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 the classification of species into the taxonomic hierarchy and cover point 18.2 (a) of the CIE A-level Biology specification. The engaging PowerPoint and accompanying resources have been designed to show students how the domain, kingdom, phylum, class, order, family, genus and species are used in modern-day classification.
The lesson begins by with a knowledge recall as students have to use the provided information about a mule to explain why a horse and donkey are considered to be members of different species. Moving forwards, students will learn that species is the lowest taxon in the modern-day classification hierarchy. The first of a number of rounds of a competition is used to engage the students whilst they learn the names of the 7 other taxa and the horse and the donkey from the earlier example are used to complete the hierarchy. Students are told that a binomial naming system is used in Biology to provide a universal name for each species and the final task of the lesson challenges them to apply their knowledge by completing a hierarchy for a modern-day human, by spotting the correct name for an unfamiliar organism
This revision lesson has been designed to challenge the students on their use of a range of mathematical skills that could be assessed on the six OCR Gateway A GCSE Combined Science papers. The mathematical element of the GCSE Combined Science course has increased significantly since the specification change and therefore success in those questions which involve the use of maths can prove to be the difference between one grade and another or possibly even more.
The engaging PowerPoint and accompanying resources contain a wide range of activities that include exam-style questions with displayed mark schemes and explanations so that students can assess their progress. Other activities include differentiated tasks, class discussion points and quick quiz competitions such as “It doesn’t HURT to CONVERT”, “YOU DO THE MATH” and “FILL THE VOID”.
The following mathematical skills (in a scientific context) are covered in this lesson:
The use of Avogadro’s constant
Rearranging the formula of an equation
Calculating the amount in moles using mass and relative formula mass
Calculating the relative formula mass for formulae with brackets
Using the Periodic Table to calculate the number of sub-atomic particles in atoms
Changes to electrons in ions
Balancing chemical symbol equations
Empirical formula
Converting between units
Calculating concentration in grams per dm cubed and volumes of solutions
Calculating size using the magnification equation
Using the mean to estimate the population of a sessile species
Calculating percentages to prove the importance of biodiversity
Calculating percentage change
The BMI equation
Calculating the acceleration from a velocity-time graph
Recalling and applying the Physics equations
Understanding prefixes that determine size
Leaving answers to significant figures and using standard form
Helpful hints and step-by-step guides are used throughout the lesson to support the students and some of the worksheets are differentiated two ways to provide extra assistance.
Due to the detail of this lesson, it is estimated that it will take in excess of 3 hours of GCSE teaching time to cover the tasks and for this reason it can be used over a number of lessons as well as during different times of the year for revision
This detailed lesson explains how the process of transcription results in the production of messenger RNA (mRNA). Both the detailed PowerPoint and accompanying resource have been designed to specifically cover the first part of point 6.2 (d) of the CIE International A-level Biology specification.
The lesson begins by challenging the students to recall that most of the nuclear DNA in eukaryotes does not code for polypeptides. This allows the promoter region and terminator region to be introduced, along with the structural gene. Through the use of an engaging quiz competition, students will learn that the strand of DNA involved in transcription is known as the template strand and the other strand is the coding strand. Links to previous lessons on DNA and RNA structure are made throughout and students are continuously challenged on their prior knowledge as well as they current understanding of the lesson topic. Moving forwards, the actual process of transcription is covered in a 7 step bullet point description where the students are asked to complete each passage using the information previously provided. An exam-style question is used to check on their understanding before the final task of the lesson looks at the journey of mRNA to the ribosome for the next stage of translation.
This lesson has been written to challenge all abilities whilst ensuring that the most important details are fully explained.
This detailed lesson describes the role of the strand of mRNA, the tRNA molecules, the amino acids and the ribosome during the second stage of protein synthesis - translation. Both the PowerPoint and accompanying resources have been designed to cover the second part of point 6.2 (d) of the CIE International A-level Biology specification and ties in with the first part of this specification point which covered transcription.
