This engaging and detailed lesson presentation (43 slides) uses a step by step guide to take students through the important scientific skill of drawing graphs to represent data and address all the misconceptions and misunderstandings that often accompany this topic. The lesson begins by explaining to the students how to decide whether data should be represented on a line graph or a bar chart and a competition called "To BAR or not to BAR" is used to allow them to check their understanding while maintaining motivation. Moving forwards, students are shown a 6 step guide to drawing a line graph. Included along the way are graphs that are wrong and explanations as to why so that students can see what to avoid. There are continuous progress checks and a homework is also included as part of the lesson. This lesson is written for students of all ages who are studying Science.

A series of 5 exam questions that challenge students to work out the actual size of a section as seen under a microscope or the magnification. These questions will test their ability to convert between measurements and give answers in micrometers. These questions are suitable for GCSE and A-level students

A fun and engaging lesson presentation (33 slides) and associated worksheet that uses exam questions, with fully explained answers, quick tasks and competitions to allow students to assess their understanding of Module 3.1.2 (Transport in Animals). The students will enjoy the lesson whilst being able to recognise which areas of the specification need further attention. Competitions included in the lesson are “SPOT THE ERROR”, “Where’s Lenny” and “Crack the code”

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.

A highly engaging lesson presentation (74 slides) and accompanying worksheets that uses exam questions (with explained answers), quick tasks and quiz competitions to allow students to assess their understanding of the topic of Biological molecules (Topic 3.1). Students will have fun whilst recognising those areas of the specification which need further attention.

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

An engaging lesson presentation (41 slides) and accompanying worksheet that looks at the different causes of variation and the different types of variation. The lesson begins by challenging the students to pick out a set of siblings from a series of pictures and then getting them to explain scientifically why they made the decision that they did. Moving forwards, students will recognise that one cause of variation is genes. Students are shown a pair of identical twins and asked to explain why they look different despite their identical genes so that they can understand that the environment also affects variation. Students will also meet discontinuous and continuous variation and will understand how this data should be represented. There are progress checks throughout the lesson to allow the students to assess their understanding. This lesson has been designed for KS3 and GCSE students.

A detailed and engaging lesson presentation (52 slides) and accompanying worksheet that looks at competition between organisms and the different types of relationships that exist as a result of this interaction. The lesson begins by looking at the meaning of the biological term, "competition", and then introduces this when it occurs between the same species and different species. Students are challenged to consider the different resources that animals compete for before an activity based competition is used to get them to recognise how this competition can cause changes to the population size. Moving forwards, students will meet the three main types of ecological relationship and look at them in greater detail, with predation being a main focus. There are regular progress checks throughout the lesson (with displayed answers) so that students can assess their understanding. This lesson has been designed for GCSE students but can be used with more-able KS3 students who are looking at ecosystems and the relationships that exist within them

An engaging and detailed lesson presentation (48 slides) and associated game that goes through the topic of ecosystems, making sure that the numerous key words are recognised and understood and ensures that students know the difference between biotic and abiotic factors. A game of keyword bingo runs throughout the lesson to act as a motivation and to make sure that the students keep track of all of the important terminology. Time is taken after some of the important words to go into depth so that the Biology is fully understood. Students will learn the difference between biotic and abiotic factors and then will carry out a number of tasks to explain how the abiotic factors can affect the community. There are regular progress checks throughout the lesson so that students can assess their understanding. This lesson was designed for GCSE students but can also be used with KS3 and also as a recap with A level students

A fun and highly engaging lesson presentation (37 slides) and associated worksheets that combines exam questions and progress checks along with competition rounds to enable students to assess their understanding of the specification content within units B1 - 3 of the OCR Gateway A 9 - 1 GCSE Science. All of the exam questions and progress checks have displayed answers as well as sections where content is recapped so that students can understand how an answer was obtained. The revision rounds in the competition include “Blockbusters”, “Doctor, Doctor” and “Crack the CODE”. This lesson has been designed for GCSE students.

A detailed lesson presentation (37 slides) and associated worksheets that looks at the different pieces of evidence that scientists use to support evolution and discusses how these support the theory. The lesson begins by challenging students to decide which piece of evidence is the key piece in supporting evolution (fossils). Students will then have to arrange a number of statements to describe how a fossil is formed. Students are introduced to the fossil record and questions are used to check that they understand where the oldest fossils would be found. Moving forwards, students are given three pieces of evidence that would be observed in the fossil record and they are challenged to explain how each of these supports the theory of evolution. Quick competitions are then used to get the students to see some extinct organisms in the Dodo and Woolly Mammoth and again they are questioned on how extinct animals support the theory of evolution. Further evidence in rapid changes in species and molecular comparison is discussed. There are regular progress checks throughout the lesson so that students can assess their understanding and there is a set homework included.

A concise lesson presentation (18 slides) that looks at the Loop of Henle within the kidney and enables students to understand how water is reabsorbed from this structure of the nephron. The lesson begins by ensuring that students know the terminology associated with this topic and that there are two limbs (descending and ascending). Moving forward, students will be given some data on the changes in concentration as the filtrate moves along the Loop and use this to work out how the permeability of the individual limbs differ. This lesson is designed for A-level students

A fun and engaging lesson presentation (90 slides) and associated worksheets that uses exam questions, quick tasks and quiz competitions to allow students to assess their understanding of the topic of transport in plants, which is module 3.1.3 on the OCR A-Level Biology A specification. Competition rounds include “Keyword BINGO”, “Crack the Code” and “Make the Link” and students will enjoy being able to identify areas that require further attention. All exam questions have mark schemes. This lesson is designed for A-level students

A concise lesson presentation (19 slides) and associated worksheet (newspaper articles) that introduces students to the process of homeostasis in the human body and the three main factors (water potential, blood glucose, temperature) that are controlled by this system. The lesson begins by getting the students to work out a code to give them an exemplary definition for homeostasis. A newspaper article is used to get the students to recognise the three factors that are controlled. A quick competition is used to show the students the main parts of any homeostatic control system. This lesson is designed for GCSE students but could be used with both KS3 and A-level as a quick recap

This clear and concise lesson explains how the inheritance of two or more genes that have loci on the same autosome demonstrates autosomal linkage. The engaging PowerPoint and associated resource have been designed to cover the part of point 6.1.2 (b[ii]) of the OCR A-level Biology A specification which states that students should be able to demonstrate and apply their knowledge and understanding of the use of phenotypic ratios to identify autosomal linkage. This is a topic which can cause confusion for students so time was taken in the design to split the concept into small chunks. There is a clear focus on how the number of original phenotypes and recombinants can be used to determine linkage and suggest how the loci of the two genes compare. Important links to other topics such as crossing over in meiosis are made to enable students to understand how the random formation of the chiasma determines whether new phenotypes will be seen in the offspring or not. Linkage is an important cause of variation and the difference between observed and expected results and this is emphasised on a number of occasions. The main task of the lesson acts as an understanding check where students are challenged to analyse a set of results involving the inheritance of the ABO blood group gene and the nail-patella syndrome gene to determine whether they have loci on the same chromosome and if so, how close their loci would appear to be. This lesson has been written to tie in with the other lessons from module 6.1.2 (Patterns of Inheritance)