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Spark Science

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(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.
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
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

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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 - Working as a Scientist 2
emily_k_brown1994emily_k_brown1994

KS3 - Working as a Scientist 2

7 Resources
This bundle is the complete lesson resources needed to teach core “Working Scientifically” skills to KS3 students, following the UK national curriculum. These lessons are interactive, engaging, student-led and focused. This topic contains careers links, reading opportunities and AFL strategies throughout (including mini-whiteboards and finger voting) to help you know how your students are doing. All questions, worksheets and tasks come with complete answers. Lessons included: Accuracy, Precision and Hypotheses Writing risk assessments Choosing graphs and Drawing Pie Charts Calculating Means, Medians and Modes Reading and Analysing Graphs Communicating Scientific Information Bias, Evidence and Peer-reviewing
KS3 - Reading and Analysing Graphs
emily_k_brown1994emily_k_brown1994

KS3 - Reading and Analysing Graphs

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This is the 5th lesson in the “Working as a Scientist 2” Year 8 topic. This lesson teaches students how to identify relationships in graphs using the line of best fit and how to describe trends in graphs. It also covers the ways we can improve our confidence in graphs/data, how to deal with outliers, and how to read values from a graph using the line of best fit. It is a comprehensive lesson, with large amounts of student participation on mini-whiteboards (so loads of chances for AFL and intervention if needed). The lesson can be lenghtened or shortened with slides cut out depending on student ability and prior knowledge. Students can then practice their skills independently by drawing and analysing their own graph on the student worksheet. Lesson resources: Lesson powerpoint with all answers built in automatically, various mini-whiteboard AFL tasks for students, discussion activities, scaffolding and dual coding to support lower ability/EAL/AEN students. Student worksheet PDF Student worksheet answers PDF Lesson objectives: Identify linear and directly proportional relationships Take readings from a graph using a line of best fit Describe how to improve confidence in conclusions made from graphs For this lesson you will need mini-whiteboards
KS3 - Communicating Scientific Infomation
emily_k_brown1994emily_k_brown1994

KS3 - Communicating Scientific Infomation

(0)
This lesson is lesson 6 in the Year 8 “Working as a Scientist 2” topic. This lesson focuses on how we communicate science to different audiences, and how we can tailor our writing and presentation of information to suit them. This lesson is designed to be a “click and teach” lesson with minimal planning needed from the teacher, which is great for non-specialist teachers. Lesson resources contain: Lesson powerpoint containing class activities and instructions, teacher delivery notes in “notes” section, discussion slides and full answers. PDF copies of different types of scientific communication (A childrens science book, newspaper article and scientific journal article) all about melting ice caps. PDF copy of a simple scientific journal article for students to adapt about the effects of temperature on seed germination (Students should have already looked at germination in Year 7) NOTE: All example pieces of scientific writing are all tailor made for this lesson and are of the correct reading age for Year 8 students. Lesson Outcomes: Describe the key features of effective scientific communication Describe how to adapt communication for different audiences
KS3 - Bias, Evidence and Peer-Reviewing
emily_k_brown1994emily_k_brown1994

KS3 - Bias, Evidence and Peer-Reviewing

(0)
This is the last lesson in the Year 8 “Working as a Scientist 2” Topic. It covers types of evidence, sources of bias in research and evidence, the process of peer-reviewing and what things we should look for when deciding whether evidence (and the conclusions drawn from it) is good. This lesson is an interactive lesson filled with student activities and participation, including finger voting, class discussions/debates, and mini-whiteboard tasks. This lesson is designed to be “click and teach” and will require very little planning by the teacher, and with teacher delivery notes and all answers built into the slides it is perfect for non-specialists and those a little uncertain about the lesson content. Lesson Resources contain: Lesson powerpoint including class discussions, finger voting AFL tasks, whiteboard AFL tasks, discussion slides, careers links, plenary task, student summary questions, and full answers throughout Lesson outcomes: Describe how to assess sources of evidence Identify possible sources of bias Describe what a peer-review is
KS3 - Writing Risk Assessments
emily_k_brown1994emily_k_brown1994

KS3 - Writing Risk Assessments

(0)
This lesson is the second lesson in the Year 8 “Working as a Scientist” topic. This lesson covers what a hazard, risk and control measure are, what some common hazards are in a lab and how to control them, as well as a practical investigation for students to write their own risk assessment. Lesson Objectives: State common risks from hazards Describe how these risks are managed Write a risk assessment for a scientific investigation I will work scientifically to: Carry out a practical investigation safely Lesson resources contain: Powerpoint - containing information slides, student mini-whiteboard AFL quiz, complete and interactive answer slides, plenary activity Student practical worksheet (PDF and editable word versions)
KS3 - Accuracy, Precision and Hypotheses
emily_k_brown1994emily_k_brown1994

