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 describes how to investigate the distribution and abundance of organisms and how to estimate the numbers of a species in a habitat. The PowerPoint and accompanying resources are part of the first lesson in a series of two lessons which have been designed to cover the details of point B6.1a of the OCR GCSE Biology specification.
This first lesson focuses on the use of a quadrat to estimate population size as well as belt transects to consider distribution. Step by step guides are used throughout the lesson to model the workings required in the calculations. This includes the use of a 1 metre squared quadrat as well as other areas. Once a method has been modelled, the students are challenged with a series of exam questions and mark schemes are embedded into the PowerPoint to allow the students to self-assess.
This 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 explores how pyruvate can be converted to lactate or ethanol using reduced NAD and that the reoxidation of the coenzyme allows glycolysis to continue. The engaging and detailed PowerPoint and accompanying differentiated resources have been designed to cover the third part of point 5.2 of the AQA A-level Biology specification which states that students should know the fate of pyruvate if respiration is only anaerobic.
The lesson begins with a focus on the coenzyme, NAD, and students are challenged to recall details of its role in the oxidation of triose phosphate. Students will learn that oxidative phosphorylation in aerobic respiration allows these coenzymes to be reoxidised but that another metabolic pathway has to operate when there is no oxygen. Time is taken to go through the lactate and ethanol fermentation pathways and students are encouraged to discuss the conversions before applying their knowledge to complete diagrams and passages about the pathways. Understanding checks in a range of forms are used to enable the students to assess their progress whilst prior knowledge checks allow them to recognise the links to earlier topics.
This lesson has been written to tie in with the other uploaded lesson on glycolysis
This lesson has been designed to cover the detail of specification point 4.5.3.2 of the AQA GCSE Combined Science FOUNDATION TIER which states that students should be able to describe how the body detects and responds to an increase in blood glucose concentration. A considerable amount of time has been taken in the planning to ensure that the wide range of activities engages and motivates the students but that the key details are covered and understanding is checked and checked again.
The start of the lesson uses a range of prior knowledge checks and quiz competitions to answer the questions of what actually is glucose and why is it so important that the levels in the blood are controlled. Students are then introduced to glycogen and the fact that this carbohydrate can be stored is reiterated so that they can recognise how glucose must be converted into this substance to lower the blood concentration. Again, a quiz round is used to get them to recall that the pancreas will be the receptor and the liver will act as the effector. The main task of the lesson involves the formation of a bullet point answer where students are challenged to use the information from earlier in the lesson to complete this description.
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 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 6.1 (Cellular control) of the OCR A-level Biology specification.
The topics tested within this lesson include:
Gene mutations
Regulation of gene expression
The Lac Operon
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 lesson explores how genetic and environmental factors cause phenotypic variation. The engaging PowerPoint and accompanying worksheets have been designed to cover the first part of point 7.3 of the AQA A-level Biology specification which states that students should be able to describe how mutations and meiosis both contribute to genetic variation
Students are challenged at the start of the lesson to recognise the terms phenotype and species from their definitions in order to begin a discussion on the causes of the phenotypic variation within a species. Moving forwards, students will recall that mutations are the primary source of genetic variation and time is taken to look at the effect of gene and chromosome mutations. Just like the majority of parts of this specification point, gene mutations were covered earlier in topic 4 so these tasks act as a prior knowledge check as students have to recognise the different types of gene mutations and explain their effects on the primary structure with reference to the genetic code. These prior knowledge checks are found throughout the lesson and challenge the knowledge of other topics that include photosynthesis, meiosis and inorganic ions. The karyotype of an individual who has Down syndrome is used to introduce chromosome mutations and students will be introduced to the different types, with a focus on non-disjunction. The key events of meiosis that produce variation (crossing over and independent assortment) are explored and students will be given a mathematical formula to use to calculate the number of chromosome combinations in gametes and in the resulting zygote. The final part of the lesson looks at chlorosis and how an environmental factor can prevent the express of a gene.
