This lesson focuses on AQA GCSE Chemistry - specification of electrolysis and half equations for higher tier students. The lesson includes a simplistic visual scaffold to support this complex topic for students to use to access exam questions. There is regular assessment for learning using AQA GCSE exam questions to check for understanding and a range of activities to engage a range of students.

This lessons focus is on limiting reactants for AQA GCSE Quantitative Chemistry. These lessons are all visual lessons which support all learners to access the curriculum, pushing students as well as scaffolding where appropriate. This lesson is supportive of students who struggle with mathematical application and walks through content step-by-step. The lesson also includes how to calculate the relative formual mass of isotopes. The lesson follows AQA GCSE Chemistry specification (C1 - Quantitative Chemistry) with GCSE Exam questions as assessment for learning throughout, as well as a number of other fun and engaging activities to support learner agency and exam paper accessibility. These lessons are an effective and balanced mixture of teacher-led explanation, student AFL, student exam questions and pair discussions.

This lessons focus is on concentration of solutions for AQA GCSE Quantitative Chemistry. This lesson uses a helpful mathematical structure strip to aid student understanding and has proved highly effective for students with dyscalculia to scaffold understanding. These lessons are all visual lessons which support all learners to access the curriculum, pushing students as well as scaffolding where appropriate. The lesson follows AQA GCSE Chemistry specification (C1 - Quantitative Chemistry) with GCSE Exam questions as assessment for learning throughout, as well as a number of other fun and engaging activities to support learner agency and exam paper accessibility. These lessons are an effective and balanced mixture of teacher-led explanation, student AFL, student exam questions and pair discussions.

This lessons focus is on balancing equations using moles for AQA GCSE Quantitative Chemistry. The lesson consolidates molar equations and has a handy step-by-step structure strip to support students to balance equations using moles. The resource simplifies this complex process and makes it more accessible to all students, as well as is helpful for staff where quantitative chemistry does not come naturally. These lessons are all visual lessons which support all learners to access the curriculum, pushing students as well as scaffolding where appropriate. The lesson follows AQA GCSE Chemistry specification (C1 - Quantitative Chemistry) with GCSE Exam questions as assessment for learning throughout, as well as a number of other fun and engaging activities to support learner agency and exam paper accessibility. These lessons are an effective and balanced mixture of teacher-led explanation, student AFL, student exam questions and pair discussions.

This lessons focus is on calculating the number of atoms in compounds for AQA GCSE Quantitative Chemistry using moles and Avogadro’s Constant. This lesson is very helpful for students (and staff) who struggle to apply Avogadro’s constant and moles to exam questions as it walks through questions step-by-step in a highly scaffolded and supported way. These lessons are all visual lessons which support all learners to access the curriculum, pushing students as well as scaffolding where appropriate. The lesson follows AQA GCSE Chemistry specification (C1 - Quantitative Chemistry) with GCSE Exam questions as assessment for learning throughout, as well as a number of other fun and engaging activities to support learner agency and exam paper accessibility. These lessons are an effective and balanced mixture of teacher-led explanation, student AFL, student exam questions and pair discussions.

This lessons focus is on the mole for AQA GCSE Quantitative Chemistry - using and re-arranging the equation. There is a significant and receding scaffold for calculations which is especially helpful for students in higher tier who struggle with maths. All questions have answers to support teacher understanding and gain your own confidence with teaching molar calculations. These lessons are all visual lessons which support all learners to access the curriculum, pushing students as well as scaffolding where appropriate. The lesson follows AQA GCSE Chemistry specification (C1 - Quantitative Chemistry) with GCSE Exam questions as assessment for learning throughout, as well as a number of other fun and engaging activities to support learner agency and exam paper accessibility. These lessons are an effective and balanced mixture of teacher-led explanation, student AFL, student exam questions and pair discussions.

