This resource contains a complete lesson on: electronic structure of atoms and how it is represented. This resource is suitable for students studying combined science or triple.
This resource is here to save you many hours of work and hassle. With our top-quality teaching material, you can easily reuse and adapt them to fit your unique teaching style. Say goodbye to the stress of lesson planning and hello to more time for what matters most.
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Curriculum-aligned to AQA GCSE Combined and Triple Chemistry specifications 8462/8464.
Suitable for both foundation and higher students.
Questions in the presentation engages students and allows them to develop their problem-solving and critical thinking skills.
Easy to use and integrate into existing lessons.
This resource contains:
Presentation with 27 slides, containing discussion questions and concepts explained in simple terms.
Worksheet with an answer sheet.
Custom exam-styled questions with a mark scheme - perfect for revision or homework.
Recommended lesson duration: 1 lesson
Feel free to reach out if you have any questions!
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Disclaimer: This resource does not have any affiliation with AQA or any other exam board. This resource has been created by a third-party to allow students to learn about the content found in an AQA specification.
Please note that this resource does not contain detailed information about practical activities which may be associated with this content.
This resource contains a complete lesson on: separating mixtures - filtration, crystallisation, simple distillation, briefly on fractional distillation, and chromatography. A perfect introductory lesson for new chemistry students, suitable for students studying combined science or triple.
This resource is here to save you many hours of work and hassle. With our top-quality teaching material, you can easily reuse and adapt them to fit your unique teaching style. Say goodbye to the stress of lesson planning and hello to more time for what matters most.
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Curriculum-aligned to AQA GCSE Combined and Triple Chemistry specifications 8462/8464.
Suitable for both foundation and higher students.
Questions in the presentation engages students and allows them to develop their problem-solving and critical thinking skills.
Easy to use and integrate into existing lessons.
This resource contains:
Presentation with 34 slides, containing discussion questions and concepts explained in simple terms.
Worksheet with an answer sheet.
Custom exam-styled questions with a mark scheme - perfect for revision or homework.
Recommended lesson duration: 1-2 lessons
Feel free to reach out if you have any questions!
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Disclaimer: This resource does not have any affiliation with AQA or any other exam board. This resource has been created by a third-party to allow students to learn about the content found in an AQA specification.
Please note that this resource does not contain detailed information about practical activities which may be associated with this content.
This resource contains a complete lesson on: the history and development of the periodic table, including the work of Dimitri Mendeleev and John Newlands. This resource is suitable for students studying combined science or triple.
This resource is here to save you many hours of work and hassle. With our top-quality teaching material, you can easily reuse and adapt them to fit your unique teaching style. Say goodbye to the stress of lesson planning and hello to more time for what matters most.
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Curriculum-aligned to AQA GCSE Combined and Triple Chemistry specifications 8462/8464.
Suitable for both foundation and higher students.
Questions in the presentation engages students and allows them to develop their problem-solving and critical thinking skills.
Easy to use and integrate into existing lessons.
This resource contains:
Presentation with 31 slides, containing discussion questions and concepts explained in simple terms.
Worksheet with an answer sheet.
Custom exam-styled questions with a mark scheme - perfect for revision or homework.
Recommended lesson duration: 1-2 lessons
Feel free to reach out if you have any questions!
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Disclaimer: This resource does not have any affiliation with AQA or any other exam board. This resource has been created by a third-party to allow students to learn about the content found in an AQA specification.
Please note that this resource does not contain detailed information about practical activities which may be associated with this content.
This resource contains a complete lesson on: alkali metals; reaction of these metals with oxygen, water, and chlorine; reactivity; and balancing symbol equations. This resource is suitable for students studying combined science or triple.
This resource is here to save you many hours of work and hassle. With our top-quality teaching material, you can easily reuse and adapt them to fit your unique teaching style. Say goodbye to the stress of lesson planning and hello to more time for what matters most.
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Curriculum-aligned to AQA GCSE Combined and Triple Chemistry specifications 8462/8464.
Suitable for both foundation and higher students.
Questions in the presentation engages students and allows them to develop their problem-solving and critical thinking skills.
Easy to use and integrate into existing lessons.
This resource contains:
Presentation with 34 slides, containing discussion questions and concepts explained in simple terms.
Worksheet with an answer sheet.
Custom exam-styled questions with a mark scheme - perfect for revision or homework.
Recommended lesson duration: 1-2 lessons
Feel free to reach out if you have any questions!
