I aim to create detailed lessons for KS3 and KS4 science lessons, simplifying content for both teachers and pupils. My lessons include a lot of pupil-centred tasks and modelling activities where appropriate to engage pupils in their learning. As an AQA examiner for the new GCSE trilogy and triple science course I include a lot of 'past paper' style questions in my lessons that match the type of questions students will be asked in examinations.
I aim to create detailed lessons for KS3 and KS4 science lessons, simplifying content for both teachers and pupils. My lessons include a lot of pupil-centred tasks and modelling activities where appropriate to engage pupils in their learning. As an AQA examiner for the new GCSE trilogy and triple science course I include a lot of 'past paper' style questions in my lessons that match the type of questions students will be asked in examinations.
A double lesson/ series of lessons looking at the extraction, processing, use and disposal of Earth’s resources. The lesson contains three main objectives:
A recap of the difference between renewable and finite resources
Explaining why reducing the use of Earth’s resources is important
Describe the components of a life cycle assessment and compare the suitability of materials for products using life cycle assessments.
Lesson features include:
A series of basic recall questions from previous learning (water treatment, the purification of water required practical, rusting, methods to prevent corrosion, alloys, alternative methods of copper extraction, thermosetting and thermosoftening polymers)
A cartoon image to introduce current issues with the rate at which earth’s resources are being plundered
Slides introducing the difference between renewable and finite resources with a sorting task for pupils to complete (animated answers on the slide to review progress)
Discussion questions around the impact of extracting resources using quarrying/ mining with a review summary
An envoy/ circus task recapping the extraction and processing of different materials and their disadvantages that has been covered in previous topics - plastics (topic 7), petrol (topic 7), iron (topic 4/10), aluminium (topic 4) and copper (phytomining and bioleaching covered in topic 10)
Review questions on the first learning objective
Two video clips, slide containing relevant news headlines and discussion questions around the importance of ‘reducing, reusing, recycling’ materials (video clips from a recent documentary on landfill looking at the dangers of landfill and alternatives to plastic bags - the latter clip I have produced a slide of questions to go with it)
Slides summarising the importance of recycling metals and plastics, linking metal recycling to the importance of gold for smartphones
Several slides of exam-style review questions for the second objective with animated answers for easy assessment
An introduction to what a life cycle assessment is using the life cycle of a human. A table explaining considerations for each of the stages of a life cycle assessment is included (could be printed off for students to use)
A group/ individual task considering the LCA’s for paper and plastic straws to determine what sort of straws McDonald’s should use (relevant to current news)
Review questions comparing life cycle assessments for materials with animated answers
A series of exam-style questions on a Word document with animated answers on the powerpoint
Lots to choose from here!
A lesson looking at the properties and uses of ceramics, composites and polymers. The lesson also recaps content from topic 2 and topic 7, covering the structure and bonding in polymers and the process of polymerisation (including how to draw repeating units for polymers)
Lesson features include:
A series of basic recall questions from previous learning (water treatment, the purification of water required practical, rusting, methods to prevent corrosion, alloys and alternative methods of copper extraction)
A fun introduction to the concept of a composite using a video
A slide containing small information cards on the properties and composition of four different composites with a table to fill in (this could be used as an envoy activity/ group activity)
Information on glass and clay ceramics
Slides introducing the concept of a polymer and how polymerisation occurs
Worked examples of how to draw repeating units with exam-style practice questions for students to attempt
A paired teaching activity on thermosetting and thermosoftening polymers for students to complete. This is then followed by a independent learning task on the two types of polymer with success criteria provided
An exam-style extension question comparing the structure and properties of thermosetting and thermosoftening polymers with animated mark scheme
Review questions where students apply their understanding of the properties of materials to justify the selection of a material for a scenario
A double lesson/ series of lessons looking at the process of corrosion and methods to prevent corrosion, the structure of alloys and properties of specific alloys and the processes of phytomining and bioleaching
Lesson features include:
A starter consisting of basic recall questions from previous learning (treatment of freshwater, wastewater and the purification of seawater required practical)
Slides introducing the idea of corrosion and factors affecting corrosion in an engaging context (questioning on whether a ship in the desert or a ship in shallow water would rust faster and why)
A series of slides containing descriptions on methods preventing corrosion that could be used as a carousel/ envoy activity (painting, oiling, galvanising, sacrificial protection)
A slide containing descriptions of alloys as detailed by the aqa exam board. This could be printed off and handed out as cards
A host of short review questions for each learning objective (corrosion, alloys and the extraction of copper)
A paired teaching activity on phytomining and bioleaching for students to complete. This comprises of cards with storyboards on detailing the processes
A worksheet containing exam-style questions. Answers are featured on the powerpoint to allow for assessment of pupil progress
A series of 11 simplistic revision mats designed for the Foundation Triple Chemistry specification.