Translation is a topic which is often poorly understood and so this lesson has been written to enable the students to understand how to answer the different types of questions by knowing and including the key details of the structures involved. The lesson begins by challenging the students to consider why it is so important that the amino acids are assembled in the correct order during the formation of the chain. Moving forwards, a quick quiz round called “LOST IN TRANSLATION” is used to check on their prior knowledge of the mRNA strand, the tRNA molecules, the genetic code and the ribosomes. The next task involves a very detailed description of translation that has been divided into 14 statements which the students have to put into the correct order. By giving them a passage that consists of this considerable detail, they can pick out the important parts to use in the next task where they have to answer shorter questions worth between 3 and 4 marks. These types of questions are common in the assessments and by building up through the lesson, their confidence to answer this type should increase. The final two tasks of the lesson involve another quiz called “The protein synthesis game”, where the teams compete to transcribe and translate in the quickest time before using all the information from the lessons on protein synthesis to answer some questions which involve the genetic code and the mRNA codon table.
This fully-resourced lesson describes how the mechanisms of root pressure and transpiration pull move water upwards in the xylem to the leaves. The detailed PowerPoint and accompanying, differentiated resources have primarily been designed to cover the second part of point 7.2 [c] of the CIE International A-level Biology specification but also cover 7.2 [b] as the cohesion-tension theory and adhesion are described and explained.
This lesson has been written to follow on from the end of the previous lesson, which finished with the description of the transport of the water and mineral ions from the endodermis to the xylem. Students are immediately challenged to use this knowledge to understand root pressure and the movement by mass flow down the pressure gradient. Moving forwards, time is taken to study the details of transpiration pull and the interaction between cohesion, tension and adhesion in capillary action is explained. Understanding is constantly checked through a range of tasks and prior knowledge checks are also written into the lesson to challenge the students to make links to previously covered topics such as the structure of the transport tissues. The final part of the lesson considers the journey of water through the leaf and ultimately out of the stomata in transpiration. A step by step guide using questions to discuss and answer as a class is used to support the students before the final task challenges them to summarise this movement through the leaf.
All 4 of the lessons included in this bundle are fully-resourced with differentiated tasks to cater for all abilities of students whilst containing the detail to push them to the next level. These lessons have been designed to cover the details of topic 6.1 of the CIE International A-level Biology specification which concerns the structure and replication of DNA
The following specification points are covered within these lessons:
The structure of nucleotides
ATP as a phosphorylated nucleotide
The structure of DNA
The structure of mRNA, tRNA and rRNA
DNA replication
Links are continually made throughout the lessons to previously-covered topics as well as to those which will be covered later in the AS course or during the second year
If you would like to sample the quality of the lessons, download the semi-conservative replication lesson as this has been shared for free
Monosaccharides are the monomers from which larger carbohydrates are formed and this lesson describes their structure and roles in living organisms. The detailed and engaging PowerPoint and accompanying resources have been designed to cover the first part of point 1.2 of the AQA A-level Biology specification and looks at alpha-glucose, beta-glucose, galactose, fructose, deoxyribose and ribose.
The lesson begins with a made-up round of the quiz show POINTLESS, where students have to try to identify four answers to do with carbohydrates. In doing so, they will learn or recall that these molecules are made from carbon, hydrogen and oxygen, that they are a source of energy which can sometimes be rightly or wrongly associated with obesity and that the names of the three main groups is derived from the Greek word sakkharon. Using the molecular formula of glucose as a guide, students will be given the general formula for the monosaccharides and will learn that deoxyribose is an exception to the rule that the number of carbon and oxygen atoms are equal. Moving forwards, students have to study the displayed formula of glucose for two minutes without being able to note anything down before they are challenged to recreate what they saw in a test of their observational skills. At this point of the lesson, the idea of numbering the carbons is introduced so that the different glycosidic bonds can be understood in an upcoming lesson as well as the recognition of the different isomers of glucose. The difference between alpha and beta-glucose is provided and students are again challenged to draw a molecule of glucose, this time for the beta form. The remainder of the lesson focuses on the roles of the 6 monosaccharides and the final task involves a series of application questions where the students are challenged to suggest why ribose could be considered important for active transport and muscle contraction
This engaging lesson describes the relationship between the structure and properties of a phopholipid and explains the link to its role in membranes. The PowerPoint has been designed to cover the second part of point 1.3 of the AQA A-level Biology specification and includes constant references to the previous lesson on triglycerides.
