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Jingle bells density science experiment
IETEducationIETEducation

Jingle bells density science experiment

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In this this fun Christmas STEM experiment, we see the effect that density has on objects and make some jingle bells dance! Download the STEM activity sheet below for free. If you’re up for an extra activity, help our jingle bell finds its way back to the Christmas tree in our maze. And please do share your learning highlights and final creations with us on social media @IETeducation #SantaLovesSTEM or send them via email to IETEducation@theiet.org to be featured in our online gallery.
Make a trap to detect Santa
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Make a trap to detect Santa

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Try out this fun science experiment, designed for primary school students, to catch Santa as he delivers your presents by creating an electronic trap! The engineering context Engineers need to be able to understand how electrical circuits are drawn and communicated; This includes the use of circuit symbols to produce circuit diagrams and schematics. This knowledge could be used when investigating, designing or making electrical and electronic circuits in the future. What equipment will you need? A thin piece of sponge – a washing up sponge is great, but make sure it is completely dry, Scissors, Masking or sticky tape, Aluminium kitchen foil, 3 crocodile leads (you will need another 2 if you do the extension task), A 2 x AA battery pack, A 3V buzzer How to do it Step 1 - Cut a square of the thin sponge approximately 10cm x 10cm. In the centre, cut a hole approximately 4cm in diameter. ⚠ Be careful when using scissors. Always have an adult on standby in case you need help. Step 2 - Cut two pieces of aluminium foil slightly smaller than your piece of sponge. Step 3 - Using masking or sticky tape, tape one piece of aluminium foil to the top of the sponge and the other to the bottom. The tin foil pieces MUST NOT touch if the sponge is not pressed down but should once it is pressed. Step 4 - Attach one crocodile lead to the top piece of foil and one to the bottom piece. You have now built the pressure pad for your Electronic Santa Detector, but you need to put it in a circuit for something to happen. Follow the diagram in the activity sheet below to connect the components with your crocodile leads. When you gently press the centre, the buzzer should sound. Now all you need to do is leave it somewhere you think Santa will stand when he delivers your presents. Just inside your bedroom door, perhaps, or at the end of your bed with your stocking. When he steps on the pressure pad, the buzzer will sound and alert you to him being in the room. You might also want to disguise it so it is not noticeable. Santa is old and wise, and if he sees it, he will know not to step on it! Download the Make a trap to detect Santa activity sheet for free! All activity sheets and supporting resources are free to download, and all the documents are fully editable, so you can tailor them to your students’ and your schools’ needs. The activity sheet includes teacher notes, guidance, useful web links, and links (where appropriate) to the national curriculum in each of the four devolved UK nations; England, Northern Ireland, Scotland and Wales. Oh ho ho, and please do share your experiment highlights with us @IETeducation! #SantaLovesSTEM.
Insulator experiment
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Insulator experiment

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Protect Santa’s packed lunch with this fun insulator experiment This activity can function as a fun science experiment for kids in which students will observe the effects of thermal energy on change of state. What equipment will you need? Ice cubes with a small Christmas toy frozen inside (cake decorations are ideal for this or any small Christmas toy/decoration), 5 different types of material, which could include bubble wrap, plastic bag, wool, cotton, foam, tin foil etc., Small containers big enough to put wrapped ice cubes in. How to do it Step 1 - Choose which materials you think will keep his lunch cold for the longest. Step 2 - Wrap up each ice cube singly, in one material each, being careful to have the same number of layers for each material. Put each wrapped ice cube in a container. Remember, we are trying to make this a fair test, so what else do you need to keep the same? Step 3 - Decide where to put your ice cubes and how often to check them. What signs will you look for to tell you which material works best? Step 4 - Why do you think some ice cubes are melting more quickly than others? Do you think the cold from the ice cube is getting out, or the warmth from the air is getting into the ice cube? Step 5 - Which material kept your ice cube frozen for the longest? When you have decided which material is best, design a lunchbox to keep Santa’s lunch cool this Christmas Eve. What is thermal energy? Materials melt because of heat, a form of energy (thermal energy). All objects are made up of particles which are in a constant state of motion. Cold objects have less thermal energy than warm objects and the particles which make them up will be moving much more slowly. If we put a cold object next to a warm object, they will exchange thermal energy until they achieve thermal equilibrium – and become the same. We can stop or slow down this energy exchange by using a thermal insulator. Good thermal insulators have very strong bonds to hold their particles in place, stopping the particles from moving around easily and transferring energy to other particles. Download the Insulator experiment activity sheet for free! All activity sheets and supporting resources are free to download, and all the documents are fully editable, so you can tailor them to your students’ and your schools’ needs. The activity sheet includes teacher notes, guidance, useful web links, and links (where appropriate) to the national curriculum in each of the four devolved UK nations; England, Northern Ireland, Scotland and Wales. Oh ho ho, and please do share your experiment highlights with us @IETeducation! #SantaLovesSTEM.
Light up Rudolph's nose
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Light up Rudolph's nose

