My comprehensive collection of classroom-based resources caters to KS3 and KS4 science, aligned with the AQA specification. Additionally, I offer a range of distance learning resources to support flexible learning environments.
For the latest updates on resources and new releases, be sure to visit my website
My comprehensive collection of classroom-based resources caters to KS3 and KS4 science, aligned with the AQA specification. Additionally, I offer a range of distance learning resources to support flexible learning environments.
For the latest updates on resources and new releases, be sure to visit my website
This lesson bundle covers the content for the AQA GCSE Chemistry C4.8 Titration calculations lesson in two formats- classroom based lesson presentation and digital worksheet Ideal for distance learning or covering missed content after absence. Students work through a variety of tasks to develop their understanding of how to calculate the concentrations in titrations.
Aimed at a higher ability class covering content 5-8.
1. Classroom based presentation-
Bell work activity
Lesson objective and success criteria
Information slides
Challenge activities (group work)
Practical activity
Demonstrate understanding tasks (with answers)
Please note: Kerboodle worksheets from scheme are not included due to license.
2.Digital worksheet-
Teacher guidance and answers
Engage- Links and ‘Big Question’ to engage students at start of lesson
Explore- Self-assessed calculation task using Google Sheets.
Explain- Embedded Google Slides™ presentation (includes lesson objectives, information slides, self-assessed questions).
Apply- Resources and task in which students apply their knowledge gained during the lesson.
Extend- Resources and task for students to extend their learning.
Please note: This resource works best as a Google Doc ™
If you require more assistance, please contact me at-
cmgeducationresources@gmail.com
During this distance learning lesson (C4.8 Titration calculations) GCSE students work through the digital worksheet activities to develop their understanding of how to calculate the concentrations in titrations. Based on the 8th lesson from the AQA 9-1 GCSE (OUP) Chemistry C4: Chemical calculations chapter.
Ideal for independent & distance learning / home-school / covering missed content after absence / non-specialist cover lesson
Aimed at a higher ability class covering content 5-8.
This resource includes (4 pages):
Teacher guidance and answers
Engage- Links and ‘Big Question’ to engage students at start of lesson
Explore- Self-assessed calculation task using Google Sheets.
Explain- Embedded Google Slides™ presentation (includes lesson objectives, information slides, self-assessed questions).
Apply- Resources and task in which students apply their knowledge gained during the lesson.
Extend- Resources and task for students to extend their learning.
Important: Students must have access to PC with internet to use this worksheet
This resource works best as a Google Doc™. with Google Classroom™ some tasks will be unavailable in other formats (Word/Excel).
If you require more assistance, please contact me at-
cmgeducationresources@gmail.com
During this lesson (C4.9 Volumes of gases) GCSE students work through a variety of tasks to develop their understanding of how to calculate the volume of a gas at rtp from its mass and relative formula mass. Based on the 9th from the AQA 9-1 GCSE Chemistry (OUP scheme) C4: Chemical calculations chapter.
Presentation contains (21 slides)-
Bell work activity
Lesson objective and success criteria
Information slides
Challenge activities (group work)
Practical activity
Demonstrate understanding tasks (with answers)
Lesson resources (additional to scheme)
Aimed at a higher ability class covering content 5-8.
Please note: Kerboodle worksheets from scheme are not included due to license.
If you require more assistance, please contact me at-
cmgeducationresources@gmail.com
8 digital worksheets covering the AQA 9-1 GCSE Chemistry C4: Chemical calculations chapter. Students work through the digital worksheets to develop their understanding of mole calculations, calculating masses from equations, concentrations of solutions, yields and atom economy.
Ideal for independent & distance learning / home-school / covering missed content after absence / non-specialist cover lesson
Aimed at a mixed ability class covering content 1-8
Each digital worksheet includes:
Teacher guidance and answers
Engage- Links and ‘Big Question’ to engage students at start of lesson or self-assessed vocabulary task (fact of the day).
Explore- Links to articles, video clips, virtual labs, and simulations for students to explore.
Explain- Embedded Google Slides™ presentation (includes lesson objectives, information slides, self-assessed questions).
Apply- Resources and task in which students apply their knowledge gained during the lesson.
Extend- Resources and task for students to extend their learning.
