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.
26 mark quiz on cells and microscopes. Includes questions about:
Calculating total magnification.
Taking a measurement to calculate the actual size of a specimen.
Animal cells, plant cells, prokaryotic cells.
Light and electron microscopes.
Mark scheme included.
Quiz includes:
Reactivity series
Extracting metals
Displacement Reactions
Quiz is out of 28 marks, so half the lesson to do the quiz and the other half to go over answers.
Mark scheme is included.
24 mark quiz on the following topics:
Writing chemical formula for ionic compounds.
Properties and structure of ionic compounds.
Drawing ions and ionic bonding.
Describing how ionic bonds form.
Mark scheme included.
Group 0: Noble Gases is a comprehensive and interactive PowerPoint resource designed for GCSE-level chemistry students. This lesson focuses on the unique properties, reactivity, and applications of noble gases, aligning with the AQA curriculum.
The lesson begins with engaging starter activities that review atomic structure and prompt students to identify why noble gases are unreactive. Learning objectives include:
Defining noble gases and understanding their electronic configurations.
Explaining their chemical inertness based on their full outer electron shells.
Exploring real-world uses, such as helium in balloons and argon in lightbulbs.
Core content highlights:
The physical properties of noble gases, such as being colorless, monoatomic, and non-flammable.
Trends in boiling and melting points down the group, explained through atomic size and intermolecular forces.
Practical applications that showcase the relevance of noble gases in everyday life.
The resource includes fill-in-the-blank activities, video-based questions, and thought-provoking practice tasks. Students analyze trends, predict properties of unobserved elements, and answer questions about boiling points, density, and atomic radii. Advanced questions challenge students to explain rare noble gas compounds, encouraging critical thinking.
Formatted as a .pptx file, this PowerPoint is compatible with most devices and ideal for classroom use or independent study. It features modern visuals, real-world examples, and interactive tasks that make chemistry engaging and accessible.
Perfect for teachers seeking a detailed, curriculum-aligned resource, this lesson provides a clear understanding of the noble gases and their significance in chemistry and beyond.
PowerPoint that covers the following learning objectives:
State the word equation for anaerobic respiration.
Describe the differences between aerobic and anaerobic respiration.
Includes a video, information, questions and answers.
Practice calculating atom economy with these tiered questions. Answers included.
If you could spare 5 minutes, please review this resource, to help my online presence grow! :)
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 magnification, image size and real size 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! :)
This PowerPoint presentation is a comprehensive tool designed to teach secondary school students how to calculate reacting masses in chemical equations. It provides a step-by-step approach to balancing equations, understanding mole ratios, and using these concepts to determine the masses of reactants and products in a reaction.
The resource begins with learning objectives, including calculating masses from balanced equations and understanding the relationships between moles, mass, and relative atomic/molecular masses. Starter activities engage students with questions about moles, Avogadro’s constant, and mole-mass calculations to set the foundation for the lesson.
Key topics covered include:
Balancing Equations: Students learn to identify the number of atoms in a chemical formula and practice balancing equations to establish the stoichiometric relationships required for mass calculations.
Using Mole Ratios: Clear examples demonstrate how to interpret balanced equations to understand the relationships between reactants and products, expressed in moles.
Mass Calculations: Practical examples, such as calculating the mass of hydrogen gas produced from sodium reacting with water, guide students through each step of the process. Worked examples include real-world applications and exam-style questions.
Interactive tasks and practice questions are included throughout the presentation. Examples cover a variety of reactions, such as thermal decomposition, neutralization, and displacement reactions, ensuring students gain a broad understanding of the topic. Answers are provided to support independent learning and revision.
This PowerPoint file (.pptx) is aligned with curriculum standards. It is an ideal resource for teachers aiming to deliver engaging lessons on reacting masses in chemical equations, equipping students with essential problem-solving skills in chemistry.
This comprehensive PowerPoint presentation, is an engaging teaching resource designed for chemistry students to master the concept of the mole. The lesson begins with a clear definition of what a mole represents in chemistry and its importance for understanding substances at the atomic level. Using Avogadro’s constant, students will explore the numerical value of a mole (6.02 x 10²³) and its real-world applications.
The resource includes visually appealing slides, interactive starter activities, and step-by-step problem-solving examples to reinforce key learning objectives. Activities challenge students to calculate moles, mass, and the relative atomic or formula mass of elements and compounds. Exercises range from balancing equations to solving mole problems of varying difficulty, catering to learners at different levels.
Additionally, the presentation integrates external resources like the educational video “Just How Small Is an Atom?” to enhance understanding. The included questions are fully solved, offering both guided practice and self-assessment opportunities.
This resource is ideal for classroom instruction or independent study. It is suitable for GCSE-level students or equivalent and aligns with chemistry curriculum standards. The file format is a PowerPoint (.pptx), ensuring compatibility with most educational devices and software. Perfect for teachers seeking a dynamic way to explain the mole concept and for students aiming to strengthen their foundational chemistry knowledge.