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In this Christmas STEM activity for kids, students will test a simple series electrical circuit in an attempt to make Rudolph’s nose light up. This experiment will encourage students to have fun with electronics and understand circuits. What equipment will you need? Rudolph template, Stiff piece of card the same size as the template, Block of wood, 2 crocodile leads, 1.5V or D size battery, A 2.5 bulb with holder, Sticky tape, Blu-tac How to do it Step 1 Please print off the Rudolph template and stick it onto a stiff piece of card. Step 2 Make a hole (large enough to put the bulb through) where the nose would be, keeping the bulb holder at the back. Tape the bulb holder to the cardboard to hold it in place. You can paint the bulb red with a felt tip pen or add some red acetate. Sweet wrappers work well for this! Step 3 Stick the block of wood to the bottom of the card so that the Rudolph template stands up. Step 4 Attach the crocodile leads to the metal part on each side of the bulb holder. Stick the battery down on top of the piece of wood at the back with a piece of Blu-tac. You are now ready. The science behind the experiment Electricity will only flow when there is a power source within a complete circuit of conductive material with no breaks. There is no need, at this stage, to explain what electricity is or how it works, but children can begin thinking about what electricity does. Encourage the children to look around the room to find other things which work on electricity. They could cut out pictures from magazines of things which work on electricity and then sort them into those which work on mains electricity and those which work on battery power. Download the Light up Rudolph’s nose activity sheet for free! All activity sheets and supporting resources are free to download, and all the documents are fully editable, so you can tailor them to your students’ and your schools’ needs. The activity sheet includes teacher notes, guidance, useful web links, and links (where appropriate) to the national curriculum in each of the four devolved UK nations; England, Northern Ireland, Scotland and Wales. Oh ho ho, and please do share your experiment highlights with us @IETeducation! #SantaLovesSTEM.
Make electric dough
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Make electric dough

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In this fun science activity for kids, students will make play dough that can insulate or conduct electricity. Make colourful dough with salt and another with sugar to find out which one will work! Through this process they will learn about conductors and insulators. Students will also learn about ionic bonding. This is a resource that encourages learners to have fun with science. An activity sheet is available to download for free. We have also included a bonus wordsearch using terminology from the activity to promote sticky learning. Oh ho ho, and please do share your experiment highlights with us @IETeducation! #SantaLovesSTEM
Snow blizzard in a jar
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Snow blizzard in a jar

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Learn about liquid and gas in this fun science experiment to make a snow blizzard In this simple and festive activity for kids, students will create a snow blizzard in a jar! This activity can function as a fun science experiment for the young engineer at home or as a full lesson in school to think about gas and reactions. What equipment will you need? A jar, A pot for mixing paint, Water, Baby oil (enough to fill ¾ of your jar), A small amount of glitter, Bicarbonate of soda or an effervescent tablet, A small tube of white paint, Blue food colouring, A stick for stirring How to do it Step 1 – First, fill the jar until about ¾ full of baby oil. Step 2 – Mix water and a few tablespoons of white paint in the pot. Step 3 – Return to the jar of baby oil and add the glitter and blue food colouring. You can add as much of these as you like – you are creating a magical winter scene! Step 4 – Add the paint and water mixture into the jar, filling it to the top. Step 5 – Lastly, add a teaspoon of bicarbonate of soda. Adding the bicarbonate of soda will start the blizzard! The science behind the experiment Oil is less dense than water, less heavy; This means the water sinks to the bottom of the jar, and the oil floats on top, and as they don’t mix, there’s a separation between the two. When you add the bicarbonate of soda or an effervescent tablet, it reacts with the water to produce carbon dioxide gas bubbles. These stick to the water droplets. The water and gas combination is less dense than oil, making them rise to the top of the jar and create pressure in an upward direction. At the top, the gas bubbles pop and escape into the air, leaving the dense water behind to sink back to the bottom again. This reaction creates our beautiful blizzard in a jar! The engineering context Understanding the way different materials work and the properties they all hold is vital in creating and developing solutions to our world’s problems. Engineers are interested in the world around them, which is a fun and critical spark to ignite from an early age. Download the Snow blizzard in a jar activity sheets for free! All activity sheets and supporting resources are free to download, and all the documents are fully editable, so you can tailor them to your students’ and your schools’ needs. The activity sheet includes teacher notes, guidance, useful web links, and links (where appropriate) to the national curriculum in each of the four devolved UK nations; England, Northern Ireland, Scotland and Wales. Oh ho ho, and please do share your experiment highlights with us @IETeducation! #SantaLovesSTEM.
Best Christmas wrapping paper experiment
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Best Christmas wrapping paper experiment

