This is a fully-resourced lesson which is designed for GCSE students and explores the topic of compounds, specifically focusing on naming these chemicals based upon the elements within them and from their chemical formula. The lesson includes an engaging lesson presentation (46 slides) and a worksheet containing three tasks for the lesson. The lesson begins with some simple multiple choice questions to check that students can spot the chemical symbol and definition of an element, but more importantly pick out the formula for a compound. Time is taken to go through the explanation of why substances are elements or compounds and specific examples given. A quick understanding check, in the form of a competition called “To COM or NOT TO COM”,is used to check that students can identify elements or compounds from a name or given formula. The remainder of the lesson focuses on naming compounds. Students are challenged to spot a pattern when presented with the names of two compounds, which contain 2 elements only. For both compounds that contain 2 elements or 3 or more, the rules to naming are introduced before examples are shown so that students can visualise how to construct their answer. They are then given an opportunity to apply this to a number of questions in the set tasks. The last part of the lesson moves this forward by looking at how these same rules can be applied when the chemical formula of a compound is given and this is related to another topic as they are challenged to write a word equation containing a range of compounds when presented with the symbol equation. Progress checks are written into the lesson at regular intervals so that students can constantly assess their understanding. Although this is written for GCSE students, it is perfectly suitable for use with younger students who are learning about elements, compounds and mixtures and the teacher wants to push them along.

This is an engaging lesson which uses a range of tasks and quiz competitions to ensure that the important details about elements are embedded so that students can use them in related Chemistry topics. The lesson begins by looking at the chemical symbols that are used with the elements. Students do not have to know the symbols off by heart because of the widely available Periodic Table but a sound knowledge will always help going forward. Time is taken to ensure that students understand how the symbols have to be written so that those with two letters consist of a capital and a lower case letter. In a race against each other, students are challenged to complete a crossword by converting symbols to the name of elements. This will result in a winner, a second placed and a third placed student who can be given a gold, silver and bronze medal. The atoms within each of these medals is explored so that students can learn that the gold and silver medals will only be made up of one type of atom and are therefore elements whilst the bronze is an alloy. The remainder of the lesson looks at some of the uses of the different elements and a homework task gets students to put this into written form. This lesson is suitable for both KS3 and GCSE students.

A fast-paced, quick lesson which focuses on the key terminology that is involved in the separation topic so that students are confident with the definitions and to use them in context. A lot of the key terms begin with the prefix SOL and the opening task challenges students to use their Chemistry knowledge to convert numbers to letters to come up with these three letters. Having completed the crossword with the 5 key terms, solute, solution, solubility, solvent and soluble, students have to match the crossword clues with each term. Moving forwards, students are introduced to the term, saturated, and briefly shown the meaning of this word. The final task of the lesson challenges the students to use each of the 6 terms beginning with S to complete a passage about salt dissolving in a water.

A fast-paced lesson that looks at the key details of the different substances which are found along the pH scale. This lesson has been designed for GCSE students and to build on the foundation knowledge that they picked up at KS3. Along with the obvious Scientific knowledge associated with the lesson, both numeracy and literacy skills are challenged during the lesson. Time is taken to ensure that the meaning of pH is understood and new terms such as base are introduced, so that these are recognised when written in assessment questions. Students will recall the scale numbers associated with acidic, neutral and alkaline solutions and their knowledge will be extended through the introduction of hydrogen and hydroxide ions. A method for taking a pH reading using a pH probe is included which can be used should the teacher chose that it is required. Progress checks are written into the lesson at regular intervals so that students can constantly assess their understanding.

This is an engaging and practical-based lesson which uses the background idea of a man needing to make crystals for a date to engage students into understanding how the separation methods of filtration and crystallisation work. Like all of the lessons in the separation topic, a lot of the key terms sound similar and are often wrongly used by students. For this reason, time is given in the lesson to ensure that students can use them correctly, especially when describing filtration. In line with the background of the lesson, students are challenged to come up with the apparatus and substances needed to make the crystals. A method is provided so should the teacher choose, students will be able to carry out the practical and produce the copper sulphate crystals. Progress checks are written into the lesson at regular intervals, which question the students on this lesson topic and that of related ones and the final task of the lesson involves an exam question where students have to describe the method and equipment needed to make crystals. This lesson has primarily been written for GCSE students (14 - 16 years in the UK) but is appropriate for younger students who are studying the separation topic

A fast-paced, engaging lesson that looks at the separation method of distillation and focuses on the use of key terminology in the correct context. This lesson has been designed for GCSE students but teachers could use it with KS3 students who are looking at the mixtures topic. The lesson begins by challenging the students to state which mixture from a choice of three could be separated by distillation. A lot of the key terms involved in this lesson and the separation topic as a whole begin with S and are often incorrectly used. Therefore some time is taken to ensure that the students know the difference between a solution, solute and solvent and can pick out the substances which would apply to each of these terms in different examples. Students will learn how distillation involves evaporation followed by condensation and the next task gets students to compare boiling points to understand how the difference in these points allows the separation to occur and will also recognise that distillation results in two substances at the end as opposed to the one in crystallisation. The remainder of the lesson challenges students to apply their knowledge to two understanding checks - a summary passage on distillation and then a description of how ethanol and water are separated.