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Disclaimer: This resource does not have any affiliation with AQA or any other exam board. This resource has been created by a third-party to allow students to learn about the content found in an AQA specification.
Please note that this resource does not contain detailed information about practical activities which may be associated with this content.
This revision resource is specially designed for topic 1.4 covering: reactivity series, extraction of metals, reactions of acids with metals, neutralisation, pH levels, and electrolysis. This resource contains multiple-choice questions that students can complete to find any gaps in learning, allowing them to revise on specific topics.
With our top-quality teaching material, you can easily reuse and adapt them to fit your unique teaching style. Say goodbye to the stress of lesson planning and hello to more time for what matters most.
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Curriculum-aligned to AQA GCSE Combined and Triple Chemistry specifications 8462/8464.
Suitable for foundation, higher, and triple students. Questions suitable for higher students only are marked with (H). Questions suitable for triple students only are marked with (T)
Easy to use and integrate into existing lessons.
Find gaps in learning / weak topics, allowing students to tailor their revision.
This resource contains:
40 multiple-choice questions covering content found in topic 1.4. (pdf)
Answer sheet. (pdf)
Recommended activity duration: 45 minutes
Feel free to reach out if you have any questions!
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Disclaimer: This resource does not have any affiliation with AQA or any other exam board. This resource has been created by a third-party to allow students to learn about the content found in an AQA specification.
Please note that this resource does not contain detailed information about practical activities which may be associated with this content.
These revision questions are aimed at finding gaps in students’ knowledge, allowing them to revise the appropriate topics ready for any exams! These multiple-choice questions can be used during in-class revision session, and can even be set for homework.
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For the AQA GCSE Combined and Triple Physics specifications 8463/8464.
This bundle contains:
Over 275 multiple-choice questions for paper 2 with four different options requiring the student to determine the correct answer.
Questions for triple students are clearly marked.
Answer sheet with the correct answer.
Please check each individual resource in this bundle to see what is included!
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This complete lesson covers gravitational potential energy, the transfers between different energy stores involving kinetic energy, and using and rearranging the equation: GPE = mgh. This resource is suitable for students with different abilities with simple and clear language with diagrams and images being used to suit visual learners.
You can easily reuse and adapt our top-quality teaching material to fit your unique teaching style. Links to optional additional resources have been included which can be used to supplement the teaching of this content.
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For the AQA GCSE Combined and Triple Physics specifications 8463/8464.
This resource contains:
25+ slide presentation which includes images and diagrams, animations, student activities, and discussion questions.
2 page worksheet designed to challenge students and consolidate knowledge - more exciting than copying from the board!An answer sheet has been included.
Custom exam-styled questions designed to allow students to practice their exam technique based on this content. A mark scheme is included.
Optional supplement resources to further reinforce concepts delivered in this lesson. More details are provided in the information document in the download.
Other useful resources from us:
(Free) Gravitational Potential Energy - Practice Calculations
Energy Revision - Topic 1 Multiple Choice Questions - Great for finding weaker topics prior to the exams!
(Free) Energy Stores and Transfers - Full complete lesson for AQA GCSE!
Kinetic Energy - Full complete lesson for AQA GCSE!
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Disclaimer: This resource does not have any affiliation with AQA or any other exam board. Please note that this resource does not contain detailed information about practical activities which may be associated with this content. This will be covered in separate resource(s) in the future
This complete lesson covers kinetic energy, the transfers between different energy stores involving kinetic energy, and using and rearranging the equation: KE = 1/2 m v^2. This resource is suitable for students with different abilities with simple and clear language with diagrams and images being used to suit visual learners.
You can easily reuse and adapt our top-quality teaching material to fit your unique teaching style. Links to optional additional resources have been included which can be used to supplement the teaching of this content.
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For the AQA GCSE Combined and Triple Physics specifications 8463/8464.
This resource contains:
30+ slide presentation which includes images and diagrams, animations, student activities, and discussion questions.
2 page worksheet designed to challenge students and consolidate knowledge. An answer sheet has been included.
Custom exam-styled questions designed to allow students to practice their exam technique based on this content. A mark scheme is included.
Optional supplement resources to further reinforce concepts delivered in this lesson. More details are provided in the information document in the download.
Other useful resources from us:
(Free) Kinetic Energy - Practice Calculations
Energy Revision - Topic 1 Multiple Choice Questions - Great for finding weaker topics prior to the exams!
