This lesson is designed for AQA GCSE Chemistry and introduces electrolysis as a way of extracting metals from ores/metal compounds.
Lesson Objectives:
Name the parts of the electrolysis practical
Carry out a basic practical for the electrolysis of copper chloride
Predict the products of the electrolysis of a molten salt
Explain why we use electrolysis to extract metals
This Lesson Contains:
Lesson Powerpoint, including all answers and powerpoint notes to aid delivery and challenge tasks and mini-whiteboard AFL quiz
Blank electrolysis diagram handout for printing (editable and PDF)
Student worksheet/table (editable and PDF)
Complete answers
Practical risk assessment and instructions
A comprehensive, engaging, challenging and interactive lesson package designed with non-science/non-chemistry specialist teachers in mind!
**This lesson contains: **
Lesson powerpoint - including teaching notes and answers in “notes” section
Student led lesson worksheet
Teacher answer sheet
Lesson resources contain:
In-built challenge tasks throughout
In-built scaffolded learning for lower abilities
Various activites to assess progress and understanding that you can tailor to fit any class or available resources
Lesson Objectives:
Students will be able to…
Describe what a chemical symbol is and explain why we use them
Identify elements from their chemical symbols using a periodic table
Classify chemical formulas as representing either elements or compounds
Understand how to count the number of atoms in a chemical formula containing subscripts
This lesson contains a student led lesson sheet, with the focus being on students learning through doing and practicing skills and identifying patterns and reasons themselves. Resources and slides ask students the key questions and develops ideas and concepts from the ground up.
This lesson contains AFL which makes use of molymods and mini-whiteboards, but can be adapted if these resources are not available.
A comprehensive, engaging and interactive lesson package designed with non-science/non-chemistry specialist teachers in mind!
This lesson contains:
Lesson powerpoint - including teacher notes and answers in “notes” section
Student led lesson worksheet
Teacher answer sheet
Elements, Compounds and Mixtures printable decision tree
Lesson resources contain:
In-built challenge tasks throughout
In-built scaffolded learning for lower abilities
Various activites to assess progress and understanding that you can tailor to fit any class or available resources
Objectives:
Students will be able to…
Describe what a mixture is
Give examples of mixtures in every day life
Identify mixtures from particle diagrams and examples
This lesson contains a student led lesson sheet, with the focus being on students learning through doing, practicing skills and identifying patterns and reasons themselves. Resources and slides ask students the key questions and develops ideas and concepts from the ground up and address common issues, mistakes and misconceptions.
This lesson contains AFL tasks which require mini-whiteboards and molymods, but can be adapted if these are not available.
This lesson is designed for AQA GCSE Chemistry/Combined Science Trilogy and covers how to calculate relative atomic mass.
This lesson contains:
A lesson powerpoint complete with all answers, worked examples
Student worksheet (PDF and editable versions)
Worksheet answers (PDF and editable versions)
Lesson Objectives:
Define what an “isotope” is and identify examples
Calculate the relative atomic mass of elements from their relative isotopic masses and abundances
A lesson pack covering negative non-metal ion tests (halide, sulfate and carbonate).
This resource is designed for the AQA Triple Chemistry required practical from “Chemical Analysis”, and is relevant to higher and foundation students.
Lesson Objectives
Carry out simple precipitate tests to identify halide, sulfate and carbonate ions
Describe how to carry out precipitate tests to test for halide, sulfate and carbonate ions, including the names of any important reactants
Write balanced symbol and ionic equations for the reactions taking place in precipitation reactions
This resource contains:
Lesson powerpoint - including starter activity, practical instructions, tables, challenge task, multiple choice quiz plenary, and full answers
Student worksheet - including practical instructions, tables, and practical quesitons (PDF and editable word versions)
Student worksheet answers (PDF and editable word versions)
Risk assessment/order form - containing up to date CLEAPPS guidance as of Oct 2023.
A full lesson designed for GCSE chemistry AQA specification.
This lesson covers the case study of the extraction of aluminium oxide, the role of cryolite, what happens to the aluminium and oxide ions at the electrodes, and the need for the replacement of the positive electrode.
