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 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
The wide variety of tasks that are written into the 18 lesson PowerPoints and accompanying resources that are included in this lesson bundle will engage and motivate the students whilst covering the detailed content of topic 4 of the Edexcel A-level Biology B specification (Exchange and transport).
The following specification points are covered by these lessons:
Understand how the surface area to volume ratio affects the transport of molecules in living organisms
Understand why organisms need a mass transport system and specialised gas exchange surfaces as they increase in size
The structure of the cell surface membrane
Passive transport is brought about by diffusion and facilitated diffusion
Passive transport is brought about by osmosis
Understand how the properties of molecules affects how they are transported
Large molecules are transported in and out of cells by endocytosis and exocytosis
The process of active transport
The phosphorylation and hydrolysis of ATP
Understand how insects, fish and mammals are adapted for gas exchange
The structure of the heart, arteries, veins and capillaries
The advantages of the double circulatory system
The sequence of events of the cardiac cycle
The myogenic stimulation of the heart
Interpreting ECG traces
The role of platelets and plasma proteins in the sequence of events leading to blood clotting
The structure of haemoglobin in relation to its role in the transport of respiratory gases
The Bohr effect
The dissociation curve of haemoglobin
The significance of the oxygen affinity of foetal haemoglobin
The similarities and differences between the structure and function of haemoglobin and myoglobin
The formation and reabsorption of tissue fluid
Know that tissue fluid that is not reabsorbed is returned to the blood via the lymph
The structure of the xylem and phloem in relation to their role in transport
The movement of water by the apoplastic and symplastic pathways
The cohesion-tension model
Hours and hours has gone into the intricate planning of all of these lessons and the quality can be sampled by downloading the following lessons which have been uploaded for free:
Surface area to volume ratio
ATP, active transport, endocytosis and exocytosis
Structure of the heart, arteries, veins and capillaries
Double circulatory system
Apoplastic and symplastic pathways
All of the 9 lessons that are 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
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 detailed lesson describes each of the 4 stages of aerobic respiration and explains how this cellular reaction yields ATP and generates heat. The engaging PowerPoint and accompanying resource have been designed to cover points 5.1 (i) and (ii) of the Edexcel A-level Biology B specificaiton and acts as a clear introduction for the upcoming lessons where the finer details of glycolysis, the Link reaction and Krebs cycle and oxidative phosphorylation are described
The lesson begins with an introduction to glycolysis and students will learn how this first stage of aerobic respiration is also the first stage when oxygen is not present. This stage involves 10 reactions and an opportunity is taken to explain how each of these reactions is catalysed by a different, specific intracellular enzyme. A version of “GUESS WHO” challenges students to use a series of structural clues to whittle the 6 organelles down to just the mitochondrion so that they can learn how the other three stages take place inside this organelle. Moving forwards, the key components of the organelle are identified on a diagram. Students are introduced to the stages of respiration so that they can make a link to the parts of the cell and the mitochondria where each stage occurs. Students will learn that the presence of decarboxylase and dehydrogenase enzymes in the matrix along with coenzymes and oxaloacetate allows the link reaction and the Krebs cycle to run and that these stages produce the waste product of carbon dioxide. Finally, time is taken to introduce the electron transport chain and the enzyme, ATP synthase, so that students can begin to understand how the flow of protons across the inner membrane results in the production of ATP and the the formation of water when oxygen acts as the final electron acceptor.
This lesson bundle contains 5 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 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 lesson bundle contains 4 detailed lesson PowerPoints, which along with their accompanying resources have been designed to cover the majority of the content in module 2.1.6 of the OCR A-level Biology A specification.
The lessons have been planned at length and include exam-style questions that will challenge the students on their current understanding, prior knowledge checks to encourage students to make links to previously covered topics, guided discussion points and quick quiz competitions to introduce memorable terms and values.