Important: Students must have access to PC with internet to use this document
These resources work best as Google Docs. with Google Classroom.
If you require more assistance, please contact me at-
cmgeducationresources@gmail.com
During this distance learning lesson (C5.5 Salts from insoluble bases) GCSE students work through the digital worksheet activities to develop their understanding of the reaction between an acid and a base. Based on the 5th lesson from the AQA 9-1 GCSE (OUP) C5: Chemical changes chapter.
Ideal for independent & distance learning / home-school / covering missed content after absence / non-specialist cover lesson
Aimed at a mixed ability class covering content 1-8
This resource includes:
Teacher guidance and answers
Engage- Self-assessed vocabulary task (Fact of the day).
Explore- Links to articles, video clips, virtual labs, and simulations for students to explore.
Explain- Embedded Google Slides™ presentation (includes lesson objectives, information slides, self-assessed questions).
Apply- Resources and task in which students apply their knowledge gained during the lesson.
Extend- Resources and task for students to extend their learning.
Important: Students must have access to PC with internet to use this worksheet
This resource works best as a Google Doc™. with Google Classroom™. some features will be unavailable in other formats (Word/Excel).
If you require more assistance, please contact me at-
cmgeducationresources@gmail.com
During this lesson (C5.5 Salts from insoluble bases) GCSE students work through a variety of tasks to develop their understanding of the reaction between an acid and a base. Based on the 5th from the AQA 9-1 GCSE Chemistry (OUP scheme) C5: Chemical changes chapter.
Also available as a digital worksheet, which is ideal for distance learning, independent study or catch-up of missed work through absence.
Presentation contains (17 slides)-
Bell work activity
Lesson objective and success criteria
Information slides
Challenge activities (group work)
Practical activity (where appropriate)
Demonstrate understanding tasks (with answers)
Lesson resources (additional to scheme)
Aimed at a mixed ability class covering content 1-8.
Please note: Kerboodle worksheets from scheme are not included due to license.
If you require more assistance, please contact me at-
cmgeducationresources@gmail.com
Global warming is a comprehensive lesson designed to Year 8 students develop their understanding of the causes and effects of global warming through engaging activities and differentiated instruction.
This lesson is the 1st in a series of lessons and covers the content from the AQA KS3 3.7.3 Climate and Earth resources topics and the Activate 2 (OUP) 7b: Earth, 7.3.1 Global warming lesson.
The lesson includes all necessary resources, making it easy to implement in your classroom and the lesson’s text is adaptable, allowing you to adjust the duration and depth of the activities based on your students’ progress and time constraints.
Presentation contains (30 slides):
● Lesson Prep and Technician Notes: Guidance notes for teachers to prepare the lesson and technician instructions.
● Bell Work / Do Now Activity: Engaging task to activate student prior knowledge and set the stage for the lesson.
● Clear Lesson Aim, Objectives & Success Criteria: Explicitly defined learning targets to guide students and measure their understanding.
● Discussion Slides: Thought-provoking prompts and questions to introduce the topic.
● Information Slides with Levelled Content: Varied levels of information catering to diverse learning styles and abilities.
● Differentiated Activities (Group Work): Collaborative tasks in small groups to encourage active participation and enhance learning.
● Differentiated Questions with Answers: Comprehensive questions with accompanying solutions for self-assessment and note-taking.
● Student Worksheets/Handouts: Printable materials for students to complete and gather notes.
Aimed at a mixed ability Year 8 class, with three levels of demand to accommodate different learning styles and levels:
● K- Know (low demand)
● A- Apply (standard demand)
● E- Extend (high demand)
This lesson is also available as a digital worksheet, which is ideal for absent students to catch-up missed work, distance learning, home schooling, or independent study.
Global warming Distance learning (KS3)
If you require more assistance, please contact me at-
info@cmgsciencelessons.com
The carbon cycle is a comprehensive lesson designed to Year 8 students develop their understanding of how carbon is recycled in the environment through engaging activities and differentiated instruction.
This lesson is the 2nd in a series of lessons and covers the content from the AQA KS3 3.7.3 Climate and Earth resources topics and the Activate 2 (OUP) 7b: Earth, 7.3.2 The carbon cycle lesson.
