Having taught in the UK and abroad, I've experienced teaching many different syllabi including SABIS, AQA, WJEC and Cambridge. I develop resources to help teachers model key concepts, provide practice for students and include answers to help students self-assess their work. Planning for a 27 lesson week can be stressful to say the least, so I hope you find my resources useful. Thank you for choosing my lesson/s, I hope they enrich your teaching practice and make your life easier.
Having taught in the UK and abroad, I've experienced teaching many different syllabi including SABIS, AQA, WJEC and Cambridge. I develop resources to help teachers model key concepts, provide practice for students and include answers to help students self-assess their work. Planning for a 27 lesson week can be stressful to say the least, so I hope you find my resources useful. Thank you for choosing my lesson/s, I hope they enrich your teaching practice and make your life easier.
Practice calculating percentage yield with these tiered questions. Answers included.
If you could spare 5 minutes, please review this resource, to help my online presence grow! :)
Practice calculating the percentage by mass of an element in a compound with these tiered questions. Answers included.
If you could spare 5 minutes, please review this resource, to help my online presence grow! :)
Practice calculating number of moles, relative formula mass and mass with these tiered questions. Answers included.
If you could spare 5 minutes, please review this resource, to help my online presence grow! :)
Includes testing for:
Cations
Anions
Gas tests
Test for Water
Testing for Purity of Water
Flame Tests
Question on one side, answer on the other.
Print double sided (flip along long side of paper).
This resource bundle offers six meticulously crafted lessons to help students excel in quantitative chemistry. Designed for secondary school learners, it provides clear explanations, practical examples, and interactive activities, making it ideal for teaching, independent study, or revision.
What’s Included:
Conservation of Mass:
Explore how mass remains unchanged during chemical reactions. Practical examples and engaging exercises ensure students grasp this core principle.
Ar, Mr, and Calculating Percentage Mass of an Element in a Compound:
Learn to calculate relative atomic mass (Ar) and molecular mass (Mr), and determine the percentage composition of elements within compounds.
The Mole and Calculations Involving Mass, Moles, and Molar Mass:
Simplify the concept of the mole with worked examples that show how to calculate the mass, number of moles, and Ar/Mr, supported by ample practice questions.
Reacting Masses in Equations:
Use balanced chemical equations to determine the masses of reactants and products, connecting theory with real-world applications.
Counting Atoms, Writing, and Balancing Equations:
Help students confidently write and balance chemical equations while understanding the role of coefficients and subscripts in counting atoms.
Concentration of Solutions:
Dive into solution chemistry with lessons on calculating concentration, mass, and volume, supported by examples and real-life contexts like dilutions and mixing solutions.
Why Choose This Bundle?
Each lesson includes starter activities, exam-style questions, and step-by-step worked examples.
Topics are aligned with GCSE chemistry curricula, ensuring comprehensive coverage of key quantitative skills.
Flexible usage: Perfect for guided teaching, revision sessions, or targeted intervention.
File Type: PowerPoint (.pptx)
Updated: December 2024 – New lessons on concentration and balancing equations have been added.
Equip your students with the tools they need to confidently tackle quantitative chemistry and achieve success in their exams and beyond!
Lesson 1 Counting Atoms, Writing Equations and Balancing Equations
Lesson 2 - Conservation of Mass
Lesson 3 - Ar, Mr and Calculating % Mass of an Element in a Compound
Lesson 4 - The Mole and Calculating Number of Moles, Mass or Ar/Mr
Lesson 5 - Reacting Masses in Equations
Lesson 6 - Concentration of Solutions
PowerPoint that covers the following learning objectives:
Measure the temperature of a substance.
Plot a graph of temperature vs. time.
In this investigation, students will compare how a large beaker of hot water and a small beaker of hot water cool down differently. They will form a research question, hypothesis, fill in table of results, plot line graphs and form a conclusion.
PowerPoint includes research question, hypothesis, method, graphs and conclusion.
If you could spare 5 minutes, please review this resource, to help my online presence grow! :)
PowerPoint that covers the following learning objectives:
Calculate the masses of reactants and products from the balanced symbol equation and the mass of a given reactant or product using moles.
Includes questions, answers and examples.
This is made for a KS4 Chemistry class.
PowerPoint that covers the following learning objectives:
Define what is meant by a mole and the units.
Calculate the number of moles or mass of a substance from data supplied.
Includes questions, answers, examples and a video.
This is made for a GCSE chemistry class.
PowerPoint that covers the following learning objectives:
Define the mass of an object.
Measure mass of an object using a mass balance.