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Evaluate strength and durability of materials that Santa could use as wrapping paper This fun and festive activity is suitable for 5-11-year-olds and will take approximately 1-2 hours to complete. What equipment will you need? At least six different types of wrapping paper. You can use more if you like (try and find ones which feel and look different, such as shiny metallic paper or tissue paper.), Some tape for wrapping, A large bin liner or a Christmas sack if you have one Five bricks/ large stones of equal size. (It works best if they aren’t perfectly smooth or round.) How to do it Step 1 – Wrap up each brick or stone with a different piece of wrapping paper. These will be your ‘presents’. Step 2 – Put them all in the sack together. Step 3 – Ask an adult to act as Santa and shake the sack for 30 seconds as though carrying it around. You could sing Christmas songs while you are doing it. Step 4 – Take each ‘present’ out and look at it carefully. Record any changes in the wrapping paper on a results sheet. These are your observations. Step 5 – Put them all back into the sack and get your helper to shake them again. Step 6 – Complete step 5 another three times (if your presents survive the shaking!). Record any changes each time. Once you have determined which paper would be best, you could write a letter (or even a poem) to Santa to let him know how you tested the paper and which paper you think he should use. You can also look at packaging materials to see which protects items delivered by courier or the post the best. For full instructions, download the worksheet and lesson plan for free! All activity sheets and supporting resources are free to download, and all the documents are fully editable, so you can tailor them to your students’ and your schools’ needs. The activity sheet includes teacher notes, guidance, useful web links, and links (where appropriate) to the national curriculum in each of the four devolved UK nations; England, Northern Ireland, Scotland and Wales. Oh ho ho, and please do share your experiment highlights with us @IETeducation! #SantaLovesSTEM.
Write a poem to Santa
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Write a poem to Santa

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Creative writing activity to use poetry skills and complete the fun activity sheet. The poem for primary school children focuses on Santa Claus and the magic of following your ambition to think about how you can use your skills and work in a job you love. When I am big, I want to be… First, read the poem, then add your own final verse/s. When you are completing the poems try and write in a similar style and use descriptive language. All activity sheets and supporting resources are free to download, and all the documents are fully editable, so you can tailor them to your students’ and your schools’ needs. The activity sheet includes teacher notes, guidance, useful web links, and links (where appropriate) to the national curriculum in each of the four devolved UK nations; England, Northern Ireland, Scotland and Wales. Oh ho ho, and please do share your finished poems with us @IETeducation! #SantaLovesSTEM. If you enjoy activities like this, why not try to write a poem about space or the ocean too.
Rocket Rudolph with acids and alkalis
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Rocket Rudolph with acids and alkalis