(Free) Energy Stores and Transfers - Full complete lesson for AQA GCSE!
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Disclaimer: Please note that this resource does not contain detailed information about practical activities which may be associated with this content. This will be covered in separate resource(s) in the future
This resource contains practice calculations questions for uniform acceleration, ideal for revision or practice, using the equation: v^2 = u^2 + 2as
’Stage 1 & 2’ questions require students to calculate the magnitudes of different variables which may require the equation to be rearranged.
A handwritten answer sheet is provided to show students best practices when approached with a calculation question.
This resource has been designed for the AQA specification, but it may also be suitable for other exam boards with a similar syllabus.
Feel free to reach out if you have any questions!
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Disclaimer: This resource does not have any affiliation with AQA or any other exam board.
This resource contains practice calculations questions for the moment of a force, ideal for revision or practice, using the equation: M = Fd.
’Stage 1’ questions require students to calculate the magnitude of the moment of a force using given information.
’Stage 2’ questions require students to rearrange the equation to calculate values for different variables.
’Stage 3’ questions (extension) require students to use values in standard form to calculate the magnitude of the moment of a force or different variables.
A handwritten answer sheet is provided to show students best practices when approached with a calculation question.
This resource has been designed for the AQA specification, but it may also be suitable for other exam boards with a similar syllabus.
Feel free to reach out if you have any questions!
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Disclaimer: This resource does not have any affiliation with AQA or any other exam board.
This resource contains practice calculations questions for transformers, ideal for revision or practice, using the equations: Vp/Vs = np/ns, or, Vp x Ip = Vs x Is.
’Stage 1’ questions require students to rearrange the equation Vp/Vs = np/ns, to calculate the magnitudes of different variables.
’Stage 2’ questions require students to rearrange the equation Vp x Ip = Vs x Is, to calculate the magnitudes of different variables.
’Stage 3’ questions (extension) require students to use values in standard form to calculate the magnitudes of different variables.
A handwritten answer sheet is provided to show students best practices when approached with a calculation question.
This resource has been designed for the AQA specification, but it may also be suitable for other exam boards with a similar syllabus.
Feel free to reach out if you have any questions!
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Disclaimer: This resource does not have any affiliation with AQA or any other exam board.
This resource contains practice calculations questions for kinetic energy, ideal for revision or practice, using the equation: KE = 1/2mv^2.
’Stage 1’ questions require students to calculate the magnitude of kinetic energy using given information.
’Stage 2’ questions require students to rearrange the equation to calculate values for different variables.
’Stage 3’ questions (extension) require students to use values in standard form to calculate the magnitude of kinetic energy or different variables.
A handwritten answer sheet is provided to show students best practices when approached with a calculation question.
This resource has been designed for the AQA specification, but it may also be suitable for other exam boards with a similar syllabus.
Feel free to reach out if you have any questions!
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Disclaimer: This resource does not have any affiliation with AQA or any other exam board.
This resource contains practice calculations questions for energy efficiency, ideal for revision or practice, using the equation: efficiency = useful / total input.
’Stage 1’ questions require students to calculate the magnitude of efficiency using given information.
’Stage 2’ questions require students to rearrange the equation to calculate values for different variables.
’Stage 3’ questions (extension) require students to use values in standard form to calculate the efficiency or magnitudes of different variables.
A handwritten answer sheet is provided to show students best practices when approached with a calculation question.
This resource has been designed for the AQA specification, but it may also be suitable for other exam boards with a similar syllabus.
Feel free to reach out if you have any questions!
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Disclaimer: This resource does not have any affiliation with AQA or any other exam board.
This resource contains practice calculations questions for momentum and impulse, ideal for revision or practice, using the equations: p = mv, and F = mv/t
’Stages 1-2’ questions (mixed difficulty) require students to calculate the magnitude of momentum or impulse. Some questions may require students to rearrange the correct equation to calculate the magnitude of different variables.
A handwritten answer sheet is provided to show students best practices when approached with a calculation question.
This resource has been designed for the AQA specification, but it may also be suitable for other exam boards with a similar syllabus.
Feel free to reach out if you have any questions!
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Disclaimer: This resource does not have any affiliation with AQA or any other exam board.
This covers a variety of examples of the main ethical and cultural issues of digital technology. This resource has been specially created for the OCR GCSE Computer Science (J277) course, meaning there is no irrelevant content from other exam boards. This resource consists of a PowerPoint presentation, a worksheet with answers, custom-made exam-styled questions with a mark scheme, and a full lesson plan. See the preview to see what is included!