KS3 - Accuracy, Precision and Hypotheses

(0)
This lesson is the first lesson in the Year 8 “Working as a Scientist” topic. It covers what accurate and precise data means/looks like, as well as the difference between a prediction and a hypothesis. This lesson is designed with formative assessment in mind and a large use of hand/finger voting and mini-whiteboards for AFL feedback. It contains all answers to the tasks and is great for a non-specialist science teacher. Lesson Objectives: Write a hypothesis from variables Describe the difference between accurate and precise I will work scientifically to: Identify variables in a practical Identify data that is accurate and precise This lesson contains: Powerpoint - including quizzes to test understanding, student questions to answer, challenge tasks throughout, and full answers. The powerpoint also uses colour-coding to help support AEN and EAL students follow and understand concepts in the lesson.
Electrochemical Cells and Fuel Cells Bundle
emily_k_brown1994emily_k_brown1994

Electrochemical Cells and Fuel Cells Bundle

2 Resources
This bundle contains the lessons, powerpoints and all relevant resources for teaching the Separate Science GCSE Chemistry AQA content on electrochemical cells and fuel cells. This bundle contains 3-4 lessons of content including: Lesson 1: What are Electrochemical Cells? Lesson Objectives: Describe what an electrochemical cell is and what we use it for Describe how to make an electrochemical cell Identify factors which affect the size of the voltage produced by an electrochemical cell This lesson contains: Lesson powerpoint Student practical investigation Teacher notes on how to deliver lesson slides/content and answers Lesson 2: How do Electrochemical Cells Work? Lesson Objectives: Recall the definitions for oxidation and reduction Identify which elements are oxidised and reduced in an electrochemical cell (H) – write half equations for oxidation and reduction taking place in electrochemical cells Explain why alkaline/non-rechargeable batteries eventually stop working This lesson contains: Lesson powerpoint, containing animation about how electrochemical cells produce electrical current and the reactions that take place within it Student exam questions (23 marks worth) from AQA syllabus with mark scheme Teacher notes on how to deliver lesson slides/content and answers Lesson 3/4: What are Fuel Cells? Lesson Objectives: Describe, in basic terms, how a hydrogen fuel works (Higher only) write balanced half equations for the reactions taking place inside a hydrogen fuel cell Describe advantages and disadvantages of hydrogen fuel cells Evaluate the use of hydrogen fuel vehicles compared to electric and petrol vehicles Lesson resources include: Lesson powerpoint with printable diagrams for students Explanations of half equations from fuel cell (both acid cell (not AQA) and alkaline cell (AQA) version) and balancing them Relevant video links 6 marker question and mark scheme Exam question pack on fuel cells and energy Plenary AFL multiple choice quiz and debate activity
Calculating Relative Atomic Mass
emily_k_brown1994emily_k_brown1994

Calculating Relative Atomic Mass

(0)
This lesson is designed for AQA GCSE Chemistry/Combined Science Trilogy and covers how to calculate relative atomic mass. This lesson contains: A lesson powerpoint complete with all answers, worked examples Student worksheet (PDF and editable versions) Worksheet answers (PDF and editable versions) Lesson Objectives: Define what an “isotope” is and identify examples Calculate the relative atomic mass of elements from their relative isotopic masses and abundances
Extracting Aluminium from Aluminium Oxide
emily_k_brown1994emily_k_brown1994

Extracting Aluminium from Aluminium Oxide

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A full lesson designed for GCSE chemistry AQA specification. This lesson covers the case study of the extraction of aluminium oxide, the role of cryolite, what happens to the aluminium and oxide ions at the electrodes, and the need for the replacement of the positive electrode. This lesson contains A lesson powerpoint including all useful youtube video links, interactive plenary multiple choice quiz, electroplating challenge task and complete answers. A guided reading activity with quesitons and complete answer sheet (PDF and editable versions) An alternative information hunt sheet to be used with videos and/or the AQA GCSE Chemistry textbook, with complete answers (PDF and editable versions) Video clip to aid in completion of both sheets Lesson Objectives State two reasons why extracting aluminium oxide from its ore is expensive Describe why cryolite is added to aluminium oxide during electrolysis Describe and explain what happens to ions at the positive and negative electrode (and give relevant half equations (Higher only)) Explain why the positive electrode must continually be replaced
Lesson 2 - How Electrolysis Works
emily_k_brown1994emily_k_brown1994

Lesson 2 - How Electrolysis Works

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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)
Lesson 1 - Introduction to Electrolysis
emily_k_brown1994emily_k_brown1994

Lesson 1 - Introduction to Electrolysis

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This lesson is designed for AQA GCSE Chemistry and introduces electrolysis as a way of extracting metals from ores/metal compounds. Lesson Objectives: Name the parts of the electrolysis practical Carry out a basic practical for the electrolysis of copper chloride Predict the products of the electrolysis of a molten salt Explain why we use electrolysis to extract metals This Lesson Contains: Lesson Powerpoint, including all answers and powerpoint notes to aid delivery and challenge tasks and mini-whiteboard AFL quiz Blank electrolysis diagram handout for printing (editable and PDF) Student worksheet/table (editable and PDF) Complete answers Practical risk assessment and instructions
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
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
GCSE Triple Chemistry: Chemical Analysis
emily_k_brown1994emily_k_brown1994