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Learn how to make Rudolph fly like a rocket with our festive science experiment. This quick and simple science experiment will teach students about the result of the chemical reaction between an alkali (bicarbonate of soda) and an acid (white wine vinegar) when you try and trap the gas that is produced. Top tip: do this one outside, as it can be messy. What equipment will you need? A plastic camera film canister, bicarbonate of soda (or an effervescent tablet), white wine vinegar, paper, scissors colouring pencils, a red nose, sticky tape How to do it? Step 1 Cut out a piece of paper so that it is tall and wide enough to wrap around your plastic canister. Step 2 On the paper, draw your very own Rudolph and colour it in. Step 3 Stick the red nose on Rudolph. Step 4 Take the lid off your plastic canister and turn it upside down so the open end is face down on the table. Step 5 Wrap the picture around the plastic canister and stick it in place. Step 6 Turn the canister the other way up so the opening faces upwards (Rudolph should now be upside down). Step 7 Fill the canister halfway with white wine vinegar. Now this is where you need to be super speedy: Step 8 Drop an effervescent tablet into the canister, put the lid on tightly, then turn it upside down (Rudolph will now be the right way up). Wait for him to blast off! Watch the video from Marvellous Marthy and download the free activity sheet to join in the fun this Christmas! All activity sheets and supporting resources are free to download, and all the documents are fully editable, so you can tailor them to your students’ and your schools’ needs. The activity sheet includes teacher notes, guidance, useful web links, and links (where appropriate) to the national curriculum in each of the four devolved UK nations; England, Northern Ireland, Scotland and Wales. Oh ho ho, and please do share your experiment highlights with us @IETeducation! #SantaLovesSTEM.
Snowball catapult
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Snowball catapult

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Build a simple snowball catapult capable of firing cotton wool balls in this festive activity for kids. By the end of this activity, you will be able to: Engineer a catapult that harnesses potential energy and then releases it quickly, transferring that potential energy into movement as the snowball is fired into the distance. How long will this activity take? This activity will take approximately 10 minutes to complete. To extend your catapult design skills and understanding of levers, try the Build a popsicle stick catapult activity. What equipment will you need? 9 x lollipop sticks, 2 x elastic bands, cotton wool balls How to do it Step 1 Stack 5 of the lollipop sticks on top of one another. Step 2 Place the 6th lollipop stick across the stack of 5 sticks in the shape of a cross. Step 3 Place the remaining 3 sticks on top of the ‘cross’ stick, like the first 5 lollipop sticks. Step 4 Wrap the elastic bands tightly around the thick stack of lollipop sticks at either end. Step 5 Pull a piece of cotton wool from your cotton wool ball and roll it around to make a snowball. Step 6 Place the snowball on the longest end of the ‘cross’ stick, and press down on the shorter end using one hand. Step 7 Using the other hand, press back on the snowball and then fire! Watch Marvellous Marthy and download the free activity sheet today! All activity sheets and supporting resources are free to download, and all the documents are fully editable, so you can tailor them to your students’ and your schools’ needs. The activity sheet includes teacher notes, guidance, useful web links, and links (where appropriate) to the national curriculum in each of the four devolved UK nations; England, Northern Ireland, Scotland and Wales. Oh ho ho, and please do share your experiment highlights with us @IETeducation! #SantaLovesSTEM.
Making invisible ink
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Making invisible ink

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**In this engaging activity learners will have fun with science by making invisible ink from lemon juice mixed with water. ** Learners will then have the opportunity to write secret messages to their friends. Finally, they will use heat to reveal the messages. This is one of a set of free STEM resources developed to support the teaching of the primary national curriculum. They are designed to support the delivery of key topics within Mathematics and Design and Technology. This resource can be carried out either in school or at home. This activity could be used as a main lesson activity, to teach learners about how substances can change colour when heated. How long will this activity take? This activity will take approximately 40-60 minutes to complete. Tools/resources required Lemons of bottle of lemon juice Water Small bowls Cotton buds/paint brushes White paper Hairdryer or lamp The engineering context Engineers are able to use colour changing chemicals to show that something is present. For example, bioengineers working with soil use litmus paper to see if the soil is acidic. Blue litmus paper turns red when it is placed in acidic soil. Materials engineers have created smart materials that can change their properties – for example, thermochromic pigment is used in food packaging to change colour when the food is heated to the correct temperature. Suggested learning outcomes By the end of this activity students will know that some substances change colour when heated, they will be able to make invisible ink from lemon juice and they will be able to write secret messages. Download the free Making invisible ink activity sheet! All activity sheets and supporting resources are free to download, and all the documents are fully editable, so you can tailor them to your students’ and your schools’ needs. The activity sheet includes teacher notes, guidance, useful web links, and links (where appropriate) to the national curriculum in each of the four devolved UK nations; England, Northern Ireland, Scotland and Wales. Please share your classroom learning highlights with us @IETeducation.
Why does ice melt?
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Why does ice melt?