This lesson contains
A lesson powerpoint including all useful youtube video links, interactive plenary multiple choice quiz, electroplating challenge task and complete answers.
A guided reading activity with quesitons and complete answer sheet (PDF and editable versions)
An alternative information hunt sheet to be used with videos and/or the AQA GCSE Chemistry textbook, with complete answers (PDF and editable versions)
Video clip to aid in completion of both sheets
Lesson Objectives
State two reasons why extracting aluminium oxide from its ore is expensive
Describe why cryolite is added to aluminium oxide during electrolysis
Describe and explain what happens to ions at the positive and negative electrode (and give relevant half equations (Higher only))
Explain why the positive electrode must continually be replaced
A comprehensive, engaging, challenging and interactive lesson package designed with non-science/non-chemistry specialist teachers in mind!
This lesson contains:
Lesson powerpoint - including teacher notes and answers in “notes” section
Student led lesson worksheet (including practical worksheet)
Teacher answer sheet
Practical risk assessment/order form
Lesson resources contain:
In-built challenge tasks throughout
In-built scaffolded learning for lower abilities
Various activites to assess progress and understanding that you can tailor to fit any class or available resources
Objectives:
Students will be able to…
Describe what a pure substance is
Identify examples of pure substances in every day life
Identify pure substances from particle diagrams and examples
Carry out a practical investigation to identify pure substances
This lesson contains a student led lesson and practical which focuses on students learning through discussion and investigation.
Resources and slides ask students the key questions and develops ideas and concepts from the ground up and address common issues, mistakes and misconceptions.
This lesson contains AFL tasks which require mini-whiteboards, but can be adapted if these are not available.
A comprehensive, engaging, challenging and interactive lesson package designed with AEN students and non-science/non-chemistry specialist teachers in mind!
This lesson contains:
Lesson powerpoint - including teacher notes and answers in “notes” section
Student led lesson worksheet
Teacher answer sheet
Practical and Demonstration Risk Assessments
Lesson resources contain:
In-built challenge tasks throughout
In-built scaffolded learning for lower abilities
AFL activities to assess progress and understanding that you can tailor to fit any class or available resources
Objectives:
Students will be able to…
Predict whether a chemical reaction under given conditions will get lighter, heavier or stay the same mass
Explain why some chemical reactions might appear to get lighter
Explain why some chemical reactions might appear to get heavier
This lesson contains a student led lesson sheet, with the focus being on students learning through doing, practicing skills and identifying patterns and reasons themselves. Resources and slides ask students the key questions and develops ideas and concepts from the ground up and address common issues, mistakes and misconceptions.
A full lesson covering how students can calculate relative formula mass.
This lesson is suitable for students studying AQA Trilogy Combined Science (higher and foundation) and AQA Triple chemistry (higher and foundation)
Lesson Objectives
Recall how to count the number of atoms in a formula
Recall what relative atomic mass is
Define what relative formula mass is
Calculate the relative formula mass of a chemical using a periodic table
Lesson includes
Lesson powerpoint - including recap of how to count atoms in a formula an how to find relative atomic mass on a periodic table, worked examples with answers, and BINGO plenary practice game
Optional worksheet with answers (PDF and editable word version)
A full lesson outlining the basic GCSE structure of the atom, the position and charges of the subatomic particles inside it. A part of the course which is sometimes difficult to teach in a fun and interactive/discovery based way, this lesson will help students to discover information and make connections themselves. Students will hopefully not only learn the charges and masses and positions of subatomic particles, but gain an appreciation of scale and relative mass, as well as understand some of the reasons behind the structure of the atom and the reason we draw it the way we do.