The revision mats contain:
Key definitions with space for students to write in the key term
Basic recall questions/ comprehension tasks followed by short answer questions to test understanding
Summaries of the required practical activities and sample questions based on these RPA’s
There is a revision mat for each topic 1-10 with an additional revision mat for electrolysis (Topic 4 - Chemical changes)
A series of 5 simplistic revision mats designed for the Foundation Triple Chemistry specification.
The revision mats contain:
Key definitions with space for students to write in the matching terms
Basic recall questions/ comprehension tasks followed by short answer questions to test understanding
Summaries of the required practical activities and sample questions based on these RPA’s
There is a revision mat for each topic (Topic 6 - rates of reaction, Topic 7 - organic chemistry, Topic 8 - chemical analysis, Topic 9 - chemistry of the atmosphere and Topic 10 - using resources)
A series of 6 simplistic revision mats designed for the Foundation Triple Chemistry specification.
The revision mats contain:
Key definitions with space for students to write in the key term
Basic recall questions/ comprehension tasks followed by short answer questions to test understanding
Summaries of the required practical activities and sample questions based on these RPA’s
There is a revision mat for each topic (Topic 1 - atomic structure and the periodic table, Topic 2 - structures and bonding, Topic 3 - quantitative chemistry, Topic 4 - chemical changes and Topic 5 - energy changes) with an additional revision mat for electrolysis (Topic 4 - Chemical changes)
Two A3 revision worksheets and a powerpoint designed for Foundation level triple Chemistry students.
The revision worksheet contains recall questions with supporting diagrams and a list of key definitions with space for pupils to fill in the key terms.
An A3 revision worksheet and powerpoint designed for Foundation level triple Chemistry students.
The revision worksheet contains recall questions with supporting diagrams and a list of key definitions with space for pupils to fill in the key terms.
An A3 revision worksheet and powerpoint designed for Foundation level triple Chemistry students.
The revision worksheet contains recall questions with supporting diagrams and a list of key definitions with space for pupils to fill in the key terms.
Lessons to cover organic chemistry for the new AQA specification. The lessons are fully resourced and feature a lot of review questions with answers to assess pupil progress.
A double lesson/ series of lessons looking at the structure of carboxylic acids, reactions of carboxylic acids and the formation of polymers by addition and condensation polymerisation. The lesson also recaps content from topic 2 and topic 10, covering the difference between thermosetting and thermosoftening polymers and the issues surrounding the disposal of polymers. Lesson features include:
- A question grid with basic recall questions from previous learning (fractional distillation, cracking, combustion, alkenes, alkanes and alcohols) complete with answers
- Recap on homologous series
- Slides describing the structure and reactions of carboxylic acids with a printable table for students to complete together with review questions
- Slides describing the formation of a polymer with an activity requiring students to draw the repeating unit from polymer chains and monomers
- A host of short review questions on polymerisation with animated answers on the powerpoint
- A paired teaching activity on thermosetting and thermosoftening polymers for students to complete. This is then followed by a independent learning task on the two types of polymer with success criteria provided
- A worksheet containing past paper questions. Answers are featured on the powerpoint to allow for assessment of pupil progress
A lesson looking at the structure of amino acids, proteins, carbohydrates and DNA. The lesson also contains multiple revision questions and a double-sided revision sheet for the whole of the Organic Chemistry unit of work (AQA spec). The lesson features:
- A homologous series match up task and series of statements requiring students to name the homologous series to which the statement is referring to
- Review questions on the structure of proteins, carbohydrates and DNA
- A DNA modelling task using sweets, with questions to assist pupils in describing and evaluating their models
- A double sided revision sheet (last slides of the powerpoint) for the whole topic
A double lesson/ series of lessons looking at drawing the structure of alkenes and alcohols, describing reactions of alkenes and the process of fermentation to produce ethanol. The lesson includes:
- A 'find someone who' starter grid looking at previous learning (fractional distillation, combustion and cracking)
- Information slides with prompt questions to facilitate students linking the lesson content to prior knowledge/ understanding
- A task to compare the structure of alkanes and alkenes with prompt questions
- Two demonstrations/ practicals with animated questions and answers on the powerpoint