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Find out the science behind ice During bad winters in the UK, we use nearly 2 million tonnes of salt to melt snow and ice. But how does salt melt ice? Watch our video and join Wilf Wonders as he explains the science behind melting ice and learn interesting fun facts that you can share this Christmas! Please do share your science highlights with us @IETeducation! #SantaLovesSTEM.
Greenhouse effect experiment
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Greenhouse effect experiment

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Investigating how carbon dioxide affects temperature In this activity learners will discover the effects of mixing chemicals and the warming effects of the sun. They will undertake a controlled experiment to investigate how gases in the atmosphere affect the heat in an enclosed environment. This activity could be used as a main lesson activity, to introduce the concept of the earth’s atmosphere, or as part of a series of lessons investigating environmental issues, the effect of global warming and greenhouse gasses. This is one of a set of resources designed to allow learners to use practical methods to support the delivery of key topics within Design & Technology, Science, Maths and Humanities. This resource, developed with the support of National Grid ESO, in a practical experiment that investigates how the greenhouse gas carbon dioxide affects the temperature is a closed environment. National Grid ESO ensure that Great Britain has the essential energy it needs by ensuring supply meets demand every second of every day. This activity can be simplified (particularly for less able students) by providing learners with pre-prepared jars and cling film. This activity is designed to take between 50-60 minutes to complete. Tools/resources required 4 large empty jars Cling film Scissors Masking tape Permanent marker Bicarbonate of soda White vinegar Measuring cups and spoons Elastic bands Thermometers (non-contact infra-red type preferred; if using a traditional contact type one thermometer will be needed for each jar) Heat source (radiator with a flat top or a sunny window) The engineering context Many human activities result in emissions of greenhouse gases. These can have a significant effect changing the climate and weather conditions that we experience. There is a wide range of possible ways to reduce these emissions. Engineers play a huge role in such areas, developing and implementing processes and materials that produce lower levels of greenhouse gas emissions, such as sustainable methods of power generation. Engineers also have a significant social influence on our behaviours as a society when we consider the future implications of our actions and consumption. Suggested learning outcomes By the end of this free resource students will be able to understand that carbon dioxide is a greenhouse gas and be able to make a reaction between 2 materials/chemicals. All activity sheets and supporting resources are free to download, and all the documents are fully editable, so you can tailor them to your students’ and your schools’ needs. The activity sheet includes teacher notes, guidance, useful web links, and links (where appropriate) to the national curriculum in each of the four devolved UK nations; England, Northern Ireland, Scotland and Wales. Please share your classroom learning highlights with us @IETeducation.
Investigate why boats float
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Investigate why boats float

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Using Archimedes’ principle to investigate why boats float In this activity learners will learn what is meant by density. Learners will perform an experiment to see whether modelling clay moulded into different shapes either sinks or floats. They will discuss why this happens and how the principle demonstrated allows boats to stay afloat. This is one of a series of resources produced in association with Fairfield Control Systems that are designed to allow learners to use the theme of waterways to develop their knowledge and skills in Design & Technology, Mathematics and Science. This resource focuses on understanding density and, through practical measurement, working out which materials are low and high density, and which will therefore float or sink. This activity can be simplified (particularly for less able students) by providing a mould to make the boat shape from the modelling clay or by pre-measuring the mass of modelling clay used. As an extension students could try adding small items into the modelling clay boat. How much weight can it carry before it sinks? Calculate the density of the ball and the boat shape made from modelling clay. This activity is designed to take between 40-70 minutes. Tools/resources required Bowls and trays Science beakers/Measuring jugs Weighing scales Water Modelling clay The engineering context The waterways (including their protection, maintenance and control) is an excellent context to explore opportunities that working in the engineering industry presents. For example, constructing locks, building narrowboats or making and maintaining boat lifts. Engineers often make models of working systems to test how they function. For example, a crane designer will make models of different crane designs to see which structures can provide the best support and which designs can lift the heaviest object. Suggested learning outcomes By the end of this free resource students will be able to understand how Archimedes’ principle works; that is two things are the same size, the one that is denser is heavier; and how boats use the Archimedes principle to stay afloat. All activity sheets and supporting resources are free to download, and all the documents are fully editable, so you can tailor them to your students’ and your schools’ needs. The activity sheet includes teacher notes, guidance, useful web links, and links (where appropriate) to the national curriculum in each of the four devolved UK nations; England, Northern Ireland, Scotland and Wales. Please share your classroom learning highlights with us @IETeducation.
Materials and their properties
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Materials and their properties