The lesson includes all necessary resources, making it easy to implement in your classroom and the lesson’s text is adaptable, allowing you to adjust the duration and depth of the activities based on your students’ progress and time constraints.
Presentation contains (27 slides):
● Lesson Prep and Technician Notes: Guidance notes for teachers to prepare the lesson and technician instructions.
● Bell Work / Do Now Activity: Engaging task to activate student prior knowledge and set the stage for the lesson.
● Clear Lesson Aim, Objectives & Success Criteria: Explicitly defined learning targets to guide students and measure their understanding.
● Discussion Slides: Thought-provoking prompts and questions to introduce the topic.
● Information Slides with Levelled Content: Varied levels of information catering to diverse learning styles and abilities.
● Differentiated Activities (Group Work): Collaborative tasks in small groups to encourage active participation and enhance learning.
● Differentiated Questions with Answers: Comprehensive questions with accompanying solutions for self-assessment and note-taking.
● Student Worksheets/Handouts: Printable materials for students to complete and gather notes.
Aimed at a mixed ability Year 8 class, with three levels of demand to accommodate different learning styles and levels:
● K- Know (low demand)
● A- Apply (standard demand)
● E- Extend (high demand)
This lesson is also available as a digital worksheet, which is ideal for absent students to catch-up missed work, distance learning, home schooling, or independent study.
The carbon cycle Distance learning KS3
If you require more assistance, please contact me at-
info@cmgsciencelessons.com
Climate change is a comprehensive lesson designed to Year 8 students develop their understanding of the causes and consequences of climate change through engaging activities and differentiated instruction.
This lesson is the 3rd in a series of lessons and covers the content from the AQA KS3 3.7.3 Climate and Earth resources topics and the Activate 2 (OUP) 7b: Earth, 7.3.3 Climate change lesson.
The lesson includes all necessary resources, making it easy to implement in your classroom and the lesson’s text is adaptable, allowing you to adjust the duration and depth of the activities based on your students’ progress and time constraints.
Presentation contains (35 slides):
● Lesson Prep and Technician Notes: Guidance notes for teachers to prepare the lesson and technician instructions.
● Bell Work / Do Now Activity: Engaging task to activate student prior knowledge and set the stage for the lesson.
● Clear Lesson Aim, Objectives & Success Criteria: Explicitly defined learning targets to guide students and measure their understanding.
● Discussion Slides: Thought-provoking prompts and questions to introduce the topic.
● Information Slides with Levelled Content: Varied levels of information catering to diverse learning styles and abilities.
● Differentiated Activities (Group Work): Collaborative tasks in small groups to encourage active participation and enhance learning.
● Differentiated Questions with Answers: Comprehensive questions with accompanying solutions for self-assessment and note-taking.
● Student Worksheets/Handouts: Printable materials for students to complete and gather notes.
● Homework Activities: Varied homework tasks to cater to individual needs and promote independent learning.
Aimed at a mixed ability Year 8 class, with three levels of demand to accommodate different learning styles and levels:
● K- Know (low demand)
● A- Apply (standard demand)
● E- Extend (high demand)
This lesson is also available as a digital worksheet, which is ideal for absent students to catch-up missed work, distance learning, home schooling, or independent study.
Climate change Distance learning
If you require more assistance, please contact me at-
info@cmgsciencelessons.com
This comprehensive lesson bundle provides the more changes of state lesson in both classroom and distance learning formats: PowerPoint for classroom instruction and digital worksheets for distance learning. More changes of state is an engaging and differentiated lesson designed to help Year 7 students develop their understanding of changes of state in terms of changes to the energy of particles.
This lesson is the 5th in a series of lessons and covers the content from the AQA KS3 3.5.1 The particle model topic and the Activate 1 (OUP) 5a: The particle model, 5.1.5 More changes of state lesson.
The bundle includes all necessary resources, making it easy to implement and is fully editable, allowing you to adjust the duration and depth of the activities based on your students’ progress and time constraints.
Aimed at a mixed ability Year 7 class.
