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Spark Science

Average Rating4.56
(based on 18 reviews)

Spark Science provides high quality science educational resources for secondary school teachers. From dual-coding, literacy and reading tasks, dyslexic friendly backgrounds, and continual Assessment for Learning (AfL) tasks embedded into all our lessons, Spark lessons will increase engagement, participation and understanding for your students.

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Spark Science provides high quality science educational resources for secondary school teachers. From dual-coding, literacy and reading tasks, dyslexic friendly backgrounds, and continual Assessment for Learning (AfL) tasks embedded into all our lessons, Spark lessons will increase engagement, participation and understanding for your students.
Elements and Compounds
emily_k_brown1994emily_k_brown1994

Elements and Compounds

(0)
A comprehensive, engaging, challenging and interactive lesson package designed with non-science/non-chemistry specialist teachers in mind! This lesson contains: Lesson powerpoint - including teacher notes and answers in “notes” section Student led lesson worksheet Teacher answer sheet Lesson resources contain: In-built challenge tasks throughout In-built scaffolded learning for lower abilities Various activites to assess progress and understanding that you can tailor to fit any class or available resources Objectives: Students will be able to… Know what an “element” and a “compound” is Describe the difference between an element and a compound Know what an “atom” and a “molecule” Describe the difference between an atom and a molecule This lesson contains a student led lesson sheet, with the focus being on students learning through doing and practicing skills and identifying patterns and reasons themselves. Resources and slides ask students the key questions and develops ideas and concepts from the ground up and address common issues, mistakes and misconceptions. This lesson contains AFL tasks which require mini-whiteboards and molymods, but can be adapted if these are not available.
GCSE Chemistry - Diamond and Graphite
emily_k_brown1994emily_k_brown1994

GCSE Chemistry - Diamond and Graphite

(0)
A comprehensive, engaging, challenging, and interactive lesson package designed with non-science/non-chemistry specialist teachers in mind. This lesson covers content from GCSE AQA Chemistry and Combined Science Trilogy. It covers the properties, structure and bonding in graphite and diamond, as well as explaining the key properties of diamond and graphite (electrical conductivity, melting point, hardness) to its structure and bonding. This lesson contains: Lesson powerpoint - including teacher notes, delivery instructions and answers in “notes” section Bank of exam style questions on graphite and diamond taken from past AQA papers with mark schemes (PDF and editable versions) Printable images of graphite and diamond for students to annotate (PDF and editable versions) Lesson resources contain: In-built challenge tasks throughout AFL mini-whiteboard tasks throughout In-built scaffolded learning for lower abilities and alternative task for lower ability classes Colour coding throughout to aid EAL, SEN and other learners Various activites to assess progress and understanding that you can tailor to fit any class or available resources Full answers to all questions (mostly automated into slides to make it easier for you to deliver) Objectives: Students will be able to… State some properties of diamond and graphite Compare the properties of diamond and graphite Compare the structure and bonding in diamond and graphite Explain the similarities and differences in the properties of diamond and graphite in terms of structure and bonding
KS3 - Elements, Compounds and Mixtures Bundle
emily_k_brown1994emily_k_brown1994

KS3 - Elements, Compounds and Mixtures Bundle

5 Resources
A comprehensive, complete, engaging and challenging set of lessons and activities to teach students the basics of elements, compounds, mixtures and chemical formulas. This scheme/package is designed with non-science/non-chemistry specialist teachers in mind! Lessons included in this bundle: Elements and Compounds Chemical Formulas Counting atoms in a Formula Pure Substances Mixtures Included in each lesson: Lesson powerpoint - including teacher notes and answers in “notes” section Student-led lesson worksheet Teacher answer sheet Lesson resources contain: In-built stretch and challenge tasks throughout In-built scaffolded learning for lower abilities Various AFL activities to assess progress and understanding that you can tailor to fit any class or available resources (these include “think, pair, share”, molymod activities, mini-whiteboard quizzes) Relevant risk assessments for any practical work (updated as of March 2023) By the end of the topic, students will: Know what an “element” and a “compound” is Describe the difference between an element and a compound Know what an “atom” and a “molecule” are Describe the difference between an atom and a molecule Draw/make particle diagrams and models to represent elements, compounds, single atoms and molecules Understand why scientists use chemical symbols to represent elements Identify simple elements from their chemical symbols Identify elements in a chemical formula Classify chemical formulas as elements or compounds Count the number of atoms in a basic formula Identify elements in a chemical formula Count the number of atoms in formulas containing subscripts Count the number of atoms in formulas containing multipliers Describe what a pure substance is Identify examples of pure substances in everyday life Identify pure substances from particle diagrams and examples Carry out a practical investigation to identify pure substances Describe what a mixture is Give examples of mixtures in everyday life Identify mixtures from particle diagrams and examples Draw/make models representing mixtures
Lesson 2 - How Electrolysis Works
emily_k_brown1994emily_k_brown1994

