A fully resourced lesson which uses a combination of exam questions, quick tasks and quiz competitions to enable students to assess their understanding of the topics found within module 5.2 (Excretion as an example of homeostatic control) of the OCR A-level Biology A specification. The following topics are tested within the lesson: Excretion The structure of the liver Liver function Kidney structure Kidney function Osmoregulation Kidney failure Students will be engaged through the various activities whilst crucially being able to recognise those areas which need further attention.

An engaging lesson presentation (67 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 TOPIC 7 (Organic chemistry) of the AQA GCSE Chemistry specification (specification point C4.7) The topics that are tested within the lesson include: Crude oil, hydrocarbons and alkanes Fractional distillation and petrochemicals Properties of hydrocarbons Cracking and alkenes Alkenes Alcohols Carboxcylic acids Addition polymerisation Condensation polymerisation Students will be engaged through the numerous activities including quiz rounds like “What FRACTION of this is correct” and “Are you on FORM” whilst crucially being able to recognise those areas which need further attention

This fully-resourced lesson explains how gel electrophoresis is used to separate DNA fragments or proteins and explores its applications in genetic fingerprinting. The engaging and detailed PowerPoint and accompanying resources have been written to cover point 6.1.3 (e) of the OCR A-level Biology A specification The steps of the genetic fingerprinting process is covered the whole lesson but the main focus is the use of gel electrophoresis within this process. Students will be introduced to STRs and will come to recognise their usefulness in human identification as a result of the variability between individuals. Moving forwards, the involvement of the PCR is discussed and students are challenged on their knowledge of this process as it was encountered in a previous lesson. A brief outline of the role of restriction enzymes is provided to support students when these key gene technology enzymes are met in more detail later in the module. The main section of the lesson focuses on the use of gel electrophoresis to separate DNA fragments (as well as proteins) and the key ideas of separation due to differences in base pair length or molecular mass are discussed and explained. As well as current understanding checks, an application question involving Huntington’s disease is used to challenge their ability to apply their knowledge of the process to an unfamiliar situation. The remainder of the lesson describes how the DNA is transferred to a membrane and hybridisation probes are used to create a pattern on the X-ray film. Time has been taken to make continuous links to the previous lessons in module 6.1.3 as well as those from module 2.1.3 where DNA, RNA and protein synthesis were introduced.

This is a fun and engaging lesson that uses a range of quick competitions and tasks to ensure that the students recognisethe electrical symbols for the essential components and can describe the functions for each of these. Competitions such as SNAP and SAY WHAT YOU SEE will introduce the students to the components and their symbols. This lesson has been written for GCSE students and looks to build on what they should know from KS3 - however, it could be used with higher ability students at that level.

This revision lesson contains a motivating and engaging powerpoint (67 slides) and associated worksheets which have been designed to challenge student knowledge of the Periodic Table. The lesson involves a wide range of activities which include exam questions with clear answers to allow students to self-assess, quiz competitions and differentiated tasks. The students will enjoy the transitions between the different activities whilst crucially being able to evaluate their understanding of this key topic in Chemistry. Deliberately, the lesson hasn’t been written for any particular exam board or exclusively for Combined Science or Chemistry, but instead it covers the topics which are shown below and this will allow teachers to pick and choose which parts they want to do in a particular lesson. Properties of the alkali metals (group I) Properties of the halogens (group VII) Properties of the noble gases (group 0) Formation of ionic compounds between group I and VII elements Reactivity of the alkali metals and the halogens Displacement reactions of the halogens The transition elements Organisation of the Periodic Table Predicting properties of the unknown or rare elements As the title suggests, the content of this lesson has been written to be GCSE standard and therefore is most suitable for use with 14 - 16 year olds. However, it could be used with younger students who are doing work on the topic and want to challenge themselves

An engaging lesson which looks at the properties of the Transition metals of the Periodic Table and ultimately compares these properties against other metals, such as the Alkali metals. Through the use of a range of motivating tasks and quiz competitions, students will learn that the transition metals form coloured compounds, have a number of ion charges, act as catalysts and are harder, stronger but less reactive than group 1. This lesson has been written for GCSE students (14 - 16 year olds) but is suitable for younger students who are looking at the patterns and trends in the Periodic Table

A resourced lesson which uses a concise lesson presentation (18 slides) and a differentiated diagram to guide students through the method of blood clotting. This lesson has been designed for students studying GCSE (14 - 16 year olds in the UK) and this is reflected in the appropriate detail where only the involvement of fibrin needs to be known. Students are shown how blood clotting is a cascade effect where one event leads on to the next.

This is a fully-resourced lesson which looks at the properties of group 0 of the Periodic Table, the Noble Gases, and includes a lesson presentation (29 slides) and an associated worksheet. The lesson uses a range of engaging quiz competitions to enable the students to understand why these elements do not react. Other properties such as their boiling points are explored and there is continual reference to the other groups of elements so that students can make clear comparisons. This lesson has been designed for GCSE students (14 - 16 year olds in the UK), but it is also suitable for younger students who might be carrying out a project on the Periodic Table

A fully-resourced lesson that teaches students how to calculate the concentration of a solution in the units grams per decimetres cubed and mol per decimetre cubed. The lesson includes a concise but detailed lesson presentation (20 slides) and a set of differentiated questions. The lesson begins by introducing students to volumes in decimetres cubed and time is taken to ensure that students are able to convert to this measurement. Moving forwards, students are guided through how to calculate the concentration in both units through the use of worked examples. Differentiated questions are available so that all abilities can access the work. This lesson has been written for GCSE students (14 - 16 year olds in the UK) but could be used with students who are beginning their A level Chemistry studies

A fully-resourced lesson which guides students through using moles to calculate the mass of a substance in a reaction. The lesson includes a detailed lesson presentation (22 slides) and associated worksheets which are used to check the skills and understanding of the students. The lesson begins by introducing the students to the three steps involved in a calculating mass question. These skills include calculating the relative formula mass and identifying molar ratios in equations to calculate amounts so time is taken to recap on how this is done before students are given the opportunity to try some progress check questions. A worked example brings these three steps together to guide the students to the final answer. The final task involves 4 questions where students are challenged to apply their new-found knowledge. This lesson has been written for GCSE students (14 - 16 year olds in the UK)