Bundle contents:
1. Classroom-based presentation and resources:
● Lesson Prep and Technician Notes
● Bell Work / Do Now Activity
● Clear Lesson Aim, Objectives & Success Criteria
● Discussion Slides
● Information Slides with Levelled Content
● Differentiated Activities (Group Work)
● Practical Activity
● Differentiated Questions with Answers
● Homework Activities
2. Digital worksheet:
● Teacher guidance and answers
● Engage
● Explore
● Explain
● Apply
● Extend
● Please note: To fully utilise this resource, students need a computer with internet access. This resource is recommended for use in Google Doc™ format. While it can be converted to Word/Excel, some tasks may not function properly in these formats.
If you require more assistance, please contact me at-
info@cmgsciencelessons.com
More changes of state is a comprehensive lesson designed to help Year 7 students develop their understanding of changes of state in terms of changes to the energy of particles through engaging activities and differentiated instruction.
This lesson is the 5th in a series of lessons and covers the content from the AQA KS3 3.5.1 The particle model topic and the Activate 1 (OUP) 5a: The particle model, 5.1.5 More changes of state lesson.
The lesson includes all necessary resources, making it easy to implement in your classroom and the lesson’s text is adaptable, allowing you to adjust the duration and depth of the activities based on your students’ progress and time constraints.
Presentation contains (26 slides):
● Lesson Prep and Technician Notes: Guidance notes for teachers to prepare the lesson and technician instructions.
● Bell Work / Do Now Activity: Engaging task to activate student prior knowledge and set the stage for the lesson.
● Clear Lesson Aim, Objectives & Success Criteria: Explicitly defined learning targets to guide students and measure their understanding.
● Discussion Slides: Thought-provoking prompts and questions to introduce the topic.
● Information Slides with Levelled Content: Varied levels of information catering to diverse learning styles and abilities.
● Differentiated Activities (Group Work): Collaborative tasks in small groups to encourage active participation and enhance learning.
● Practical Activity: Hands-on experience to apply concepts and gain practical skills.
● Differentiated Questions with Answers: Comprehensive questions with accompanying solutions for self-assessment and note-taking.
● Homework Activities: Varied homework tasks to cater to individual needs and promote independent learning.
Aimed at a mixed ability Year 7 class, with three levels of demand to accommodate different learning styles and levels:
● K- Know (low demand)
● A- Apply (standard demand)
● E- Extend (high demand)
This lesson is also available as a digital worksheet, which is ideal for absent students to catch-up missed work, distance learning, home schooling, or independent study.
More changes of state Distance learning
If you require more assistance, please contact me at-
info@cmgsciencelessons.com
Diffusion is a comprehensive lesson designed to help Year 7 students develop their understanding of how the particle model can explain diffusion through engaging activities and differentiated instruction.
This lesson is the 6th in a series of lessons and covers the content from the AQA KS3 3.5.1 The particle model topic and the Activate 1 (OUP) 5a: The particle model, 5.1.6 Diffusion lesson.
The lesson includes all necessary resources, making it easy to implement in your classroom and the lesson’s text is adaptable, allowing you to adjust the duration and depth of the activities based on your students’ progress and time constraints.
Presentation contains (31 slides):
● Lesson Prep and Technician Notes: Guidance notes for teachers to prepare the lesson and technician instructions.
● Bell Work / Do Now Activity: Engaging task to activate student prior knowledge and set the stage for the lesson.
● Clear Lesson Aim, Objectives & Success Criteria: Explicitly defined learning targets to guide students and measure their understanding.
● Discussion Slides: Thought-provoking prompts and questions to introduce the topic.
● Information Slides with Levelled Content: Varied levels of information catering to diverse learning styles and abilities.
● Differentiated Activities (Group Work): Collaborative tasks in small groups to encourage active participation and enhance learning.
● Practical Activity: Hands-on experience to apply concepts and gain practical skills.
● Differentiated Questions with Answers: Comprehensive questions with accompanying solutions for self-assessment and note-taking.
Aimed at a mixed ability Year 7 class, with three levels of demand to accommodate different learning styles and levels:
● K- Know (low demand)
● A- Apply (standard demand)
● E- Extend (high demand)
This lesson is also available as a digital worksheet, which is ideal for absent students to catch-up missed work, distance learning, home schooling, or independent study.