Lesson 2 - How Electrolysis Works

(0)
This lesson is designed for AQA combined and triple chemistry. This lesson builds on the previous lesson (Introduction to Electrolysis) where students looked at the basic set up for electrolysis and predicted which ion would be attracted to which electrode and why. This lesson introduces the keywords anode, cathode, anion, cation, as well describing if ions gain or lose electrons at an electrode and are oxidised/reduced. **Lesson Objectives: ** Identify anions and cations Explain the movement of metal and non-metal ions to the anode and cathode Describe and explain what happens to ions at the anode and cathode Identify if an element is being oxidised or reduced at the electrode This Lesson Contains: Complete lesson powerpoint with teaching guidance in notes section, complete answers for all tasks, mini-whiteboard AFL assessment quizzes, animations to describe the movement of ions and the gain or loss of electrons in electrolysis A printable cheat sheet for students explaining definitions and which ion is attracted to which electrode (editable and PDF)
KS3 - Phases of the Moon
emily_k_brown1994emily_k_brown1994

KS3 - Phases of the Moon

(0)
This lesson is the fifth lesson in the “Space” topic and covers why the moon appears to change shape in our sky and the names of the phases of the moon. The lesson contains a mini-student practical, AFL mini-whiteboard tasks to assess understanding, challenge tasks for higher ability students, and a link to an online modelling software that really helps students understand the changing phases of the moon. This lesson is designed to be easy to teach, student led and is ideal for non-specialist teachers. This Lesson Contains: Lesson powerpoint, including activity delivery instructions and tips for teachers, full answers, simulation link, mini-class practical (and optional alternatives), plenary task, AFL whiteboard tasks and discussion activities Student phases of the moon worksheet (PDF) and answer sheet (PDF) Lesson Objectives: Name/Sketch/Describe the phases of the Moon Explain why you see phases of the Moon
KS3 - Eclipses
emily_k_brown1994emily_k_brown1994

KS3 - Eclipses

(0)
This lesson is the sixth and final lesson in the “Space” topic and covers what solar and lunar total/partial eclipses are and why they happen. The lesson contains an optional class practical/demonstration of eclipses, AFL mini-whiteboard tasks to assess understanding, video task, and stretch and challenge tasks for higher ability students throughout. This lesson is designed to be easy to teach, student led, and is ideal for non-specialist teachers. This Lesson Contains: Lesson powerpoint, including activity delivery instructions and tips for teachers, full answers, mini-class practical instructions, plenary task, AFL whiteboard tasks, and relevant video link Student eclipses worksheet (PDF) and answer sheet (PDF) Lesson Objectives: State what a solar and lunar eclipse are Explain how solar and lunar eclipses happen
KS3 Physics - Space
emily_k_brown1994emily_k_brown1994

KS3 Physics - Space

6 Resources
This bundle contains all the lessons you need to cover the KS3 English National Curriculum on Space. These lessons are designed to be easy to teach (especially for non-specialists), interactive, student-led, and AfL filled/driven. These lessons contain video links, various online simulations for students to use to aid their understanding and sense of wonder, PDF worksheets, complete PDF answer sheets, answers to all powerpoint questions (either incorperated into the powerpoint slides or in the notes sections), teacher delivery notes/tips in the “notes” sections of the powerpoints, stretch and challenge tasks for higher ability students throughout each lesson, various AfL tasks (e.g. finger voting/mini-whiteboards/true-false quizzes), and plenary tasks for each lesson. This bundle contains the following lessons: The Night Sky The Solar System Formation of the Solar System Why we get Seasons Phases of the Moon Eclipses
Changing Mass During Chemical Reactions
emily_k_brown1994emily_k_brown1994

Changing Mass During Chemical Reactions

(0)
A comprehensive, engaging, challenging and interactive lesson package designed with AEN students and non-science/non-chemistry specialist teachers in mind! This lesson contains: Lesson powerpoint - including teacher notes and answers in “notes” section Student led lesson worksheet Teacher answer sheet Practical and Demonstration Risk Assessments Lesson resources contain: In-built challenge tasks throughout In-built scaffolded learning for lower abilities AFL activities to assess progress and understanding that you can tailor to fit any class or available resources Objectives: Students will be able to… Predict whether a chemical reaction under given conditions will get lighter, heavier or stay the same mass Explain why some chemical reactions might appear to get lighter Explain why some chemical reactions might appear to get heavier This lesson contains a student led lesson sheet, with the focus being on students learning through doing, practicing skills and identifying patterns and reasons themselves. Resources and slides ask students the key questions and develops ideas and concepts from the ground up and address common issues, mistakes and misconceptions.
Calculating Relative Formulas Mass
emily_k_brown1994emily_k_brown1994