This fully-resourced lesson has been designed to cover the content of specification point 5.3.3 (Maintaining water and nitrogen balance in the body) as found in topic 5 of the AQA GCSE Biology specification. This resource contains an engaging and detailed PowerPoint (59 slides) and accompanying worksheets, which have been differentiated so that students of different abilities can access the work. The detail of the content and this resource means that it is likely to take more than 1 lesson to go through the tasks.
The resource is filled with a wide range of activities, each of which has been designed to engage and motivate the students whilst ensuring that the key Biological content is covered in good detail. Understanding checks are included throughout so that the students can assess their grasp of the content. In addition, prior knowledge checks make links to content from earlier topics such as homeostasis, osmosis and active transport.
The following content is covered in this lesson:
The importance of controlled water levels for cellular function
The ways that water is lost and removed from the body
The formation of urea by deamination
Filtration of the blood by the kidney
Selective reabsorption of useful molecules from the kidney to the blood
The effect of ADH on the permeability of the tubules of the kidney
Dialysis and transplant as possible treatment options for kidney failure
As stated at the top, this lesson has been designed for GCSE-aged students who are studying the AQA GCSE Biology course, but it can be used with A-level students who need to go back over the key points before looking at the function of the nephron in more detail
A resourced lesson which looks at gas exchange at the alveoli and focuses on how these structures are adapted to carry out efficient gas exchange. The lesson includes an engaging lesson presentation (21 slides) and an associated worksheet.
The lesson begins by revisiting the idea of the surface area to volume ratio of small organisms against larger organisms. This will remind students that due to the low surface area to volume ratio of a human, they need to have adaptations at the exchange surfaces to increase the surface area. Moving forwards, a range of competitions are used to introduce students to the numbers and key terms associated with the alveoli. Students will learn how the large number (700 million) of alveoli leads to a large surface area and how a permeable membrane is also essential. Time is written into the lesson to allow students to think about key features, such as the one cell thick lining, and relate this to the rate of diffusion. The lesson concludes with students completing a passage about how the respiratory and circulatory systems work together to maintain a steep concentration gradient between the alveoli and the capillaries.
There are regular progress checks throughout the lesson to allow the students to check on their understanding. As always, the lesson finishes with a slide containing advanced terminology so that students who have aspirations to take A-level Biology can extend and deepen their knowledge
An engaging lesson presentation (39 slides) which explores how cells differentiate in order to specialise to become more effective at carrying out a particular function. This lesson focuses on five cells - red blood cells, sperm cells, fat cells, ciliated cells and palisade cells.
The lesson begins by challenging the mathematical skills of the students as they have to convert the number 37 trillion into standard form. Students will learn that although all of the cells found in a human would be eukaryotic animal cells, they wouldn’t all be the same. They are introduced to the key term differentiation through a quiz competition and time is taken to ensure that students understand how this process leads to specialisation. The remainder of the lesson concentrates on looking at the function and features of the five cells. Quiz competitions are used throughout to maintain engagement whilst ample time is given to student discussion where they are challenged to consider why a cell would have specialised in such a way. Key terminology is consistently used so that students are not caught off guard in an exam question when this specialist language is used. Regular progress checks are written into the lesson to allow the students to check on their understanding.
This lesson has been written for GCSE students but could be used with higher ability KS3 students who are looking to extend their knowledge on the topic of cells.
This bundle of 9 lessons covers the majority of the content in Topic B1 of the OCR Gateway A GCSE Combined Science specification. The topics covered within these lessons include:
Animal and plant cells
Prokaryotic cells
Light and electron microscopy
DNA
Enzymes
Enzyme activity
Aerobic respiration
Anaerobic respiration
Photosynthesis
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. It is estimated that this bundle would cover about 6 week’s worth of lessons.