Diffusion Distance learning
If you require more assistance, please contact me at-
info@cmgsciencelessons.com
Melting and freezing is a comprehensive lesson designed to help Year 7 students develop their understanding of melting and freezing using the particle model and ideas about energy transfer through engaging activities and differentiated instruction.
This lesson is the 3rd in a series of lessons and covers the content from the AQA KS3 3.5.1 The particle model topic and the Activate 1 (OUP) 5a: The particle model, 5.1.3 Melting and freezing lesson.
The lesson includes all necessary resources, making it easy to implement in your classroom and the lesson’s text is adaptable, allowing you to adjust the duration and depth of the activities based on your students’ progress and time constraints.
Presentation contains (35 slides):
● Lesson Prep and Technician Notes: Guidance notes for teachers to prepare the lesson and technician instructions.
● Bell Work / Do Now Activity: Engaging task to activate student prior knowledge and set the stage for the lesson.
● Clear Lesson Aim, Objectives & Success Criteria: Explicitly defined learning targets to guide students and measure their understanding.
● Discussion Slides: Thought-provoking prompts and questions to introduce the topic.
● Information Slides with Levelled Content: Varied levels of information catering to diverse learning styles and abilities.
● Differentiated Activities (Group Work): Collaborative tasks in small groups to encourage active participation and enhance learning.
● Practical Activity: Hands-on experience to apply concepts and gain practical skills.
● Differentiated Questions with Answers: Comprehensive questions with accompanying solutions for self-assessment and note-taking.
● Homework Activities: Varied homework tasks to cater to individual needs and promote independent learning.
Aimed at a mixed ability Year 7 class, with three levels of demand to accommodate different learning styles and levels:
● K- Know (low demand)
● A- Apply (standard demand)
● E- Extend (high demand)
This lesson is also available as a digital worksheet, which is ideal for absent students to catch-up missed work, distance learning, home schooling, or independent study.
Melting and freezing Distance learning
If you require more assistance, please contact me at-
info@cmgsciencelessons.com
Boiling is a comprehensive lesson designed to help Year 7 students develop their understanding of boiling and condensing in terms of particles transferring energy through engaging activities and differentiated instruction.
This lesson is the 4th in a series of lessons and covers the content from the AQA KS3 3.5.1 The particle model topic and the Activate 1 (OUP) 5a: The particle model, 5.1.4 Boiling lesson.
The lesson includes all necessary resources, making it easy to implement in your classroom and the lesson’s text is adaptable, allowing you to adjust the duration and depth of the activities based on your students’ progress and time constraints.
Presentation contains (39 slides):
● Lesson Prep and Technician Notes: Guidance notes for teachers to prepare the lesson and technician instructions.
● Bell Work / Do Now Activity: Engaging task to activate student prior knowledge and set the stage for the lesson.
● Clear Lesson Aim, Objectives & Success Criteria: Explicitly defined learning targets to guide students and measure their understanding.
● Discussion Slides: Thought-provoking prompts and questions to introduce the topic.
● Information Slides with Levelled Content: Varied levels of information catering to diverse learning styles and abilities.
● Differentiated Activities (Group Work): Collaborative tasks in small groups to encourage active participation and enhance learning.
● Differentiated Questions with Answers: Comprehensive questions with accompanying solutions for self-assessment and note-taking.
● Student Worksheets/Handouts: Printable materials for students to complete and gather notes.
Aimed at a mixed ability Year 7 class, with three levels of demand to accommodate different learning styles and levels:
● K- Know (low demand)
● A- Apply (standard demand)
● E- Extend (high demand)
This lesson is also available as a digital worksheet, which is ideal for absent students to catch-up missed work, distance learning, home schooling, or independent study.
Boiling Distance learning
If you require more assistance, please contact me at-
info@cmgsciencelessons.com
The particle model is a comprehensive lesson designed to Year 7 students develop their understanding of what the particle model of matter is through engaging activities and differentiated instruction.
This lesson is the 1st in a series of lessons and covers the content from the AQA KS3 3.5.1 The particle model topic and the Activate 1 (OUP) 5a: The particle model, 5.1.1 The particle model lesson.
The lesson includes all necessary resources, making it easy to implement in your classroom and the lesson’s text is adaptable, allowing you to adjust the duration and depth of the activities based on your students’ progress and time constraints.