The role of a phospholipid in a cell membrane provides the backbone to the whole lesson. A quick quiz round called FAMILY AFFAIR, challenges the students to use their knowledge of the structure of a triglyceride to identify the shared features in a phospholipid. This then allows the differences to be introduced, such as the presence of a phosphate group in place of the third fatty acid. Moving forwards, the students will learn that the two fatty acid tails are hydrophobic whilst the phosphate head is hydrophilic which leads into a key discussion point where the class has to consider how it is possible for the phospholipids to be arranged when both the inside and outside of a cell is an aqueous solution. The outcome of the discussion is the introduction of the bilayer which is critical for the lesson in topic 2 on the fluid mosaic model. The final part of the lesson explains how both facilitated diffusion and active transport mean that proteins are found floating in the cell membrane and this also helps to briefly prepare the students for upcoming topic 2 lessons.
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 7 AQA A-level Biology topics. Many hours of intricate planning has gone into the design of all of the 20 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:
Monomers and polymers
Condensation and hydrolysis reactions
Common monosaccharides
Maltose, sucrose and lactose
The structure and functions of glycogen, starch and cellulose
Biochemical tests using Benedict’s solution for reducing sugars and non-reducing sugars and iodine/potassium iodide for starch
The structure and properties of triglycerides and phospholipids
The emulsion test for lipids
The structure of amino acids
The formation of dipeptides and polypeptides
The levels of protein structure
The biuret test for proteins
Enzymes act as biological catalysts
The induced-fit model of enzyme action
The properties of an enzyme
The effect of temperature on the rate of an enzyme-controlled reaction
The effect of enzyme and substrate concentration on the rate of an enzyme-controlled reaction
The effect of competitive and non-competitive inhibitors on the rate of an enzyme-controlled reaction
The structure of DNA and RNA
The semi-conservative replication of DNA
ATP as the universal energy currency
The properties of water and its importance in Biology
Inorganic ions
Due to the detail of each of these lessons, it is estimated that it will take in excess of 2 months of allocated teaching time to cover the content.
If you would like to see the quality of the lessons, download the monomers and polymers, polysaccharides, triglycerides, dipeptides and polypeptides and inorganic ions lessons as these have been shared for free
A detailed and engaging lesson presentation (43 slides) and accompanying worksheets that introduces students to the disease, Diabetes (mellitus), and focusses on the similarities and differences between types I and II. The lesson begins by challenging the students mathematically to get the answers 1 and 2 and then to see whether they can link these numbers to a disease. A variety of tasks, which includes competitions and progress checks, are used to get the students to recognise the differences and state which of the types they belong to.
This lesson has been designed for GCSE students and can be used with higher level students. However, a lesson more appropriate for A-level Biology students is named “Diabetes Mellitus Type I and II” and is available in my resources
A highly engaging lesson presentation (60 slides) and accompanying worksheets that uses exam questions (with explained answers), quick tasks and competitions to allow students to assess their understanding of the topic of Genes and Health (Topic 2). Students will have fun whilst recognising those areas of the specification which need further attention. Competitions include "Blockbusters" Hotseat" and "james BOND" so that literacy and numeracy skills are tested along with the content knowledge.
An informative lesson presentation (30 slides) that ensures that students know the meaning of the independent, dependent and control variables in an investigation and are able to identify them. Students are challenged to use their definitions to spot the independent and dependent variable from an investigation title. Moving forwards, they are shown how they can use tables and graphs to identify them. The rest of the lesson focuses on the control variables and how these have to be controlled to produce valid results
This lesson is suitable for students of all ages studying Science as it is such a key skill
This bundle of 9 engaging and motivating lesson presentations and associated worksheets uses a combination of exam questions, differentiated tasks and quiz competitions to test the students on their knowledge of all of the topics found within the AQA GCSE Biology specification.