Calculating Relative Formulas Mass

(0)
A full lesson covering how students can calculate relative formula mass. This lesson is suitable for students studying AQA Trilogy Combined Science (higher and foundation) and AQA Triple chemistry (higher and foundation) Lesson Objectives Recall how to count the number of atoms in a formula Recall what relative atomic mass is Define what relative formula mass is Calculate the relative formula mass of a chemical using a periodic table Lesson includes Lesson powerpoint - including recap of how to count atoms in a formula an how to find relative atomic mass on a periodic table, worked examples with answers, and BINGO plenary practice game Optional worksheet with answers (PDF and editable word version)
KS3 - Plant Cells
emily_k_brown1994emily_k_brown1994

KS3 - Plant Cells

(0)
This is a Year 7 lesson that covers plant cells, their components, their functions, how they differ to animal cells, and how to observe plant cells under a microscope. This Lesson Contains Lesson powerpoint with complete answers, plenary activity, interactive game for teaching rote learning of parts of the plant cell, challenge task, practical follow up questions Student worksheet and complete and incomplete versions with answers (PDF and editable versions) Practical instructions Practical risk assessment (PDF and editable word versions) Lesson Objectives Identify parts of a plant cell from a diagram Describe the function of each part of a plant cell Compare the similarities and difference between an animal and plant cell Use a microscope to view plant cells (pond weed)
Structure of the Atom
emily_k_brown1994emily_k_brown1994

Structure of the Atom

(0)
A full lesson outlining the basic GCSE structure of the atom, the position and charges of the subatomic particles inside it. A part of the course which is sometimes difficult to teach in a fun and interactive/discovery based way, this lesson will help students to discover information and make connections themselves. Students will hopefully not only learn the charges and masses and positions of subatomic particles, but gain an appreciation of scale and relative mass, as well as understand some of the reasons behind the structure of the atom and the reason we draw it the way we do. This lesson includes: Powerpoint - including key notes, delivery tips, modelling ideas, interactive class activities and key hinge/get-them-thinking questions, tips on dealing with common misconceptions Multiple choice interactive plenary activity Full answers Lesson Objectives Describe what a subatomic particle is Describe the structure of an atom in terms of subatomic particles Give the positions, relative mass and charge of the three subatomic particles
Counting Subatomic Particles
emily_k_brown1994emily_k_brown1994

Counting Subatomic Particles

(0)
A full lesson resource teaching students how to use the periodic table (mass number and atomic number) to count the numbers of subatomic particles in an atom. This lesson also covers the definition of “isotopes”. This lesson also dual codes this information with atomic diagrams and periodic table squares to cement student understanding of where these numbers come from, while also being a great support for EAL and SEN students. Great for “I do, we do, you do” activities and can be easily added to and extended if more examples and practice are needed by a given class. Lesson contains: Lesson powerpoint, including whole class whiteboard AFL activities, core hinge/thinking questions, full answers and notes to aid in lesson delievery and structure Student worksheet Exam style questions with mark scheme Lesson Objectives: Know what the numbers on the periodic table mean Use the periodic table to count the numbers of protons, neutrons and electrons in an atom Predict atomic number and mass number from the numbers of subatomic particles Define the term “isotope” and identify examples of them
KS3 - Gas Exchange
emily_k_brown1994emily_k_brown1994

KS3 - Gas Exchange

(0)
This lesson is a KS3 biology lesson covering the structure of the lungs, the basic process of gas exchange in the lungs, and the differences in composition between inhaled and exhaled air. This lesson contains: Risk assessment for lung dissection demonstration Risk assessment for student practical Student worksheet (PDF and Word) Student worksheet answers (PDF and Word) Lesson powerpoint - including gas exchange animation! Lesson Objectives: Name the key parts of the lungs Define the process of gas exchange Describe how parts of the gas exchange system are adapted to their function Compare inhaled and exhaled air WS: Read data from pie charts and draw conclusions
KS3 - Calculating Weight
emily_k_brown1994emily_k_brown1994

