of plant cells
The function of the organelles in plant cells
The structure and function of starch and cellulose
The similarities and differences between the structures, position and functions of sclerenchyma, xylem and phloem
The importance of water and inorganic ions in plants
Understand that classification is a means of organising the variety of life based on relationships between organisms
New taxonomic groupings
The meaning of the terms biodiversity and endemism
Know how biodiversity can be measured within a habitat and within a species
Comparing biodiversity between habitats using the index of diversity
The adaptations of organisms to their environment
Use of the Hardy-Weinberg equation
Changes in allele frequency are the result of mutation and natural selection
Evaluate the methods used by zoos and seed banks in the conservation of endangered species and their genetic diversity
If you would like to sample the quality of lessons in this bundle then download the cellulose & starch and modern-day classification lessons as these have been uploaded for free
This fully-resourced lesson describes the key steps in the process of DNA replication, including the role of DNA polymerase. Both the detailed PowerPoint and accompanying resources have been designed to cover point 2.11 (i) of the Pearson Edexcel A-level Biology A specification and this lesson also explains why this replication is known as semi-conservative in order to prepare the students for the following lesson on Meselson and Stahl’s experiment.
The main focus of this lesson is the role of DNA polymerase in the formation of the growing nucleotide strands but the students will also learn that the hydrogen bonds between nucleotide bases are broken by DNA helicase and that DNA ligase joins the nucleic acid fragments. Time is taken to explain key details, such as the assembly of strands in the 5’-to-3’ direction, so that the continuous manner in which the leading strand is synthesised can be compared against that of the lagging strand. The students are constantly challenged to make links to previous topics such as DNA structure and hydrolysis reactions through a range of exam questions and answers are displayed so that any misconceptions are quickly addressed. The main task of the lesson asks the students to use the information provided in the lesson to order the sequence of events in DNA replication before discussing how the presence of a conserved strand and a newly built strand in each new DNA molecule shows that it is semi-conservative.
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.
The biological molecules topic is incredibly important, not just because it is found at the start of the course, but also because of its detailed content which must be well understood to promote success with the other 9 Edexcel A-level Biology B topics. Many hours of intricate planning has gone into the design of all of the 19 lessons that are included in this bundle to ensure that the content is covered in detail, understanding is constantly checked and misconceptions addressed and that engagement is high. This is achieved through the wide variety of tasks in the PowerPoints and accompanying worksheets which include exam-style questions with clear answers, discussion points, differentiated tasks and quick quiz competitions.
The following specification points are covered by the lessons within this bundle:
The differences between monosaccharides, disaccharides and polysaccharides
The structure of glucose and ribose
The formation of disaccharides and polysaccharides from monosaccharides
The structure of starch, glycogen and cellulose
The synthesis of a triglyceride
The differences between saturated and unsaturated lipids
The relationship between the structure of lipids and their roles
The structure and properties of phospholipids
The structure of an amino acid
The formation of polypeptides and proteins
The role of ionic, hydrogen and disulphide bonding in proteins
The levels of protein structure
The structure of collagen and haemoglobin
The structure of DNA
The semi-conservative replication of DNA
A gene is a sequence of bases on DNA that codes for an amino acid sequence
The structure of mRNA
The structure of tRNA
The process of transcription
The process of translation
Base deletions, insertions and substitutions as gene mutations
The effect of point mutations on amino acid sequences
The structure of enzymes as globular proteins
The concept of specificity and the induced-fit hypothesis
Enzymes are catalysts that reduce activation energy
Understand how temperature affects enzyme activity
Enzymes catalyse a wide range of intracellular reactions as well as extracellular ones
The role of inorganic ions in plants
The importance of water for living organisms
Due to the detail included in these lessons, it is estimated that it will take in excess of 2 months of allocated A-level teaching time to complete.
If you would like to see the quality of the lessons then download the monosaccharides, disaccharides and polysaccharides, glucose and ribose, triglycerides, structure of DNA and transcription lessons as these have been uploaded for free.
This engaging and fully-resourced lesson looks at the effects of stabilising, directional and disruptive selection as the three main types of selection. The PowerPoint and accompanying resources have been designed to cover the 3rd part of point 7.3 of the AQA A-level Biology specification which states that students should be able to identify each type of selection by its effect on different phenotypes.
The lesson begins with an introduction to the mark, release, recapture method to calculate numbers of rabbits with different coloured fur in a particular habitat. This method is covered later in topic 7 so this section of the lesson is designed purely to generate changes in numbers of the organisms. Sketch graphs are then constructed to show the changes in the population size in this example. A quick quiz competition is used to engage the students whilst introducing the names of the three main types of selection before a class discussion point encourages the students to recognise which specific type of selection is represented by the rabbits. Key terminology including intermediate and extreme phenotypes and selection pressure are used to emphasise their importance during explanations. A change in the environment of the habitat and a change in the numbers of the rabbits introduces directional selection before students will be given time to discuss and to predict the shape of the sketch graph for disruptive selection. Students are challenged to apply their knowledge in the final task of the lesson by choosing the correct type of selection when presented with details of a population and answer related questions.
This fully-resourced lesson focuses on the role of meiosis in ensuring genetic variation through the production of non-identical gametes. The detailed PowerPoint and accompanying resource have been designed to cover point 3.9 of the Pearson Edexcel A-level Biology (Salters Nuffield) specification which states that students should be able to describe how crossing over and independent assortment result in genetically unidentical daughter cells.
In order to understand how the events of meiosis like crossing over and random assortment and independent segregation can lead to variation, students need to be clear in their understanding that DNA replication in interphase results in homologous chromosomes as pairs of sister chromatids. Therefore the beginning of the lesson focuses on the chromosomes in the parent cell and this first part of the cycle and students will be introduced to non-sister chromatids and the fact that they may contain different alleles which is important for the exchange that occurs during crossing over. Time is taken to go through this event in prophase I in a step by step guide so that the students can recognise that the result can be new combinations of alleles that were not present in the parent cell. Moving forwards, the lesson explores how the independent segregation of chromosomes and chromatids during anaphase I and II results in genetically different gametes. The final part of the lesson looks at the use of a mathematical expression to calculate the possible combinations of alleles in gametes as well as in a zygote following the random fertilisation of haploid gametes. Understanding and prior knowledge checks are interspersed throughout the lesson as well as a series of exam questions which challenge the students to apply their knowledge to potentially unfamiliar situations.
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.
