KS3 new for the Activate 1 unit ‘Reactions’.
Full lesson ready to use straight ‘out of the box’.
Similar structure to my other power points following the input - activity - review phasing
plenary sections for progress checking
Clear learning objectives and outcomes
Modern and engaging layout
Little adaptation needed
Covers an hour lesson of content matched to the specification
22 ppt slides
Please give constructive feedback :D
BONUS: There is one of our NEW Phosphor resources attached called ‘Plastic not so fantastic’. For more FREE Phosphor resources to engage your students in current scientific issues click here
This collection of 4 balancing equation worksheets and answer sheets. Each worksheet contains 20 equations to balance, they are aimed at GCSE and A level chemistry students and together provide a lot of practise balancing chemical equations.
This lesson uses carefully chosen examples with picture representations as well as chemical formulae. There are two differentiated worksheets (embedded in in the ppt) with answers and a plenary quiz. Thoroughly tried, tested and recommended.
Twitter @JohnnyBHudson
This worksheet is aimed at GCSE and A-level Chemistry students. The students are asked to write ionic equations for a range of reactions. Full answers are included.
Complete No-Prep DOUBLE lesson with 60+ slides, exam questions, tasks and answers on Radioactive Decay, Nuclear Radiation and Nuclear Equations for AQA GCSE (9-1) Science / Physics.
This lesson is also available in several bundles.
Atomic Structure bundle which contains ALL lessons for the Atomic Structure topic (6.4 / 4.4) https://www.tes.com/teaching-resource/resource-12653879
Atoms and Nuclear radiation bundle which contains the radiation lessons required for both GCSE Combined Science and GCSE Physics. https://www.tes.com/teaching-resource/resource-12649215
Radiation (Physics Only) bundle which contains the three additional lessons that are only required for GCSE Physics https://www.tes.com/teaching-resource/resource-12651514
As a Secondary Science teacher and Deputy Headteacher for many years I make high quality no-prep lessons so busy teachers can teach outstanding lessons without spending hours planning. This high quality lesson includes explanations, different types of in-lesson assessment (all with answers) and unique exam questions.
My lessons are ideal for non-Physicists - as a Biologist who retrained as a Physics teacher I know how to take learners on a journey that builds up their understanding step by step, while still going into a lot of depth. The preview video shows a representative sample of slides from the resource so that you get a good idea of what it includes before you buy.
What’s Included:
• Two Starter / Do Now activities so you can extend this over two lessons, stopping at the most appropriate point for your class.
• Explanation slides in “chunked” sections with animated diagrams.
• Worked examples of difficult parts e.g. nuclear equations.
• Multiple questions in different question styles and difficulties - no need for worksheets. Each “chunked” explanation section typically includes a set of “learning check / quick questions” followed by a set of in-depth questions on the learning from that “chunk” of the lesson. All questions have answers.
• Exam-style questions on the whole lesson at the end of the lesson- these are unique, based on real exam questions but not just copied from exam boards.
• Answers for all questions
• All easily editable to adapt to your teaching or to use in existing lessons.
• Slightly humorous, at points, if you like that sort of thing.
Learning objectives:
Describe how unstable nuclei can undergo radioactive decay including its random nature.
Describe the four types of nuclear radiation.
Describe alpha, beta and gamma radiation in terms of their composition, penetration through materials, range in air and ionising power.
Use nuclear equations to represent radioactive decay.
The lesson was written for AQA GCSE Science / Physics but is very likely to be applicable to other exam specifications.
Please leave a rating / review and all other feedback gratefully received!
A lesson covering how to balance and write half-equations. Questions and answers are included in the slides – no need to print. Designed for the AQA GCSE 9-1 specification.
A complete lesson of 54 slides
includes the law of conservation of mass, how to balance chemical equation, recap opportunity for naming substances followed by writing chemical formulae.
Includes plenty of AFL and mini white board activity. Activities focus on explicit teaching of key concepts.
New for the AQA GCSE 1-9 Combined Trilogy module ‘C4 Chemical Calculations (Quantitative Chemistry)’
Full lessons ready to use straight ‘out of the box’.
DOUBLE LESSON on Relative masses and the higher tier moles calculations.
Lessons meet the full criteria for this unit
Similar structure to my other power points following the input - activity - review phasing
Plenary sections for progress checking
Clear learning objectives and outcomes
Modern and engaging layout
Little adaptation needed
Practice exam questions for each lesson with mark schemes
Each lesson covers at least an hour of lesson time
29 ppt slides
Please leave constructive feedback :D
Two worksheets on forming and solving algebraic equations.
Worksheet 1 - forming equations from shape properties.
Section A - Angle facts
Section B- Perimeter
Section C- Shape properties.
Worksheet 2 - forming equations from worded
All equations formed are linear equations ( 2 step, 3 step and variables on both sides)
Used for both KS3 and KS4
Answers are provided
Complete No-Prep lesson with exam questions, tasks and answers on Wave Speed (including measuring the speed of sound) and the wave equation (including the ripple tank and vibrating string required practicals) for AQA GCSE (9-1) Science / Physics.