This lessons focus is on explaining mass changes for AQA GCSE Quantitative Chemistry - enclosed and non-enclosed system. These lessons are all visual lessons which support all learners to access the curriculum, pushing students as well as scaffolding where appropriate. The lesson follows AQA GCSE Chemistry specification (C1 - Quantitative Chemistry) with GCSE Exam questions as assessment for learning throughout, as well as a number of other fun and engaging activities to support learner agency and exam paper accessibility. This lesson also has content on multipliers. The lesson has been used to teach MPA/HPA students but is scaffolded sufficiently to be highly accessible for LPA students. These lessons are an effective and balanced mixture of teacher-led explanation, student AFL, student exam questions and pair discussions.

This lessons focus is on relative formula mass and percentage by mass for AQA GCSE Quantitative Chemistry. These lessons are all visual lessons which support all learners to access the curriculum, pushing students as well as scaffolding where appropriate. The lesson follows AQA GCSE Chemistry specification (C1 - Quantitative Chemistry) with GCSE Exam questions as assessment for learning throughout, as well as a number of other fun and engaging activities to support learner agency and exam paper accessibility. This lesson also has content on multipliers. The lesson has been used to teach MPA/HPA students but is scaffolded sufficiently to be highly accessible for LPA students. These lessons are an effective and balanced mixture of teacher-led explanation, student AFL, student exam questions and pair discussions.

This lessons focus is on conservation of mass for AQA GCSE Quantitative Chemistry. These lessons are all visual lessons which support all learners to access the curriculum, pushing students as well as scaffolding where appropriate. The lesson follows AQA GCSE Chemistry specification (C1 - Quantitative Chemistry) with GCSE Exam questions as assessment for learning throughout, as well as a number of other fun and engaging activities to support learner agency and exam paper accessibility. This lesson also has content on multipliers. The lesson includes a dual-coded integrated instruction method worksheet to support student agency in the laboratory. Practical inquiry must first undergo risk assessments in your department and be performed only with trained professionals, I accept no responsibility for what is done following the download of this resource - this resource is an example only and teacher’s must ensure their own safety measures are followed. I take no responsibility for practical elements of this lesson – teachers must complete their own risk assessments and are entirely responsible for the safety of students. These lessons are an effective and balanced mixture of teacher-led explanation, student AFL, student exam questions and pair discussions.

This lessons focus is on the identification of common gases for AQA GCSE Chemistry. The lesson includes content on the identification of oxygen, carbon dioxide, chlorine, and hydrogen, worksheets and several activities for students to complete throughout the lesson, alongside a practical inquiry. These lessons are all visual lessons which support all learners to access the curriculum, pushing students as well as scaffolding where appropriate. This lesson is geared towards MPA-HPAs but is effectively scaffolded for LPA students too. The lesson follows AQA GCSE Chemistry specification (Chemical Analysis - 5.8.2.1-5.8.2.4) with GCSE Exam questions as assessment for learning throughout, as well as a number of other fun and engaging activities to support learner agency and exam paper accessibility. These lessons are an effective and balanced mixture of teacher-led explanation, student AFL, student exam questions and pair discussions. The lesson includes practical methodology to support student agency in the laboratory. Practical inquiry must first undergo risk assessments in your department and be performed only with trained professionals, I accept no responsibility for what is done following the download of this resource - this resource is an example only and teacher’s must ensure their own safety measures are followed. I take no responsibility for practical elements of this lesson – teachers must complete their own risk assessments and are entirely responsible for the safety of students.

This lessons focus is on chromatography and calculating Rf values in a highly visual and scaffolded way for AQA GCSE Chemistry. The lesson includes content on the methodology of chromatography, worksheets and several activities for students to complete throughout the lesson. These lessons are all visual lessons which support all learners to access the curriculum, pushing students as well as scaffolding where appropriate. This lesson is effectively scaffolded for LPA/MPA students but is applicable for all students. The lesson follows AQA GCSE Chemistry specification (Chemical analysis, 5.8.1.3 - combined science) with GCSE Exam style questions as assessment for learning throughout, as well as a number of other fun and engaging activities to support learner agency and exam paper accessibility. These lessons are an effective and balanced mixture of teacher-led explanation, student AFL, student exam questions and pair discussions. The lesson includes a dual-coded integrated instruction method worksheet to support student agency in the laboratory. Practical inquiry must first undergo risk assessments in your department and be performed only with trained professionals, I accept no responsibility for what is done following the download of this resource - this resource is an example only and teacher’s must ensure their own safety measures are followed. I take no responsibility for practical elements of this lesson – teachers must complete their own risk assessments and are entirely responsible for the safety of students.