Includes questions, pictures, instructions and a practical in which the students have to use mass balances to measure the mass of up to 20 objects.
There are questions that ask students to add masses of objects together, substract masses and work out the difference.
The results table, questions and space for answers are on the worksheet.
This is for a primary/early secondary class.
If you could spare 5 minutes, please review this resource, to help my online presence grow! :)
PowerPoint that covers the following learning objectives:
Define relative atomic mass, Ar.
Use the periodic table to find the relative atomic mass of all elements.
Calculate the relative formula mass for familiar compounds when the formula is supplied and is with or without brackets.
Calculate the percentage mass of an element in a compound.
Includes explanations, examples, questions and answers.
This is made for a GCSE chemistry class.
PowerPoint that covers the following learning objectives:
Define conservation of mass.
Safely complete an experiment on conservation of mass.
Explain any observed changes in mass in non-enclosed systems during a chemical reaction given the equation for the reaction and explain these changes in terms of the particle model.
Includes an experiment, examples, diagrams, questions and answers.
This is made for a GCSE chemistry class.
PowerPoint that covers the following learning objectives:
Count atoms in a chemical formula with or without brackets.
Write word and symbol equations.
Balance symbol equations.
Includes explanations, examples, questions and answers.
This is made for a GCSE chemistry class.
PowerPoint that covers the following learning objectives:
Draw a simple reaction profile diagram for exothermic and endothermic reactions.
Define and label activation energy on a reaction profile diagram.
Explain that the activation energy is the energy needed for a reaction to occur.
Includes diagrams, explanations, questions and answers.
This is made for a GCSE chemistry class.
PowerPoint that covers the following learning objectives:
Explain why bond breaking is endothermic and bond making is exothermic.
Explain why a reaction is exothermic or endothermic in terms of the amount of energy needed to break bonds and being released when bonds are formed.
Calculate the energy change for a reaction, including the correct unit.
Includes diagrams, explanations, examples, questions and answers.
This is made for a GCSE chemistry class.
This GCSE chemistry resource bundle provides a thorough and accessible introduction to electrolysis, guiding students step by step through its principles, processes, and practical applications. It features five engaging lessons that cover everything from foundational concepts to required practical skills, ensuring students are well-prepared for exams.
The bundle includes:
Introduction to Electrolysis: Explains the basics of electrolysis, including how ionic compounds conduct electricity and the role of electrodes in separating elements.
Electrolysis of Molten Compounds: Demonstrates how electrolysis works with molten ionic compounds, providing clear examples and practice opportunities.
Electrolysis of Aluminium Oxide: Explores the extraction of aluminum using electrolysis, linking the process to real-world applications in industry.
Electrolysis of Aqueous Solutions: Teaches students how to predict the products of electrolysis in solutions, with diagrams and step-by-step explanations.
Required Practical: Electrolysis: Offers a detailed guide to the required practical, with instructions, safety considerations, and tips for accurately recording and analyzing results.
How to use: Each lesson includes clear explanations, diagrams, and exam-style questions to help students understand and apply key concepts. The practical lesson ensures students are confident in carrying out experiments and understanding their results. Perfect for GCSE chemistry teachers, this bundle provides a structured approach to teaching electrolysis while making it engaging and relevant to students.
Lesson 1 - Introduction to Electrolysis
Lesson 2 - Electrolysis of Molten Compounds
Lesson 3 - Electrolysis of Aluminium Oxide
Lesson 4 - Electrolysis of Aqueous Solutions
Lesson 5 - Required Practical Electrolysis
PowerPoint that covers the following learning objectives:
Conduct an investigation into what happens when aqueous solutions are electrolysed using inert electrodes.
Analyse results of the experiment.
Includes equipment list, method, a results table, safety guidance, a video, questions and answers.
This is made for a GCSE chemistry class.
PowerPoint that covers the following learning objectives:
Predict the products of the electrolysis of a solution.
Describe how to electrolyse brine in terms of ions moving.
Explain the electrolysis of brine using half equations, classifying reactions at the electrode as oxidation or reduction.
Includes diagrams, explanations, examples, questions and answers.
This is made for a GCSE chemistry class.
PowerPoint that covers the following learning objectives:
State that aluminium can be extracted from aluminium oxide using electrolysis and write the overall word equation.
Describe the electrolysis of aluminium oxide.
Explain the classification of the reactions at each electrode as oxidation or reduction by writing half equations.
Explain why cryolite is added to aluminium oxide in the industrial extraction of aluminium.
Includes questions, answers, diagrams, explanations and a quiz.
This is made for a GCSE chemistry class.