Over 200 resources available for KS3-KS4 Science, KS5 Chemistry and Whole School! Lesson resources are suitable for live lessons in school, remote teaching at home or independent student study. It’s your choice how you use them 😊 Don’t forgot to explore my free resources too!
Over 200 resources available for KS3-KS4 Science, KS5 Chemistry and Whole School! Lesson resources are suitable for live lessons in school, remote teaching at home or independent student study. It’s your choice how you use them 😊 Don’t forgot to explore my free resources too!
68 flashcards on OCR A level Chemistry keywords and definitions - Year 12 content only
Specific printing instructions have been included and should be followed so that flashcards can be successfully printed.
Important Note: These flashcards are only suitable to be printed as A6 flashcards (1/4 size of A4)
Included are keywords from the following OCR A Level chemistry modules:
Module 2 – Foundation Chemistry
Module 3 – The Periodic Table & Energy
Module 4 – Core Organic Chemistry
6 different flashcards sets on:
Year 12 keywords & definitions *
Year 13 keywords & defintions *
A level Chemistry Equations & Formulae *
Shapes of molecules and ions
Qualitative Analysis, Group 2 reactions and The Halogens
Transition Element Reactions
Important note: The first three flashcards sets are ‘flip around’ flashcards where the answers are revealed on the back of the flashcard
91 flashcards on AQA A level Chemistry keywords and definitions - Year 12 and 13 content
Specific printing instructions have been included and should be followed so that flashcards can be successfully printed.
Important Note: These flashcards are only suitable to be printed as A6 flashcards (1/4 size of A4)
Included are keywords from the following AQA A Level chemistry modules:
3.1 Physical Chemistry
3.2 Inorganic Chemistry
3.3 Organic Chemistry
56 flashcards on OCR A level Chemistry equations and formulae (both year 12 and 13 content)
Specific printing instructions have been included and should be followed so that flashcards can be successfully printed.
Important Note: These flashcards are only suitable to be printed as A6 flashcards (1/4 size of A4)
Included are keywords from the following OCR A Level chemistry modules:
Module 2 – Foundation Chemistry
Module 3 – The Periodic Table & Energy
Module 5 – Physical Chemistry & Transition Elements
Module 6 – Organic Chemistry & Analysis
52 flashcards on OCR A level Chemistry keywords and definitions - Year 13 content only
Specific printing instructions have been included and should be followed so that flashcards can be successfully printed.
Important Note: These flashcards are only suitable to be printed as A6 flashcards (1/4 size of A4)
Included are keywords from the following OCR A Level chemistry modules:
Module 5 – Physical Chemistry and Transition Elements
Module 6 – Organic Chemistry and Analysis
A complete A Level Chemistry KS5 lesson including starter activity, main work task and answers on acid-base titration calculations
By the end of this lesson KS5 students should be able to:
To apply mole calculations to complete structured titration calculations, based on experimental results of familiar acids and bases.
To apply mole calculations to complete non-structured titration calculations, based on experimental results of non-familiar acids and bases
All tasks have worked out answers which will allow students to self assess their work in the lesson
Declaimer: Please refrain from purchasing this popular resource for an interview lesson or a formal observation. This is because planning your own lessons including using your own lesson PowerPoints is a fundamental skill of a qualified/unqualified teacher that will be reviewed during these scenarios outlined above
2 Full Lesson Bundle covering the topic of Acid-Base Titrations for the OCR Specification (Year 12). See below for the lesson objectives.
Lesson 1: Acid-Base Titration Procedures
By the end of the lesson students will be able to:
Outline the techniques and procedures used when preparing a standard solution of required concentration
Outline the techniques and procedures used when carrying out acid–base titrations
Determine the uncertainty of measurements made during a titration practical
**Lesson 2: Acid-Base Titration Calculations **
By the end of the lesson students will be able to:
Apply mole calculations to complete structured titration calculations, based on experimental results of familiar acids and bases.
Apply mole calculations to complete non-structured titration calculations, based on experimental results of non-familiar acids and bases
Declaimer: Please refrain from purchasing this popular resource for an interview lesson or a formal observation. This is because planning your own lessons including using your own lesson PowerPoints is a fundamental skill of a qualified/unqualified teacher that will be reviewed during these scenarios outlined above
15 Full Lesson Bundle (included a free bonus lesson) covering the module 2.1 on Atoms & Reactions from the OCR A Level Chemistry A Specification. See below for the lesson objectives.