The following specification points are covered by the resources in this bundle:
The cell cycle
How the cell cycle is regulated
The main stages of mitosis
The significance of mitosis in life cycles
The significance of meiosis in life cycles
The main stages of meiosis
How cells of multicellular organisms are specialised for particular functions
The organisation of cells into tissues, organs and organ systems
Stem cells as a renewing source of undifferentiated cells
The production of erythrocytes and neutrophils derived from stem cells in bone marrow
If you would like to sample the quality of the lessons in this bundle, then download the cell specialisation and organisation lesson as this has been uploaded for free
This lesson bundle contains 9 detailed and engaging lessons which have been designed to cover the following content in topics 10 & 11 of the CIE A-level Biology specification:
10.1: Infectious diseases
The meaning of the term disease and the difference between infectious and non-infectious diseases
The name and type of pathogen that causes cholera, malaria, TB, HIV/AIDS, smallpox and measles
Explain how cholera, malaria, TB, HIV and measles are transmitted
10.2: Antibiotics
Outline how penicillin acts on bacteria and why antibiotics do not affect viruses
Outline how bacteria become resistant to antibiotics with reference to mutation and selection
Discuss the consequences of antibiotic resistance and the steps that can be taken to reduce its impact
11.1: The immune system
State that phagocytes have their origin in bone marrow and describe their mode of action
Describe the modes of action of B and T lymphocytes
The meaning of the term immune response, with reference to antigens, self and non-self
Explain the role of memory cells in long term immunity
Autoimmune diseases as exemplified by myasthenia gravis
11.2: Antibodies and vaccination
Relate the molecular structure of antibodies to their functions
Distinguish between active and passive, natural and artificial immunity and explain how vaccination can control disease
Each of the lesson PowerPoints is accompanied by worksheets which together contain a wide range of tasks that will engage and motivate the students whilst challenging them on their understanding of the current topic as well as previously-covered topics.
If you would like to get an understanding of the quality of the lessons in this bundle, then download the transmission of infectious diseases and phagocytes and phagocytosis lessons as these have been shared for free.
This lesson describes why a disease would be deemed to be an autoimmune disease and describes the mechanisms involved in a few examples. The PowerPoint and accompanying worksheets have been primarily designed to cover point 4.1.1 (k) of the OCR A-level Biology A specification, but this lesson can also be used to revise the content of modules 2 and 3 and the previous lessons in 4.1.1 through the range of activities included
The lesson begins with a challenge, where the students have to recognise diseases from descriptions and use the first letters of their names to form the term, autoimmune. In doing so, the students will immediately learn that rheumatoid arthritis, ulcerative colitis, type I diabetes mellitus, multiple sclerosis and myasthenia gravis are all examples of autoimmune diseases. The next part of the lesson focuses on the mechanism of these diseases where the immune system cells do not recognise the antigens (self-antigens) on the outside of the healthy cells, and therefore treats them as foreign antigens, resulting in the production of autoantibodies against proteins on these healthy cells and tissues. Key details of the autoimmune diseases stated above and lupus are described and links to previously covered topics as well as to future topics such as the nervous system are made. The students will be challenged by numerous exam-style questions, all of which have mark schemes embedded into the PowerPoint to allow for immediate assessment of progress.
This lesson describes the differences between the primary and secondary responses and describes how the structure of antibodies is related to function. The PowerPoint and accompanying resources have been designed to cover specification points 4.1.1 (g), (h) and (i) as detailed in the OCR A-level Biology A specification and emphasises the importance of memory cells.
As memory B cells differentiate into plasma cells that produce antibodies when a specific antigen is re-encountered, it was decided to link the immune responses and antibodies together in one lesson. The lesson begins by checking on the students incoming knowledge to ensure that they recognise that B cells differentiate into plasma cells and memory cells. This was introduced in a previous lesson on the specific immune response and students must be confident in their understanding if the development of immunity is to be understood. A couple of quick quiz competitions are then used to introduce key terms so that the structure of antibodies in terms of polypeptide chains, variable and constant regions and hinge regions are met. Time is taken to focus on the variable region and to explain how the specificity of this for a particular antigen allows neutralisation and agglutination to take place. The remainder of the lesson focuses on the differences between the primary and secondary immune responses and a series of exam-style questions will enable students to understand that the quicker production of a greater concentration of these antibodies in the secondary response is due to the retention of memory cells.
This fully-resourced lesson describes how natural selection results in species with anatomical, behavioural and physiological adaptations. The engaging and detailed PowerPoint and accompanying resources have been designed to cover the fourth part of point 4.4 of the AQA A-level Biology specification and make continual links to the earlier parts of this topic including evolution and genetics.