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Learn how to describe the simple physical properties of a variety of everyday materials In this activity, participants evaluate several everyday products, identifying the properties they need and the materials that would be suitable to make form. What are the properties that products need to be able to fulfil their required function: hard, soft, strong, weak, flexible, bendy, recyclable? What are the reasons why specific types of materials are used to make products? Understanding this will sow the seeds for learners to become informed consumers. As a class, consider a range of materials and discuss what properties are typically important. For example: Which bag is best for carrying heavy shopping: plastic or fabric? Which bowl would be best for a baby: glass or plastic? Which chair would be best for the outdoors: cardboard or plastic? Activity info, teachers’ notes and curriculum links This is one of a set of resources developed to support the teaching of the primary national curriculum. They are designed to support the delivery of key topics within maths and science. This resource focuses on the evaluation of everyday products and what materials they are made from. Download the free activity sheets! All activity sheets and supporting resources are free to download and are fully editable, so you can tailor them to your students’ and your schools’ needs. Tools/resources required Several actual products that the learners can hold and discuss The activity sheet includes teacher notes, guidance, useful web links, and links (where appropriate) to the national curriculum in each of the four devolved UK nations; England, Northern Ireland, Scotland, and Wales. Please do share your classroom learning highlights with us @IETeducation
Make a terrarium to grow grass on the moon
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Make a terrarium to grow grass on the moon

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Grow grass in a terrarium to use on a football pitch on the Moon In this activity learners will make use of the theme of football on the moon to make an experiment of terrarium, so that grass can be grown for a lunar football game. This is one of a series of resources that are designed to allow learners to use the theme of football on the moon to develop their knowledge and skills in Science, Design & Technology and Engineering. This resource focusses on making a closed terrarium with glass jars to show how grass could be grown on the moon, therefore overcoming some of the external temperature issues of growing grass in this environment. The teacher will introduce the activity and the theme of travelling to the moon, before discussing the challenge with learners. Teachers can carry out demonstrations at stages throughout the lesson to show what is required and check that all learners understand and carry actions out in the correct order. This activity can be simplified (particularly for less able students) by providing pre-measured amounts of materials and marked jars for learners to fill to. As an extension students can discuss and experiment with the effects of rotating the jars. What would happen if this didn’t take place? Students could also have a go at identifying other plants that could be grown in the terrarium for use on the moon e.g. food plants. This activity is designed to take between 35-65 minutes plus growing time and of course, caring for your terrarium. Tools/resources required Clean jam jar and lid Activated charcoal Stones Soil Grass seed The engineering context Travelling and potentially living on the moon presents all sorts of challenges for engineers to overcome. For example, how will we breathe, how will we cope with much lower gravity, how will we play sports and keep fit? How will we grow plants, grass and food? Suggested learning outcomes By the end of this free resource students will be able to understand the concept of living organisms surviving on the Moon; set up an experiment to grow grass in a terrarium and be able to evaluate the findings of the experiment. All activity sheets and supporting resources are free to download, and all the documents are fully editable, so you can tailor them to your students’ and your schools’ needs. The activity sheet includes teacher notes, guidance, useful web links, and links (where appropriate) to the national curriculum in each of the four devolved UK nations; England, Northern Ireland, Scotland and Wales. Please share your classroom learning highlights with us @IETeducation.
National Grid jigsaw
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National Grid jigsaw