Lesson 1: Atomic Structure & Isotopes
To describe the atomic structure of an atom
To describe atomic structure in terms of protons, neutrons and electrons for atoms and ions, given the atomic number, mass number and any ionic charge
To define the term isotopes and to identify the atomic structure of isotopes in terms of protons, neutrons and electrons
Lesson 2: Relative Masses
To define the terms relative atomic mass, relative formula mass and relative molecular mass
To calculate the relative formula mass and relative molecular mass of compounds and molecules
Lesson 3: Mass Spectroscopy
To determine the relative atomic masses and relative abundances of the isotope using mass spectroscopy
To calculate the relative atomic mass of an element from the relative abundances of its isotope
Lesson 4: Ions & The Periodic Table
To predict the ionic charge of ions based on the position of the element in the periodic table
To recall the names of common atomic and molecular ions
To be able write the formula of ionic compounds
Lesson 5: Empirical and Molecular Formulae
To understand what is meant by ‘empirical formula’ and ‘molecular formula’
To calculate empirical formula from data giving composition by mass or percentage by mass
To calculate molecular formula from the empirical formula and relative molecular mass.
**Lesson 6: Water of Crystallisation **
To know the terms anhydrous, hydrated and water of crystallisation
To calculate the formula of a hydrated salt from given percentage composition or mass composition
To calculate the formula of a hydrated salt from experimental results
Lesson 7: Moles & Volumes (Solutions & Gas Volumes)
To calculate the amount of substance in mol, involving solution volume and concentration
To understand the terms dilute, concentrated and molar
To explain and use the term molar gas volume
To calculate the amount of substance in mol, involving gas volume
Lesson 8: Moles & Equations
To know how to balance symbol equations
To calculate the moles of reactants or products based on chemical equations and mole ratios
To calculate the masses of reactants used or products formed based on chemical equations and mole ratios
Lesson 9: Percentage Yield and Atom Economy
To know how to balance symbol equations
To calculate atom economy and percentage yield from balanced symbol equations
To calculate the masses and moles of products or reactants from balanced symbol equations
Lesson 10: Acids, Bases & Neutralisation
To know the formula of common acids and alkalis
To explain the action of an acid and alkali in aqueous solution and the action of a strong and weak acid in terms of relative dissociations
To describe neutralisation as a reaction of:
(i) H+ and OH– to form H2O
(ii) acids with bases, including carbonates, metal oxides and alkalis (water-soluble bases), to form salts, including full equations
Lesson 11: Acid-Base Titration Procedures
To outline the techniques and procedures used when preparing a standard solution of required concentration
To outline the techniques and procedures used when carrying out acid–base titrations
To determine the uncertainty of measurements made during a titration practical
Lesson 12: Acid-Base Titration Calculations
To apply mole calculations to complete structured titration calculations, based on experimental results of familiar acids and bases.
To apply mole calculations to complete non-structured titration calculations, based on experimental results of non-familiar acids and bases
Lesson 13: Oxidation States
To recall the rules for oxidation states of uncombined elements and elements in compounds
To determine the oxidation states of elements in a redox reaction
To identify what substance has been reduced or oxidised in a redox reaction
Lesson 14: Half Equations (Redox Reactions)
To understand what a half equation is
To explain what a redox equation is
To construct half equations from redox equations
Lesson 15: Redox Equations
To identify what substance has been reduced or oxidised in a redox reaction
To construct balanced half equations by adding H+ and H2O
To construct full ionic redox equations from half equations
**Note: Lesson 15 is a free bonus (stretch & challenge) lesson that focuses on redox in year 13 (module 5.2.3 (spec points a-c)) **
Declaimer: Please refrain from purchasing this popular resource for an interview lesson or a formal observation. This is because planning your own lessons including using your own lesson PowerPoints is a fundamental skill of a qualified/unqualified teacher that will be reviewed during these scenarios outlined above
A theory revision lesson reviewing the methods and exam questions for PAG 1 (1.1-1.3) OCR Practicals.