This lesson includes:
Powerpoint - including key notes, delivery tips, modelling ideas, interactive class activities and key hinge/get-them-thinking questions, tips on dealing with common misconceptions
Multiple choice interactive plenary activity
Full answers
Lesson Objectives
Describe what a subatomic particle is
Describe the structure of an atom in terms of subatomic particles
Give the positions, relative mass and charge of the three subatomic particles
A full lesson resource teaching students how to use the periodic table (mass number and atomic number) to count the numbers of subatomic particles in an atom. This lesson also covers the definition of “isotopes”. This lesson also dual codes this information with atomic diagrams and periodic table squares to cement student understanding of where these numbers come from, while also being a great support for EAL and SEN students. Great for “I do, we do, you do” activities and can be easily added to and extended if more examples and practice are needed by a given class.
Lesson contains:
Lesson powerpoint, including whole class whiteboard AFL activities, core hinge/thinking questions, full answers and notes to aid in lesson delievery and structure
Student worksheet
Exam style questions with mark scheme
Lesson Objectives:
Know what the numbers on the periodic table mean
Use the periodic table to count the numbers of protons, neutrons and electrons in an atom
Predict atomic number and mass number from the numbers of subatomic particles
Define the term “isotope” and identify examples of them
This bundle contains the lessons, powerpoints and all relevant resources for teaching the Separate Science GCSE Chemistry AQA content on electrochemical cells and fuel cells.
This bundle contains 3-4 lessons of content including:
Lesson 1: What are Electrochemical Cells?
Lesson Objectives:
Describe what an electrochemical cell is and what we use it for
Describe how to make an electrochemical cell
Identify factors which affect the size of the voltage produced by an electrochemical cell
This lesson contains:
Lesson powerpoint
Student practical investigation
Teacher notes on how to deliver lesson slides/content and answers
Lesson 2: How do Electrochemical Cells Work?
Lesson Objectives:
Recall the definitions for oxidation and reduction
Identify which elements are oxidised and reduced in an electrochemical cell
(H) – write half equations for oxidation and reduction taking place in electrochemical cells
Explain why alkaline/non-rechargeable batteries eventually stop working
This lesson contains:
Lesson powerpoint, containing animation about how electrochemical cells produce electrical current and the reactions that take place within it
Student exam questions (23 marks worth) from AQA syllabus with mark scheme
Teacher notes on how to deliver lesson slides/content and answers
Lesson 3/4: What are Fuel Cells?
Lesson Objectives:
Describe, in basic terms, how a hydrogen fuel works
(Higher only) write balanced half equations for the reactions taking place inside a hydrogen fuel cell
Describe advantages and disadvantages of hydrogen fuel cells
Evaluate the use of hydrogen fuel vehicles compared to electric and petrol vehicles
Lesson resources include:
Lesson powerpoint with printable diagrams for students
Explanations of half equations from fuel cell (both acid cell (not AQA) and alkaline cell (AQA) version) and balancing them
Relevant video links
6 marker question and mark scheme
Exam question pack on fuel cells and energy
Plenary AFL multiple choice quiz and debate activity
This resource contains a worksheet where students can practice drawing ionic bonding for a range of examples.
Examples get harder as the sheet progresses. First questions are structured with electron shells and brackets drawn for them.
Resource contains PDF copy and an editable PPT version.
Fully drawn answer sheet attached at the end of each document.
A resource for AS and A-Level students to help practice naming and drawing alkanes, alkenes, alcohols and haloalkanes using the IUPAC naming system. Students can practice structural, displayed and skeletal formula drawing as well as naming in this booklet.
All answers included.
Designed for the UK curriculum (OCR, AQA, Edexcel)
Worksheet to help students understand how to work out whether a substance is a solid, liquid or gas based on it’s melting point or boiling point.
Worksheet document contains answers at the end.
Contains PDF copy and editable PPT version
Worksheet to be used to help students understand the steps in carrying out a simple acid-base titration.
Worksheet also contains key questions about the set up of the experiment and the collecting of data.
Contains both a PDF copy and an editable PPT copy
Full answer sheet included at the end of each document
A simple but effective wall display of some of the most common chemical formulas used in chemistry (especially relevant for the KS3 and GCSE Chemistry syllabus).
An interactive powerpoint resource designed to be used for distance learning from home.
Also contains interactive questions, a cheat sheet of common ions and practice questions.
Students should be able to:
Predicting the formula of salts from their names and ions