This lesson presentation looks at the carboxylic acids and focuses on the names, displayed formula, chemical formulae and reactions of this homologous series. The lesson begins with a bit of fun which gets enables the students to recognise that the functional group is COOH. A step by step guide is used to show the students how to draw the displayed formula for ethanoic acid, using the functional group before they apply their knowledge to draw the remaining acids in the first four. This series are connected by a general formula and students are shown how it is worked out for the alkanes and the alkenes so that students can work it out for the acids. Moving forwards, the reactions of these acids is shown and related to the reactions of acids that was previously learnt. Students will recall how to write the name of the salt and the balanced symbol equation. This lesson has been written for GCSE students

This concise lesson presentation (20 slides) guides students through the effect of changing pressure on the position of the equilibrium. The key skill to this topic involves recalling the rule of increasing pressure and being able to recognise how many moles are on each side of the reaction. For this reason, time is taken to remind the students of the meaning of the mole numbers in a reaction and working through an example together so they can see which side will be favoured. The final part of the lesson involves a game called “The PRESSURE is on” where students are in a race against the clock to balance an equation and then work out which way the equilibrium will shift when either the pressure is increased or decreased. This lesson has been written for GCSE students.

This lesson explores how the temperature affects the position of equilibrium in a reversible reaction. This can be a difficult topic for students to understand and therefore the aim has been on the key details. The lesson begins by challenging the students to recall the rules of a dynamic equilibrium in order to recognise how if the equilibrium position changes then so do the concentrations. Links are made during the lesson to related topics such as endothermic and exothermic reactions and some time is taken to go back over calculating energy changes so that the type of reaction can be determined. The forward reaction in the Haber process is used as the example so students can see how an increase in temperature in this exothermic reaction would lead to a decrease in the yield of ammonia. Students are then challenged to use this example to explain how a decrease in temperature would affect the production of methanol. This worksheet is differentiated so students who need extra assistance can still access the learning. This lesson has been written for GCSE students.

A thought-provoking lesson which explores why certain conditions are chosen for reversible reactions. Throughout this lesson, students are challenged to think about the topic in three ways. Of course, they have to consider the chosen conditions from a Scientific angle by knowing how temperature and pressure affect the position of the equilibrium. They must also think about the business (and health) side of the argument by recognising that increased pressures are both dangerous and expensive. Finally, they are taught recognise how the chosen conditions are in fact a compromise which has taken both the Science and business into account. Students are guided through the choice of conditions for the production of methanol so that they can apply their knowledge to the production of ammonia by the Haber process. This lesson has been designed for GCSE students.

A quick, concise lesson presentation (15 slides) which together with a question worksheet focuses on ensuring that students can define an isotope and pick these substances out from a selection of substances. The lesson begins by looking at the number of sub-atomic particles in an aluminium atom so that students can recall what is shown by the atomic and mass numbers. This will enable students to calculate the number of protons, neutrons and electrons in three given isotopes and as a result, complete a definition of these substances. The remainder of this short lesson involves 4 application questions where students either have to recognise isotopes from a table or from a diagram and also are asked to write out the formula of an isotope. Ideally this lesson will be taught in conjunction with a lesson on atomic structure.

A concise lesson presentation (27 slides) that looks at the key details of the sub-atomic particles and briefly explores how the atomic and mass numbers of the Periodic Table can be used to calculate the numbers of these particles in different atoms. The lesson begins with a Mathematical link as students are challenged to convert the size of an atom from standard form into a real number. Moving forwards, students will meet the three sub-atomic particles and be asked to predict which one is positive, neutral and negative in charge. The relative mass of a proton is shown and then students are asked to work out the mass of a neutron and an electron by observing some experimental results with a scales. Finally, the students are shown how to use the atomic number to work out the number of protons (and electrons) in an atom and how to work out the number of neutrons. This lesson has been designed to act as a knowledge recall and top-up as this should have already been learnt at KS3.

A practical based lesson presentation (26 slides) that investigates how increasing the temperature affects the rate of reaction and helps students to explain the trend in the results. Students can either carry out the reaction between sodium thiosulphate and hydrochloric acid or use the results which are provided. The equation to work out the rate of reaction is introduced to the students and they are challenged to plot the results on a line graph. A key term to be used in the explanation is introduced through a quick competition and then students are challenged to explain the trend

An engaging, practical-based lesson presentation (34 slides), accompanied by an assistance sheet, which together look at how the results of displacement reactions can be used to order the metals into the reactivity series. The lesson begins by introducing a displacement reaction and ensuring that students understand the meaning of this term and how it relates to the topic of the lesson. Students will carry out a series of 12 displacement reactions, involving 4 different metals and will then be challenged to interpret the results to place the metals into their allocated positions in the series. Moving forwards, the students are given the results of more reactions, some which occurred and others which didn’t so they can place the remaining metals into the reactivity series. Time is also taken to understand how the position of hydrogen in the series can be used to predict the results of reactions between metals and acids. This lesson has been written for GCSE students but could be used with higher ability KS3 students

A lesson presentation (44 slides), accompanied by a question worksheet, which together looks at the reactants and products of a neutralisation reaction and challenges students to represent these reactions with equations. The lesson begins with a bit of fun as students are asked to read through a scene from the US comedy show and spot that a neutralisation reaction is hidden under the jokes. Students will use their KS3 knowledge to recall that these reactions involve acids and alkalis and moving forwards they will be introduced to a new term, base. The rest of the lesson focuses on writing word and balanced symbol equations for different neutralisation reactions. A step by step guide is used to demonstrate how to work out the name of the salt as well as writing accurate chemical formulae. Finally, students are challenged to apply their new-found knowledge and complete equations for 4 neutralisation reactions and they can assess against the displayed mark schemes. Progress checks have been written into the lesson at regular intervals so that this self-assessment is constant and any misconceptions are quickly addressed. This lesson has been written for GCSE students but could be used with younger students who are looking to extend their knowledge