Included in this resource is a printable handout which enables students to:
Recall the experimental set up and method for OCR PAG 1 Practicals
Evaluate the practical methods
Complete exam style questions
There are 5 exam style questions included. Answers to these questions are also included
These resource is ideal for revision of PAG 1 practicals in the run up to external exams or mocks.
Summary of all the equations and conversions to remember from AQA chemistry chapter 3 on Chemical Quantities and Conversions for higher tier students/ triple chemistry students
A 9 point checklist that can be used by students to help them construct the perfect line graph in science.
This checklist can also be used by teachers when giving feedback to students on their constructed line graphs
Students take pride when they are given a responsible duty in the classroom (plus it also helps to reduce teacher workload!). Use the classroom duty list to select students every half term for the following roles
writing book monitor
textbook/ worksheet monitor
equipment monitor.
There is also space to add substitutes in case students are absent
Help students keep their workbooks to a high quality with this book quality checklist that students can stick in the inside cover, back cover or first page of their work books or it can be used as a classroom display. Please amend as necessary
Creating a safe learning environment is important during pracitical activities. This Practical Routine is great for practical based subjects such as science, food tech, design techology and art. These rules can be delivered during a practical lesson or it can be used as displays in your classroom
These target stickers enables teachers and students to track their progress in science or other subjects on a weekly or biweekly bias. These stickers should be stuck in students’ books so they can take responsibility of their own learning and work progress. Teachers can easily see which students are not meeting targets and therefore requires intervention strategies
A 45 minute end of chapter test on chemical equilibrium. The test covers content from both year 12 and 13 OCR on chemical equilibrium. A markscheme with model answers is also included which enables students self assess their answers in class with their teacher or as a homework task.
The test is based on the following learning objectives:
Apply le Chatelier’s principle to deduce qualitatively (from appropriate information) the effect of a change in temperature, concentration or pressure, on a homogeneous system in equilibrium.
Explain that a catalyst increases the rate of both forward and reverse reactions in an equilibrium by the same amount resulting in an unchanged position of equilibrium
Deduce, for homogeneous and heterogeneous reactions, expressions for the equilibrium constant Kc.
Calculate the values of the equilibrium constant, Kc (from provided or calculated equilibrium moles or concentrations), including determination of units.
Estimate the position of equilibrium from the magnitude of Kc.
Calculate, given appropriate data, the concentration or quantities present at equilibrium.
Deduce, for homogeneous and heterogeneous reactions, expressions for the equilibrium constant Kp.
Calculate the values of the equilibrium constant, Kp (from provided or calculated equilibrium moles or pressures), including determination of units.
Explain the effect of changing temperature on the value of Kc or Kp for exothermic and endothermic reactions.
State that the value of Kc or Kp is unaffected by changes in concentration or pressure or by the presence of a catalyst.
Explain how Kc or Kp controls the position of equilibrium on changing concentration, pressure and temperature
A structured KS5 lesson including starter activity, AfL work tasks and lesson slides on the properties of alkenes. This lesson is an introduction to the chapter on alkenes. This lesson follows the OCR specification.
By the end of the lessons students should be able:
1)To know the general formula of alkenes
2)To explain the shape and bond angle around each carbon atom of a C=C bond
3)To describe how π and σ bonds are formed in alkenes**
Declaimer: Please refrain from purchasing this popular resource for an interview lesson or a formal observation. This is because planning your own lessons, including using your own lesson PowerPoints, is a fundamental skill of a qualified/unqualified teacher that will be assessed during the scenarios outlined above
A structured KS5 lesson (Part 1 of 2) including starter activity, AfL work tasks and main work task all with answers on Intermolecular Forces (London forces and permanent dipole-dipole interactions)
By the end of this lesson KS5 students should be able to:
Understand intermolecular forces based on induced-dipole interactions and permanent dipole-dipole interactions
Explain how intermolecular forces are linked to physical properties such as boiling and melting points
Compare the solubility of polar and non-polar molecules in polar and non-polar solvents
The teacher will be able to check students have met these learning objectives through mini AfL tasks for students to complete
Declaimer: Please refrain from purchasing this popular resource for an interview lesson or a formal observation. This is because planning your own lessons, including using your own lesson PowerPoints, is a fundamental skill of a qualified/unqualified teacher that will be assessed during the scenarios outlined above