This resource is here to save you time and hassle. With our top-quality teaching material, you can easily reuse and adapt them to fit your unique teaching style. Say goodbye to the stress of lesson planning and hello to more time for what matters most.
Suggested Duration: 1-2 Lesson(s)
This resource is designed to cover:
Variety of examples of ethical and cultural issues.
Key stakeholders and how they are impacted by digital technology.
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Other complete lessons in Unit 1.6:
Ethical and Cultural Issues (Current)
Legal, Environmental, and Privacy Issues
Laws and Legislation
Software Licenses
You can also view a discounted bundle that contains all the above resources.
This revision resource is specially designed for topic 1.5 covering: endothermic and exothermic reactions, reaction profiles, energy changes, and cells and batteries. This resource contains multiple-choice questions that students can complete to find any gaps in learning, allowing them to revise on specific topics.
With our top-quality teaching material, you can easily reuse and adapt them to fit your unique teaching style. Say goodbye to the stress of lesson planning and hello to more time for what matters most.
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Curriculum-aligned to AQA GCSE Combined and Triple Chemistry specifications 8462/8464.
Suitable for foundation, higher, and triple students. Questions suitable for higher students only are marked with (H). Questions suitable for triple students only are marked with (T)
Easy to use and integrate into existing lessons.
Find gaps in learning / weak topics, allowing students to tailor their revision.
This resource contains:
22 multiple-choice questions covering content found in topic 1.5. (pdf)
Answer sheet. (pdf)
Recommended activity duration: 25 minutes
Feel free to reach out if you have any questions!
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Disclaimer: This resource does not have any affiliation with AQA or any other exam board. This resource has been created by a third-party to allow students to learn about the content found in an AQA specification.
Please note that this resource does not contain detailed information about practical activities which may be associated with this content.
This resource contains practice calculations questions for elasticity, ideal for revision or practice, using the equation: F = ke.
’Stage 1’ questions require students to calculate the magnitude of force using given information.
’Stage 2’ questions require students to rearrange the equation to calculate values for different variables.
’Stage 3’ questions (extension) require students to use values in standard form to calculate the magnitude of force or different variables.
A handwritten answer sheet is provided to show students best practices when approached with a calculation question.
This resource has been designed for the AQA specification, but it may also be suitable for other exam boards with a similar syllabus.
Feel free to reach out if you have any questions!
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Disclaimer: This resource does not have any affiliation with AQA or any other exam board.
This resource contains practice calculations questions for pressures in gases, ideal for revision or practice, using the equation: pV = constant.
’Stage 1-2’ questions (mixed difficulty) require students to rearrange the equation pV = constant, to calculate the magnitudes of different variables.
A handwritten answer sheet is provided to show students best practices when approached with a calculation question.
This resource has been designed for the AQA specification, but it may also be suitable for other exam boards with a similar syllabus.
Feel free to reach out if you have any questions!
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Disclaimer: This resource does not have any affiliation with AQA or any other exam board.
This resource contains practice calculations questions for calculating the force exerted on a current-carrying wire in a magnetic field, ideal for revision or practice, using the equation: F = BIl.
’Stage 1’ questions require students to calculate the magnitude of force exerted on a wire using given information.
’Stage 2’ questions require students to rearrange the equation to calculate values for different variables.
’Stage 3’ questions (extension) require students to use values in standard form to calculate the magnitude of force or different variables.
A handwritten answer sheet is provided to show students best practices when approached with a calculation question.
This resource has been designed for the AQA specification, but it may also be suitable for other exam boards with a similar syllabus.
Feel free to reach out if you have any questions!
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Disclaimer: This resource does not have any affiliation with AQA or any other exam board.
This resource contains practice calculations questions for Newton’s 2nd Law, ideal for revision or practice, using the equation: F = ma.
’Stage 1’ questions require students to calculate the magnitude of force using given information.
’Stage 2’ questions require students to rearrange the equation to calculate values for different variables.
’Stage 3’ questions (extension) require students to use values in standard form to calculate the magnitude of force or different variables.
A handwritten answer sheet is provided to show students best practices when approached with a calculation question.
This resource has been designed for the AQA specification, but it may also be suitable for other exam boards with a similar syllabus.
Feel free to reach out if you have any questions!
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