This bundle of 11 lessons covers the majority of the content in Topic B3 (Organism level systems) of the OCR Gateway A GCSE Combined Science specification. The topics covered within these lessons include:
The nervous system
Hormones and the endocrine system
Adrenaline
Negative feedback loops
Thyroid gland and thyroxine
The menstrual cycle
Contraception
Using hormones to treat infertility
Homeostasis
Controlling blood glucose
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 bundle of 13 lessons covers the majority of the content in Topic B2 (Scaling Up) of the OCR Gateway A GCSE Combined Science & GCSE Biology specifications. The topics covered within these lessons include:
Mitosis
Cell differentiation
Cell specialisation
Stem cells
Diffusion
Osmosis
Active transport
Exchange surfaces
The heart in the circulatory system
The blood and blood vessels
Plant transport systems
Transpiration
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 bundle of 8 lessons covers the majority of the content in Topic B2 (Organisation) of the AQA Trilogy GCSE Combined Science specification. The topics covered within these lessons include:
Enzymes
Enzyme reactions
The Heart
The Blood vessels
The Blood
Cardiovascular disease
Health and disease
Risk factors for non-communicable diseases
Transport in plants through the xylem and phloem
Transpiration (and stomata)
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 bundle of 4 lessons covers the majority of the content in Topic B4 (Bioenergetics) of the AQA Trilogy GCSE Combined Science & GCSE Biology specifications. The topics covered within these lessons include:
Photosynthesis
Uses of glucose from photosynthesis
Limiting factors
Aerobic respiration
Anaerobic respiration
Response to exercise
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 bundle of 14 lessons covers the majority of the content in Topic B6 (Inheritance, Variation and Evolution) of the AQA Trilogy GCSE Combined Science specification. The topics covered within these lessons include:
DNA
Reproduction
Meiosis
X and Y chromosomes
Genetic diagrams
Inherited disorders
Variation
Evolution
Selective breeding
Genetic engineering
Fossils
Antibiotic-resistant bacteria
Classification
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 bundle of 4 lessons covers the majority of the content in the sub-topic B3.3 (Maintaining internal environments) of the OCR Gateway A GCSE Biology specification. The topics covered within these lessons include:
Controlling body temperature
Controlling blood sugar
Diabetes type I and II
Inside the kidney
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 is an informative lesson that builds on the knowledge that students gained at GCSE on the topic of inheritance to enable them to carry out genetic crosses for the inheritance of a single gene at A-level. The start of the lesson focuses on the terminology that is associated with this topic which has to be recognised and understood if students are going to be able to begin a cross. Time is taken to go over key points such as the genotypes and working out the different possible gametes that would be produced by meiosis. Students can save time by only showing the different gametes so assistance is given on this. As can be seen from the cover image, a step by step guide is used to go through a number of examples so that students can visualise how to set out their diagrams in order to maximise the marks gained. There are progress checks written into the lesson throughout so that assessment is constant.
This lesson can be taught alongside another upload called “understanding genetic trees”
This bundle of 5 lessons covers all of the content in Topic B2 (Cells) of the core and supplement sections of the Cambridge iGCSE Science Double Award specification. The topics and specification points covered within these lessons include:
Living organisms are made of cells
Structure of a plant cell and an animal cell
Functions of the organelles in animal and plant cells
Structure and function of specialised cells
Calculating magnification and size
Defining diffusion
The factors that influence the rate of diffusion
Movement through the cell membrane by diffusion
The movement of water by osmosis
The effects on plant tissues by solutions with different water potential
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 bundle of 6lessons covers the majority of the content in Topic B7 (Transport) of the core and supplement sections of the Cambridge iGCSE Science Double Award specification. The topics and specification points covered within these lessons include:
The functions of the xylem and phloem
The transport of water through the xylem vessels
Transpiration as the loss of water vapour
Factors affecting transpiration rate
Name and identify the structures of the mammalian heart
The transport of blood in arteries and veins
The blood vessels associated with the heart and lungs
Coronary heart disease
The structure and function of arteries, veins and capillaries
The function of red and white blood cells, platelets and plasma
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