GCSE Triple Chemistry: Chemical Analysis

3 Resources
This bundle contains all the content relevant to AQA Triple Chemistry students in the new 9-1 syllabus. Includes 4 LESSONS worth of teaching materials: This includes the standard tests and characteristic results/colour changes for: positive metal ion flame tests (Li, Cu, K, Na, Ca), positive metal ion precipitate tests with NaOH (Fe(III), Fe(II), Cu(II), Mg, Ca, Al) sulfate test with barium nitrate/chloride halide tests (Cl, Br and I) with silver nitrate carbonate tests with dilute acid and lime water These lessons contain full powerpoints, student worksheets, complete answers, risk assessments/technician order forms, stretch and challenge tasks, relevant exam questions, and AfL plenary activities Lesson 1-2: Identifying positive metal ions (flame tests and precipitate tests) Lesson objectives: Carry out simple flame tests to identify positive metal ions Carry out simple precipitate tests to identify positive metal ions Describe how to carry out a flame test and a precipitate test, including the names of any important reactants Describe the problems and limitations of using flame tests and precipitate tests to identify positive metal ions Lesson 3 - Identifying negative non-metal ions Lesson objectives: Carry out simple precipitate tests to identify halide, sulfate and carbonate ions Describe how to carry out precipitate tests to test for halide, sulfate and carbonate ions, including the names of any important reactants Write balanced symbol and ionic equations for the reactions taking place in precipitation reactions Lesson 4 - Instrumental Analysis and Flame Emission Spectra Lesson objectives: Know what instrumental techniques are Describe advantages and disadvantages of instrumental techniques over other analysis techniques (e.g. flame tests) Interpret flame emission spectra to identify unknown elements in a mixture Lesson resources include: Complete and full powerpoints - including starter activities, challenge activities, tables of results, practical instructions, questions with complete answers Student worksheets and practical sheets with instructions and tables for results (PDF and editable word versions) Student worksheet answers (PDF and editable word versions) Practical risk assessments/order forms (up to date with CLEAPPS data as of Oct 2023) Relevant practice exam questions with mark schemes and examiners reports.
Instrumental Analysis and Flame Spectra
emily_k_brown1994emily_k_brown1994

Instrumental Analysis and Flame Spectra

(0)
A lesson covering instrumental analysis and flame emission spectroscopy for the AQA Triple Chemistry GCSE specficiation. Applicable to both higher and foundation candidates. Lesson Objectives Know what instrumental techniques are Describe advantages and disadvantages of instrumental techniques over other analysis techniques (e.g. flame tests) Interpret flame emission spectra to identify unknown elements in a mixture Lesson Resources include: Lesson powerpoint - including starter, example spectra, spectra analysis example and advantages/disadvantages task Exam questions covering instrumental analysis, flame spectra analysis, and ion identification questions with full mark schemes.
Testing for Negative Non-Metal Ions
emily_k_brown1994emily_k_brown1994

Testing for Negative Non-Metal Ions

(0)
A lesson pack covering negative non-metal ion tests (halide, sulfate and carbonate). This resource is designed for the AQA Triple Chemistry required practical from “Chemical Analysis”, and is relevant to higher and foundation students. Lesson Objectives Carry out simple precipitate tests to identify halide, sulfate and carbonate ions Describe how to carry out precipitate tests to test for halide, sulfate and carbonate ions, including the names of any important reactants Write balanced symbol and ionic equations for the reactions taking place in precipitation reactions This resource contains: Lesson powerpoint - including starter activity, practical instructions, tables, challenge task, multiple choice quiz plenary, and full answers Student worksheet - including practical instructions, tables, and practical quesitons (PDF and editable word versions) Student worksheet answers (PDF and editable word versions) Risk assessment/order form - containing up to date CLEAPPS guidance as of Oct 2023.
Testing for Positive Metal Ions
emily_k_brown1994emily_k_brown1994

Testing for Positive Metal Ions

(0)
A 1-2 lesson pack covering flame tests and positive metal ion tests. This resource is designed for the AQA Triple Chemistry required practical from “Chemical Analysis”, and is relevant to higher and foundation students. Lesson Objectives Carry out simple flame tests to identify positive metal ions Carry out simple precipitate tests to identify positive metal ions Describe how to carry out a flame test and a precipitate test, including the names of any important reactants Describe the problems and limitations of using flame tests and precipitate tests to identify positive metal ions This resource contains: Lesson powerpoint - including starter activity, practical instructions, tables, challenge task, multiple choice quiz plenary, and full answers Student worksheet - including practical instructions, tables, and practical quesitons (PDF and editable word versions) Student worksheet answers (PDF and editable word versions) Risk assessment/order form - containing up to date CLEAPPS guidance as of Oct 2023.
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)