Presentation contains (32 slides):
● Lesson Prep and Technician Notes: Guidance notes for teachers to prepare the lesson and technician instructions.
● Bell Work / Do Now Activity: Engaging task to activate student prior knowledge and set the stage for the lesson.
● Clear Lesson Aim, Objectives & Success Criteria: Explicitly defined learning targets to guide students and measure their understanding.
● Discussion Slides: Thought-provoking prompts and questions to introduce the topic.
● Information Slides with Levelled Content: Varied levels of information catering to diverse learning styles and abilities.
● Differentiated Activities (Group Work): Collaborative tasks in small groups to encourage active participation and enhance learning.
● Practical Activity: Hands-on experience to apply concepts and gain practical skills.
● Differentiated Questions with Answers: Comprehensive questions with accompanying solutions for self-assessment and note-taking.
Aimed at a mixed ability Year 7 class, with three levels of demand to accommodate different learning styles and levels:
● K- Know (low demand)
● A- Apply (standard demand)
● E- Extend (high demand)
This lesson is also available as a digital worksheet, which is ideal for absent students to catch-up missed work, distance learning, home schooling, or independent study.
The particle model Distance learning
If you require more assistance, please contact me at-
info@cmgsciencelessons.com
During this engaging distance learning lesson on The particle model Year 7 students work through the digital worksheet activities to develop their understanding of what the particle model of matter is. This adaptable resource is perfect for distance learning, independent study, home-schooling, addressing missed content, and non-specialist cover lessons.
This lesson is the 1st in a series of lessons and covers the content from the AQA KS3 3.5.1 The particle model topic and the Activate 1 (OUP) 5a: The particle model, 5.1.1 The particle model lesson.
This digital worksheet is ideal for distance learning, independent study, home-school, covering missed content after absence, or for use in a non-specialist cover lesson.
Aimed at a mixed ability Year 7 class.
This editable resource includes (5 pages):
● Teacher guidance and answers: Clear instructions and solutions for teachers.
● Engage: Self-assessed vocabulary task, using Google Sheets, to reinforce key vocabulary.
● Explore: Links to articles, video clips, virtual labs, and simulations allow students to explore the topic in-depth.
● Explain: An embedded Google Slides™ presentation that clearly outlines lesson objectives, provides detailed information slides, and includes self-assessed questions for students to check their comprehension.
● Apply: Engaging activities and tasks encourage students to apply their knowledge gained during the lesson.
● Extend: Resources and activities that challenge students to further explore the topic and extend their learning.
Important:
● Internet Access: Students require a PC with internet access to use this resource.
● Google Doc™ Format: This resource is best used in Google Doc™ format. While it can be converted to Word/Excel, some tasks may not function properly in these formats.
If you require more assistance, please contact me at-
info@cmgsciencelessons.com
This fully resourced lesson on inside particles is designed to help Year 7 students develop their understanding that matter is made of tiny particles called atoms through engaging activities, clear explanations, and differentiated materials.
This lesson is the 8th in a series of lessons and covers the content from the AQA KS3 3.5.1 The particle model topic and the Activate 1 (OUP) 5a: The particle model, 5.1.8 Inside particles lesson.
The lesson includes all necessary resources, making it easy to implement in your classroom and the lesson’s text is adaptable, allowing you to adjust the duration and depth of the activities based on your students’ progress and time constraints.
Presentation contains (26 slides):
● Lesson Prep and Technician Notes: Guidance notes for teachers to prepare the lesson and technician instructions.
● Bell Work / Do Now Activity: Engaging task to activate student prior knowledge and set the stage for the lesson.
● Clear Lesson Aim, Objectives & Success Criteria: Explicitly defined learning targets to guide students and measure their understanding.
● Discussion Slides: Thought-provoking prompts and questions to introduce the topic.
● Information Slides with Levelled Content: Varied levels of information catering to diverse learning styles and abilities.
● Differentiated Activities (Group Work): Collaborative tasks in small groups to encourage active participation and enhance learning.
● Practical Activity: Hands-on experience to apply concepts and gain practical skills.
● Differentiated Questions with Answers: Comprehensive questions with accompanying solutions for self-assessment and note-taking.