I have split AQA GCSE Physics 4.6.1.2 / Combined Science 6.6.1.2 over two lessons because to teach it fully requires more than one lesson. This is part two and covers the parts of AQA GCSE Physics 4.6.1.2 / Combined Science 6.6.1.2 relating to wave speed, measuring the speed of sound, the wave equation and preparation and understanding of the required practicals.
All other aspects of 4.6.1.2 / 6.6.1.2 (i.e. wavelength, amplitude, frequency and period) are covered in the previous lesson except for: *“(Physics only) students should be able to show how changes in velocity, frequency and wavelength, in transmission of sound waves from one medium to another, are inter-related”.
As that particular exam spec point relates to sound, and is for GCSE Physics students only, I have included it in the lesson on Sound which is also for GCSE Physics only.
As a Secondary Science teacher, Deputy Headteacher, writer and examiner for many years I make high quality no-prep lessons so busy teachers can teach outstanding lessons without spending hours planning. This high quality lesson includes explanations, different types of in-lesson assessment (all with answers) and unique exam questions.
My lessons are ideal for non-Physicists - as a Biologist who retrained as a Physics teacher I know how to take learners on a journey that builds up their understanding step by step, while still going into a lot of depth. The preview video shows a representative sample of slides from the resource so that you get a good idea of what it includes before you buy.
What’s Included:
• Teaching notes
• Starter / Do Now Activity
• Explanation slides in “chunked” sections with animated diagrams.
• Worked examples of calculations / questions.
• Multiple questions in different question styles and difficulties - no need for worksheets. Each “chunked” explanation section typically includes a set of “learning check / quick questions” followed by a set of in-depth questions on the learning from that “chunk” of the lesson. All questions have answers.
• Exam-style questions on the whole lesson at the end of the lesson- these are unique, based on real exam questions but not just copied from exam boards.
• Answers for all questions
• All easily editable to adapt to your teaching or to use in existing lessons.
• Slightly humorous, at points, if you like that sort of thing.
The lesson was written for AQA GCSE Science / Physics but is very likely to be applicable to other exam specifications.
Please leave a rating / review and all other feedback gratefully received!
This resource contains 3 worksheets for ionic half-equations that can be used in class or as homework to enable your students to practice what they have learnt in the classroom.
We have worksheets for the following topics in Chemistry Paper 1:
Atomic Structure and The Periodic Table
Atoms, Elements and Compounds
Mixtures and Separation Techniques
Relative Atomic Mass and Electronic Structure
The Periodic Table and Metals
Groups 0 & 1
Group 7
Bonding, Structure, and The Properties of Matter
Ionic Bonding
Covalent and Metallic Bonding
Structure and Bonding of Carbon
Quantitative Chemistry
Balancing Equations
% Mass
Relative Atomic and Formula Mass
Amount of Substances in Equations
The Mole
Using Moles to Balance Equations
Limiting Reactants
Concentration of Solutions
Chemical Changes
Metal Oxides and Reactivity Series
Displacement Reactions
Extraction of Metals and Reduction
Ionic Equations
Reactions of Metals with Acids
Neutralisation of Acids
pH Scale, Neuralisation, and Strong & Weak Acids
Electrolysis
Energy Changes
Energy Transfers and Reaction Profiles
Energy Changes of Reactions
More worksheets will be added in the future.
Please rate and review this resource. Thank you!
2 worksheet with questions of increasing difficulty on electrolysis half equations.
Version 2 has a few trickier questions, including writing half equations from scratch. Answers on P2 of each document.
Perfect if you teach GCSE Combined Science or GCSE Chemistry Single Science, this fully differentiated and resourced bundle supports your students in learning about word and balanced symbol equations. Adapted to cover all exam boards. Students will recall all word equations that cover the full specification, write names and chemical formula for compounds, and practice writing balanced symbol equations to represent reactions.
This bundle includes a detailed and engaging lesson PowerPoint with differentiated activities, worksheets with answers, exam style questions and progress quizzes for students to complete. Also great for KS3 Science or as a GCSE revision resource.
Enjoy and feel free to leave a review.
INCLUDED IN BUNDLE:
63 slide PowerPoint Presentation with key points, progress check questions, checkpoints, practice exam questions and quizzes.
2 differentiated worksheets
Answers for all worksheets
L1- An introduction to the Arrhenius equation involves introducing the different terms in the equation and giving practice in using the calculation.
L2- This lesson involves using a different form of the equation to plot a straight line graph. The gradient of the graph of the graph can be used to calculate activation energy. Students have lots of opportunities to practice this idea.
Worked answers are given throughout.
A color-coded worksheet to help students work through word equations for neutralisation reactions.
Really useful to help lower ability or KS3 classes visualise where the products of neutralisation reactions come from.
Includes a worked example and answer key.
A set of worksheets for practice in factorising quadratic expressions, solving quadratic equations by factorising etc.
For more resources like this please visit my shop at
https://www.tes.com/teaching-resources/shop/Skillsheets
Worksheet to support students with balancing equations.
The premium resource of this worksheet is available and contains all the answers to each of the equations:
https://www.tes.com/teaching-resource/balancing-equations-11146814
this is a handout that can be used to reinforce learning about equations and formulae to work out unknown values it is good for foundation students and can be extended to challenge students at higher tier.