A quick quiz competition at the start of the lesson introduces the different types of adaptation and a series of tasks are used to ensure that the students can distinguish between anatomical, behavioural and physiological adaptations. The Marram grass is used to test their understanding further, before a step by step guide describes how the lignified cells prevent a loss of turgidity. Moving forwards, the students are challenged to explain how the other adaptations of this grass help it to survive in its environment. A series of exam-style questions on the Mangrove family will challenge them to make links to other topics such as osmosis and the mark schemes are displayed to allow them to assess their understanding. The final part of the lesson focuses on the adaptations of the anteater but this time links are made to the upcoming topic of taxonomy so that students are prepared for this lesson on species and classification hierarchy.
This fully-resourced lesson describes the differences between continuous and discontinuous variation and intraspecific and interspecific variation. The engaging PowerPoint and accompanying resources have been designed to cover the first part of point 4.2.2 (f) of the OCR A-level Biology A specification but also acts as a revision tool as a number of activities challenge the students on their knowledge of the genetic code and meiosis from modules 2.1.3 and 2.1.6.
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 between members of the same species is due to both genetic and environmental factors and that this is known as intraspecific variation. The next 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 and deletions, the degenerate and non-overlapping genetic code, crossing over and independent assortment. 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 the following task, the students have to determine whether a statement or example represents discontinuous or continuous variation. The final part of the lesson describes a few examples where environmental factors affect phenotype, such as chlorosis in plants.
This fully-resourced lesson describes the regulatory mechanisms that control gene expression at a transcriptional level. The detailed PowerPoint and accompanying resources have been designed to cover the first part of point 6.1.1 (b) as detailed in the OCR A-level Biology A specification which states that the students knowledge should include the lac operon and examples of transcription factors in eukaryotes. .
This is one of the more difficult concepts in this A-level course and therefore key points are reiterated throughout this lesson to increase the likelihood of student understanding and to support them when trying to make links to actual biological examples in living organisms. There is a clear connection to transcription and translation as covered in module 2.1.3, so the lesson begins by reminding students that in addition to the structural gene in a transcription unit, there is the promotor region where RNA polymerase binds. Students are introduced to the idea of transcription factors and will understand how these molecules can activate or repress transcription by enabling or preventing the binding of the enzyme. At this point, students are challenged on their current understanding with a series of questions about DELLA proteins so they can see how these molecules prevent the binding of RNA polymerase. Their understanding is then tested again with another example with oestrogen and the ER receptor. The final and main section of the lesson focuses on the lac operon and immediately an opportunity is taken to challenge their knowledge of biological molecules with a task where they have to spot the errors in a passage describing the formation and breakdown of this disaccharide. Students will be able to visualise the different structures that are found in this operon and time is taken to go through the individual functions. A step by step guide is used to walk students through the sequence of events that occur when lactose is absent and when it is present before they are challenged to apply their understanding to an exam question.
This bundle contains 13 detailed lesson PowerPoints, which together with their accompanying resources, have been planned to include a wide variety of tasks that will engage and motivate the students whilst covering the content of topic 3 of the Pearson Edexcel A-level Biology A (Salters Nuffield) specification. The voice of the genome topic content includes key biological concepts such as eukaryotic cells, cell division and genetics and the following specification points are covered by these lessons:
All living organisms are made of cells, sharing common features
The ultrastructure of eukaryotic cells and the role of the organelles
The role of the rER and the Golgi body in protein transport
The relationship between the features of the mammalian gametes and their functions
The loci is the location of a gene on a chromosome
The linkage of genes on a chromosome and sex linkage
The role of meiosis in ensuring genetic variation
The role of mitosis and the cell cycle
The meaning of the terms stem cell, pluripotency and totipotency
The decisions about the use of stem cells in medical therapies
The specialisation of cells through differential gene expression
Understand how the cells of multicellular organisms are organised into tissues, tissues into organs and organs into systems
Phenotype is the interaction between genotype and the environment
Epigenetic changes can modify the activation of certain genes
Some phenotypes are affected by multiple alleles for the same gene at many loci as well as the environment and this gives rise to continuous variation
If you would like to sample the quality of lessons in this bundle, then download the ultrastructure of eukaryotic cells, mitosis and the cell cycle and gene expression lessons as these have been uploaded for free
This lesson describes how communication occurs between cells by cell signalling. The PowerPoint and accompanying resource have been designed to cover point 5.1.1 (b) of the OCR A-level Biology A specification and focuses on the use of the nervous system for communication between the CNS and effectors and the release of hormones to bring about responses.