KS3 - Calculating Weight

(0)
A comprehensive, engaging, challenging and interactive lesson package designed with non-science/non-physics specialist teachers in mind! This lesson teaches students the difference between weight and mass, and how to calculate weight using the “LESS” method. This resource contains: Lesson powerpoint - including, full answers, mini-whiteboard AFL, practice activities, full “I do, we do, you do” guided slides for calculations Student practice worksheet (PDF and editable version) Teacher answer sheet (PDF and editable version) Lesson resources contain: In-built challenge tasks throughout In-built scaffolded learning for lower abilities Various activites to assess progress and understanding that you can tailor to fit any class or available resources Objectives: Students will be able to… Describe the difference between weight and mass Calculate the weight of an object Explain why weight is different on different planets Students will work scientifically to: Convert units Calculate values using a calculator Resources and slides ask students the key questions and develops ideas and concepts from the ground up and address common issues, mistakes and misconceptions. This lesson contains AFL tasks which require mini-whiteboards, but can be adapted if these are not available.
KS3 - The Solar System
emily_k_brown1994emily_k_brown1994

KS3 - The Solar System

(0)
This lesson is the second lesson in the “Space” topic and covers the structure of our solar system and the composition of the planets within it. The lesson contains various links to online videos, modelling software and simulations that really help students understand the vastness of space and allow them to explore the universe in which we live. It also addresses the misconception around the distances between selestial objects, gives students the opportunity to describe strenghts and weaknesses in scientific models, and an activity to get students to identify patterns and trends in data about the planets. This lesson is designed to be easy to teach, student led and is ideal for non-specialist teachers. This Lesson Contains: Lesson powerpoint, including activity delivery instructions for teachers, full answers, 3 main student activity tasks to choose from, plenary task, AFL whiteboard task and discussion activities Student Activity Worksheet and Answer Sheet (PDF) (Main task Option C) Lesson Objectives: Describe the structure of our Solar System Compare position and composition of the planets of the Solar System Identify trends and patterns in data and draw conclusions
KS3 - Specialised Cells
emily_k_brown1994emily_k_brown1994

KS3 - Specialised Cells

(0)
This lesson covers examples of specialised cells, their adaptations and how those adaptations make them suited for their function. **This lesson resource includes: ** Complete lesson powerpoint Student led circus investigation task sheet (PDF and editable versions) Answer sheet (PDF and editable versions) Information cards for task on different specialised cells (PDF and editable versions) Automatically checking multiple choice plenary quiz (great for mini-whiteboard AFL) Lesson Objectives Know what a specialised cell and an adaptation is Give some examples of specialised cells Identify and describe the adaptations of some specialised cells Explain how an adaptation makes a specialised cell good at its function
AS Level - Dot-and-Cross Diagrams and Molecular Shapes Practice Worksheet
emily_k_brown1994emily_k_brown1994

AS Level - Dot-and-Cross Diagrams and Molecular Shapes Practice Worksheet

(0)
This is a good practice worksheet for lessons or homework to get students to practice drawing dot-and cross diagrams, drawing 3D structures of molecules and ions, identify molecular shapes and bond angles. Comes with worksheet and completed answer sheet. Designed for the OCR A A-level course but will be applicable to all A-level chemistry courses.
KS3 - Why we Get Seasons
emily_k_brown1994emily_k_brown1994

KS3 - Why we Get Seasons

(0)
This lesson is the fourth lesson in the “Space” topic and covers why we get different length days and different temperatures at different times of year. The lesson contains a mini-student practical, animated gifs to illustrate concepts clearly, AFL miniwhiteboard tasks to assess understanding, and a link to an online modelling software that really helps students understand the changing angles and position of the sun at different times of year. This lesson is designed to be easy to teach, student led and is ideal for non-specialist teachers. This Lesson Contains: Lesson powerpoint, including activity delivery instructions and tips for teachers, full answers, gif illustrations, simulation link, plenary task, AFL whiteboard tasks and discussion activities Lesson Objectives: Explain the apparent motion of objects in the sky Explain why hours of daylight and temperature change during the year Describe seasonal changes in different places on Earth
KS3 - Fields
emily_k_brown1994emily_k_brown1994

KS3 - Fields

(0)
A short, engaging lesson (ideal to complete before a mid-topic summary) designed with non-science/non-physics specialist teachers in mind! This lesson teaches students about what a field is and how forces are felt within fields for different non-contact forces (especially gravitational fields and magnetic fields). This resource contains: Lesson powerpoint - including full answers, mini-practical with instructions for students Lesson resources contain: In-built challenge tasks throughout A mini “discovery” style practical Objectives: Students will be able to… Describe what a “field” is Describe the effects of fields Resources and slides ask students the key questions and develops ideas and concepts from the ground up and address common issues, mistakes and misconceptions.
AS Chemistry - IUPAC Naming Booklet
emily_k_brown1994emily_k_brown1994

AS Chemistry - IUPAC Naming Booklet

(2)
A resource for AS and A-Level students to help practice naming and drawing alkanes, alkenes, alcohols and haloalkanes using the IUPAC naming system. Students can practice structural, displayed and skeletal formula drawing as well as naming in this booklet. All answers included. Designed for the UK curriculum (OCR, AQA, Edexcel)