Aimed at a mixed ability Year 7 class, with three levels of demand to accommodate different learning styles and levels:
● K- Know (low demand)
● A- Apply (standard demand)
● E- Extend (high demand)
This lesson is also available as a digital worksheet, which is ideal for absent students to catch-up missed work, distance learning, home schooling, or independent study.
Inside particles Distance learning
If you require more assistance, please contact me at-
info@cmgsciencelessons.com
This fully resourced lesson on gas pressure is designed help to Year 7 students develop their understanding of how the particle model can be used to explain the pressure of gases through engaging activities, clear explanations, and differentiated materials.
This lesson is the 7th in a series of lessons and covers the content from the AQA KS3 3.5.1 The particle model topic and the Activate 1 (OUP) 5a: The particle model, 5.1.7 Gas pressure lesson.
The lesson includes all necessary resources, making it easy to implement in your classroom and the lesson’s text is adaptable, allowing you to adjust the duration and depth of the activities based on your students’ progress and time constraints.
Presentation contains (25 slides):
● Lesson Prep and Technician Notes: Guidance notes for teachers to prepare the lesson and technician instructions.
● Bell Work / Do Now Activity: Engaging task to activate student prior knowledge and set the stage for the lesson.
● Clear Lesson Aim, Objectives & Success Criteria: Explicitly defined learning targets to guide students and measure their understanding.
● Discussion Slides: Thought-provoking prompts and questions to introduce the topic.
● Information Slides with Levelled Content: Varied levels of information catering to diverse learning styles and abilities.
● Differentiated Activities (Group Work): Collaborative tasks in small groups to encourage active participation and enhance learning.
● Differentiated Questions with Answers: Comprehensive questions with accompanying solutions for self-assessment and note-taking.
Aimed at a mixed ability Year 7 class, with three levels of demand to accommodate different learning styles and levels:
● K- Know (low demand)
● A- Apply (standard demand)
● E- Extend (high demand)
This lesson is also available as a digital worksheet, which is ideal for absent students to catch-up missed work, distance learning, home schooling, or independent study.
Gas pressure Distance learning
If you require more assistance, please contact me at-
info@cmgsciencelessons.com
This lesson bundle covers the content for the Year 7 AQA KS3 Activate 6.2.1 More about elements lesson, in two formats- classroom based lesson presentation and digital worksheet Ideal for distance learning or covering missed content after absence. Students work through a variety of tasks to develop their understanding of the physical properties of metals and non-metals.
Aimed at a mixed ability Year 7 class.
1.Classroom based presentation-
Bell work activity
Lesson objective and success criteria
Information slides
Challenge activities (group work)
Practical activity (where appropriate)
Demonstrate understanding tasks (with answers)
Please note worksheets from scheme are not included due to license.
2.Digital worksheet-
Engage- Self-assessed vocabulary task using Google Sheets (joke of the day).
Explore- Links to articles, video clips, virtual labs, and simulations for students to explore.
Explain- Embedded Google Slides™ presentation (includes lesson objectives, information slides, self-assessed questions).
Apply- Resources and task in which students apply their knowledge gained during the lesson.
Extend- Resources and task for students to extend their learning.
Please note: This resource works best as a Google Doc ™
If you require more assistance, please contact me at-
cmgeducationresources@gmail.com
12 distance learning lessons covering the Year 7 AQA KS3 Activate 1 6a: Reactions chapter. Students work through the digital worksheets to develop their understanding of acids, alkalis, and the reactions of metals.
Ideal for distance learning / independent study / home-school / covering missed content after absence / non-specialist cover lesson
Aimed at a mixed ability Year 7 class
Each digital worksheet includes:
Teacher guidance and answers
Engage- Links and ‘Big Question’ to engage students at start of lesson or self-assessed vocabulary task (joke of the day).
Explore- Links to articles, video clips, virtual labs, and simulations for students to explore.
Explain- Embedded Google Slides™ presentation (includes lesson objectives, information slides, self-assessed questions).
Apply- Resources and task in which students apply their knowledge gained during the lesson.
Extend- Resources and task for students to extend their learning.
Important: Students must have access to PC with internet to use this worksheet
These resources work best as Google Docs™ with Google Classroom™.
If you require more assistance, please contact me at-
cmgeducationresources@gmail.com