- A true/ false question grid to assess understanding of lesson content
- Review questions to assess achievement of each learning objective
- A past paper questions worksheet with animated answers on the powerpoint
A double lesson/ series of lessons looking at the difference between complete combustion and incomplete combustion and the process of catalytic cracking. The lesson features:
- A starter question grid based on previous learning (fractional distillation and creation of crude oil) with animated answers for student self-assessment
- Slides describing the difference between incomplete and complete combustion followed by questions to be used with a demonstration (testing for the products of complete combustion)
- Practice on balancing complete combustion equations (with correct balanced symbol equation answers given)
- Explanation of the process of cracking with numerous past paper questions built into the powerpoint containing animated answers for assessment of progress
- Past paper questions based on lesson content with animated answers
A double lesson/ series of lessons looking at how crude oil is formed, fractional distillation of crude oil and how to draw/ interpret the formula of alkanes. The lesson features:
- A simple statement ordering task to describe the formation of crude oil
- A learning mat to describe the process of fractional distillation, label the fractionating tower and explain where fractions condense
- A modelling task using string to apply understanding of the process of fractional distillation
- Numerous review questions on fractional distillation and alkanes with animated answers included in the powerpoint
- A past paper question worksheet with animated answers included in the powerpoint
A KS3 lesson looking at the difference between atoms, elements, compounds and mixtures, how to represent elements as symbols and interpreting the numbers of atoms and elements in a chemical compound. The lesson features:
-An engaging starter task using a video to ascertain students prior ideas around what elements are (Daniel Radcliffe singing 'the elements song')
-Key term and definition match
- Quick multiple choice questions to assess student understanding
- A task using sweets to model atoms, elements, compounds and mixtures including an opportunity for students to explain their arrangements
- A worksheet requiring students to recognise atoms, elements, compounds and mixtures
-An activity to help students recognise element symbols on the periodic table
An activity to practice recognising numbers of atoms and elements in chemical formulae
A lesson describing the properties of graphene and uses of nanoparticles. The lesson features:
-Questions linked to commonly asked past paper questions with animated answers to assess student understanding
-Two links to engaging videos describing the uses of graphene and explanation of what a nanoparticle is
-Possible modelling task using different types of chocolate to come up with a definition for the term 'allotrope'
-Extension task comparing graphene to the structure and properties of diamond and graphite
A lesson/ series of lessons covering the steps used in the treatment of water (designed specifically to match AQA spec), including the required practical activity to desalinate water and test for the presence of sodium and chloride ions. The lesson features:
- A learning mat following the powerpoint looking at the treatment of freshwater, seawater and wastewater (has missing key terms though could be adapted to provide more challenge)
- Review past paper questions with animated answers on the powerpoint to assess student understanding of water treatment
- Step-by-step instructions including a table of results to allow students to complete the RPA.
- A sheet with success criteria and extension questions to assess student understanding of the RPA task
- Review questions for the lesson
A series of lessons for the new AQA GCSE Topic 6 - rates of reaction. The bundle features lessons on:
- Measuring the rate of reaction
- Factors affecting the rate of reaction
- RPA 1 - magnesium and hydrochloric acid
- RPA 2 - sodium thiosulfate and hydrochloric acid
- Reversible reactions and equilibrium (not including Le Chatelier's principle)
A lesson describing what a reversible reaction is and explaining the term 'equilibrium'. The lesson is designed for foundation students and does not include 'Le Chatelier's principle'. The lesson features:
- A past paper question starter based on a chemical reaction similar to the RPA tasks in the topic 6 unit. The task contains prompt questions designed to facilitate students answering questions based on unfamiliar scenarios
- A demonstration reaction (ammonium chloride decomposing to produce ammonia and hydrogen chloride) with questions and animated answers on the powerpoint
- A class practical (heating hydrated copper sulfate to produce anhydrous copper sulfate and water) with a results table containing animated answers to ensure that pupils understand observations seen in the practical task
- Past paper questions based on the class practical and animated answers on the powerpoint
- A mini true/ false statement table to allow for assessment of understanding