The knowledge of the content of the following topics is tested in these lessons:
Topic 1: Cell Biology
Topic 2: Organisation
Topic 3: Infection and response
Topic 4: Bioenergetics
Topic 5: Homeostasis and response
Topic 6: Inheritance, variation and evolution Topic 7: Ecology
In addition, the bundle contains a Paper 1 and Paper 2 revision lesson where content from all of the topics are covered in these very detailed resources
Students will be motivated and engaged by the range of activities whilst they assess which areas need their further attention before the exams. These revision lessons can be used at the end of a topic, before the mock exams or before the actual GCSE terminal exams.
A thought-provoking and discussion-based lesson which looks at the different ways that biodiversity is being lost across the World. This lesson has been designed for GCSE students and includes a detailed lesson presentation (31 slides) and accompanying worksheet.
The lesson begins by challenging the students to use their Biological knowledge to get to a quantitative answer, which is 80%, and then getting them to consider where this much biodiversity would be found around the World. The rainforest plays a key role in the lesson as important discussion topics such as deforestation can easily be related to this area. A range of tasks and discussion points are used to look at the different ways that humans are causing a loss in biodiversity. As well as deforestation, agriculture and eutrophication are explored and related back to the Science. This can be a word heavy topic and therefore a number of quick quiz competitions have been written into the lesson to maintain engagement and energy levels. In addition, progress checks are involved at regular points, including those which challenge mathematical skills in manipulating data. This allows students to constantly assess their understanding.
A detailed lesson which looks at the type of cell division known as mitosis and aims to ensure that students understand that it leads to the production of genetically identical daughter cells. In order to understand this type of cell division and any related topic such as meiosis, students have to be confident with the use of terms like diploid. In addition to this, time is taken to introduce them to a way of considering the quantity of DNA within a cell in terms of n. If they are able to use this correctly, then no matter the organism which is involved in a mitosis exam question, they will be able to answer successfully. Discussion points and progress checks are written into the lesson at regular intervals so their understanding can be assessed. The last part of the lesson provides the students with an opportunity to apply their knowledge of mitosis to a range of exam questions and they can assess against the displayed mark schemes.
This lesson has been designed for GCSE students (14 - 16 year olds in the UK) but is also appropriate for older students who want to recap on the key details of the division before extended knowledge is added.
A fully-resourced lesson which includes a detailed and engaging lesson presentation (36 slides) and an assistance worksheet for those students who feel that they need extra assistance with the final description. This lesson looks at how body temperature is controlled in humans through a homeostatic mechanism and includes details of a negative feedback loop.
The lesson begins with a three pronged task where students have to use the clues to come up with the word homeostasis and the number 37 and then see if they can make the link in the human body. Time is taken to ensure that students recognise why maintaining the temperature around this set-point is so crucial in terms of the effectiveness of enzymes in reactions. There is a real focus on key terminology throughout such as thermoreceptors and hypothalamus and guidance is given on how to use these terms accurately. Discussion points and progress checks are written into the lesson at regular intervals so that students are encouraged to challenge the Biology whilst being able to assess their understanding. They are shown how to write a detailed description of the response to an increase in temperature so they are able to form their own description of the response to a fall in temperature.
This lesson has been written for GCSE students but is perfectly suitable for older students studying thermoregulation at A-level and want to revisit the knowledge.
This bundle of 10 lessons covers the majority of the content in Topic B1 (Cell Biology) of the AQA Trilogy GCSE Combined Science specification. The topics covered within these lessons include:
Cells
Microscopy
Cell differentiation and specialisation
Chromosomes and mitosis
Stem cells
Diffusion
Osmosis
Active transport
Exchange surfaces
Exchanging substances
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 3 lessons covers all of the content in the sub-topic B1.2 (What happens in cells) of the OCR Gateway A GCSE Biology specification. The topics covered within these lessons include:
DNA
Transcription and translation
Enzymes
Enzyme actions
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 6 lessons covers a lot of the content in Topic B3 (Genetics) of the Edexcel GCSE Combined Science specification. The topics covered within these lessons include:
Advantages and disadvantages of asexual reproduction
Advantages and disadvantages of sexual reproduction
The role of meiosis
The structure of DNA
Understanding and using genetic terminology
Monohybrid inheritance
Sex determination
The causes of variation
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.