This lessons focus is on the difference between pure and impure substances and formulations for AQA GCSE Chemistry The lesson includes content on the atoms, elements, compounds and mixtures, pure vs. impure, and formulations, worksheets and several activities for students to complete throughout the lesson. These lessons are all visual lessons which support all learners to access the curriculum, pushing students as well as scaffolding where appropriate. This lesson is effectively scaffolded for LPA students but is applicable for all attainment levels. The lesson follows AQA GCSE Chemistry specification (Chemical Analysis - 5.8.1.1 - 5.8.1.2) with GCSE Exam questions as assessment for learning throughout, as well as a number of other fun and engaging activities to support learner agency and exam paper accessibility. These lessons are an effective and balanced mixture of teacher-led explanation, student AFL, student exam questions and pair discussions.

This document includes a minimum of 7 sessions for a STEM CLub enrichment opportunity. The weeks include: Growing food from seed - students are tasked to isolate and plant tomato and chilli seeds. Biodiversity Experts - students use the catch-release-re-catch technique to estimate the population of woodlice in your school ecosystem. **Treasure Hunt - Students de-code riddles to find co-ordinates on a treasure map which correspond to coordinates at your school. Electricity Generation - Students design and manufacture a water wheel to link to electricity generation in past centuries Fishing for food - students dissect fish to undertsand organs and organ systems. Hygiene Hiatus - Students use eggs and coconut to design new toothpaste in the absence of toothpaste on the tropical island. Water Purification - Students are tasked to used evaporation and filtration to purify sandy salt water. These sessions includes a dual-coded integrated instruction method worksheet to support student agency in the laboratory for every session. These resources have been trialled and work effectively at embedding a STEM Curriculum at your school. Practical inquiry must first undergo risk assessments in your department and be performed only with trained professionals, I accept no responsibility for what is done following the download of this resource - this resource is an example only and teacher’s must ensure their own safety measures are followed. **I take no responsibility for practical elements of this lesson – teachers must complete their own risk assessments and are entirely responsible for the safety of students. **

This revision lesson includes: Key terminology match-up do it now Subatomic particle and electronic configuration Ionic bonding Ionic compound properties Covalent Bonding Simple Molecules Giant Covalent Structures Metallic Bonding Fullerenes GCSE Multiple Choice Exam Questions throughout (AFL) The lesson comes with a revision poster (at the end of the slides) to be printed for students to complete throughout the lesson. The revision lesson is highly effective at summarising the C2 - Bonding, structure and properties of matter module for AQA GCSE Chemsitry. All slides are applciable for FT and HT.

This document contains a knowledge organiser forelectronic structure and development of the atomic model for AQA GCSE Chemistry (paper 1). The resource contains key terminology and definitions, visuals to support long term retrieval, and only essential information in line with AQA GCSE Specification. Students praise the simplicity of these posters and their ability to summarise key information in a few simple words and images.

This document contains a knowledge organiser for separation techniques (filtration and crystallisation, distillation, and fractional distillation) for AQA GCSE Chemistry (paper 1). The resource contains key terminology and definitions, visuals to support long term retrieval, and only essential information in line with AQA GCSE Specification. Students praise the simplicity of these posters and their ability to summarise key information in a few simple words and images.

This document contains a knowledge organiser for bonding for AQA GCSE Chemistry (paper 1), including ionic, covalent, and metallic bonding. The resource contains key terminology and definitions, visuals to support long term retrieval, and only essential information in line with AQA GCSE Specification. Students praise the simplicity of these posters and their ability to summarise key information in a few simple words and images.