As this is one of the first lessons to be delivered in module 5, this lesson has been specifically planned to prepare students for the upcoming topics of neuronal and hormonal communication. Students begin by learning that cell signalling governs the basic activities of cells and coordinates multiple cell actions. Moving forwards, the next part of the lesson focuses on the nervous system and students will learn that an electrical impulse will be conducted on a somatic or an autonomic motor neurone depending upon the type of muscle to be stimulated. This provides some introductory information for modules 5.1.3 and 5.1.5. The remainder of the lesson describes how the hormones that are secreted by the cells of endocrine glands allow communication with target cells and the different actions of peptide and steroid hormones is considered.
All 9 of the lessons included in this bundle are fully resourced and have been designed to cover the detailed content of module 5.2.2 (Respiration) of the OCR A-Level Biology A specification.
The following specification points are covered by this bundle of lessons:
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 chemiosmotic theory
The process of anaerobic respiration in eukaryotes
The difference in the relative energy values of carbohydrates, lipids and proteins
The use and interpretation of the respiratory quotient
All of the lessons are detailed and engaging and contain regular progress checks so that students can assess their understanding of the current topic as well as prior knowledge checks to enable links between topics and modules to be seen
It is estimated that these lessons will cover in excess of a month’s A-level Biology teaching time
This detailed lesson describes the principles of DNA sequencing and has been designed to cover the first part of point 6.1.3 (a) of the OCR A-level Biology A specification. Fred Sanger’s chain termination method is used as the example to guide the students through the details of each step.
The lesson begins with a focus on the common ingredients of the process such as DNA polymerase, DNA nucleotides and primers. Links are made to module 2.1.3 where nucleic acids were initially met through a series of prior knowledge check questions. Time is then taken to explain why these short lengths of synthesised nucleotides are necessary and this will support students when primers are met in the PCR and genetic engineering. Moving forwards, students will recognise how the modification to the nucleotide means that the chain terminates once a modified nucleotide is added into the sequence and that these have been radioactively labelled. Gel electrophoresis is introduced and an outline of the process given to provide knowledge to build on when this is encountered later in the module. A series of exam-style questions allow students to assess their understanding of this potentially difficult topic before students are encouraged to consider the limitations of the method so they are prepared to meet the new methods in upcoming lessons.
A number of quiz competitions run throughout the lesson to maintain engagement and to introduce terms and values in a memorable way
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
This bundle of 20 fully-resourced lessons have been designed to allow students who are studying the AQA GCSE Combined Science course to assess their understanding of the topics found within the following units of the specification:
B1: Cell Biology
B2: Organisation
B4: Bioenergetics
B5: Homeostasis and response
B6: Inheritance, variation and evolution
B7: Ecology
C1: Atomic structure and the periodic table
C2: Bonding, structure and properties of matter
C3: Quantitative chemistry
C4: Chemical changes
C5: Energy changes
C6: The rate and extent of chemical change
C7: Organic chemistry
C8: Chemical analysis
C9: Chemistry of the atmosphere
P1: Energy
P2: Electricity
P4: Atomic structure
P5: Forces
P6: Waves
These lessons use a range of exam questions, understanding checks, quick tasks and quiz competitions to engage and motivate the students
This bundle of 4 lesson presentations and associated resources cover a lot of the mathematical skills that can be tested in Science. Since the move to the new GCSE specifications, the mathematical element has increased significantly and these lessons act to guide students through these skills. Students are shown how to convert between units, rearrange to change the subject of the formula and to use significant figures and standard form.
This engaging lesson presentation (58 slides) and associated worksheets uses exam questions with displayed mark schemes, quick tasks and quiz competitions to enable students to assess their understanding of the topics found within module B4 of the OCR Gateway A GCSE Biology specification. The topics which are specifically tested within the lesson include:
Ecosystems, Competition and interdependence, Pyramids of biomass, Efficiency of biomass transfer, The carbon cycle and Decomposers
Students will enjoy the competitions such as "Number CRAZY" and "Take the HOTSEAT" whilst crucially being able to recognise those areas which need their further attention