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Make a jigsaw that shows the main elements in power generation and transmission In this activity learners will make use of the theme of the National Grid to complete a labelled jigsaw of the main parts of the electricity distribution network. They will assemble the different pieces into an image of the National Grid network and use labelled cards to identify each part. This is one of a set of resources designed to allow learners to use practical methods to support the delivery of key topics within Design & Technology, Science, and Engineering. This resource, developed with the support of National Grid ESO, focusses on learners developing knowledge of the different parts of the National Grid by completing a jigsaw of it. National Grid ESO ensure that Great Britain has the essential energy it needs by ensuring supply meets demand every second of every day. The teacher will explain the purpose of the National Grid and how it works before setting the students with the task of completing the jigsaw and then reviewing responses and discussing outcomes on completion of the work. This activity can be simplified (particularly for less able students) by using the jigsaw template with the labels already added. As an extension students could try using the internet to identify the different methods used to generate electricity, and then discussing what the advantages and disadvantages are of each method. Students could also investigate what a transformer is used for and find out why it is needed. This activity is designed to take between 25-40 minutes. Tools/resources required Card for the jigsaw image and labels Laminating facilities (if the jigsaws are to be re-used with different classes) The engineering context It is important that all engineers understand how products and systems are powered. This includes how electricity is generated, transmitted and made available for us to use in our homes and businesses. Power engineering is a very important field which focusses on how energy is generated and transmitted. There are lots of well-paid and rewarding careers available in this area. Suggested learning outcomes By the end of this free resource students will be able to assemble a jigsaw of the National Grid and be able to identify each of the main parts. Students should also be able to describe the purpose of each stage of the National Grid network. All activity sheets and supporting resources are free to download, and all the documents are fully editable, so you can tailor them to your students’ and your schools’ needs. The activity sheet includes teacher notes, guidance, useful web links, and links (where appropriate) to the national curriculum in each of the four devolved UK nations; England, Northern Ireland, Scotland and Wales. Please share your classroom learning highlights with us @IETeducation.
Which animals hibernate? Card game
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Which animals hibernate? Card game

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Play our card activity about animals that hibernate over the winter Play a fun, science flashcard game to learn about the different animals that hibernate over winter, where they hibernate, what they eat and how long they hibernate for. Although you might think a hibernating animal is just having a very long sleep, there’s actually some very clever stuff going on inside its body. Its body temperature, heart rate and breathing rate all drop, so that the animal uses less energy. It’s a game for two or more players. For an extra activity, we have included a crossword puzzle that uses words from the game to promote sticky learning. A free activity sheet and card templates are available to download. And please do share your learning highlights and final creations with us on social media @IETeducation.
Make a model hydraulic boat lift
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Make a model hydraulic boat lift

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Making a model of a hydraulic boat lift using syringes This is one of a series of resources produced in association with Fairfield Control Systems that are designed to allow learners to use the theme of waterways to develop their knowledge and skills in Design & Technology, Engineering and Science. This resource is based on the Anderton boat lift and the use of hydraulic systems. The teacher will first discuss what is meant by a hydraulic system and how they are used in engineering applications such as cranes and brakes. The teacher will then demonstrate the steps shown in the presentation to make the model boat lift. Learners will then carry out the activity and produce their own models before showing their boat lift models to peers and asking what could be improved. This activity can be simplified (particularly for less able students) by pre-cutting the templates and corrugated cardboard to size. An exemplar model could be used to illustrate what the final boat life should look like. Print out the handout for learners to cut out and use the templates. As an extension students could investigate how much the boat lift can lift. This activity is designed to take between 45-70 minutes to complete. Tools/resources required Corrugated cardboard sheets 10 ml syringes Cable ties (Size: 20 cm length) 3 mm clear plastic tube Water and measuring jugs Food dye Pencils Sticky tack Adhesive Masking tape, sticky tape or hot glue gun (optional) Craft knife and cutting mat (teacher only) The engineering context The waterways (including their protection, maintenance and control) is an excellent context to explore opportunities that working in the engineering industry presents. For example, constructing locks, building narrowboats or making and maintaining boat lifts. Engineers often make models of working systems to test how they function. For example, a crane designer will make models of different crane designs to see which structures can provide the best support and which designs can lift the heaviest object. Suggested learning outcomes By the end of this free resource students will be able to know the difference between pneumatic and hydraulic systems; know that 3D shapes can be constructed using templates; and be able to make a model of a simple boat lift model using syringes. All activity sheets and supporting resources are free to download, and all the documents are fully editable, so you can tailor them to your students’ and your schools’ needs. The activity sheet includes teacher notes, guidance, useful web links, and links (where appropriate) to the national curriculum in each of the four devolved UK nations; England, Northern Ireland, Scotland and Wales. Please share your classroom learning highlights with us @IETeducation.
Chromatography Christmas tree
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Chromatography Christmas tree

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**This Christmas STEM activity lets students create Christmas tree decorations in a new way, using chromatography! ** Students will use coffee filters, washable felt tips and a few other items to learn about mixtures, pigments and more! All activity sheets and supporting resources are free to download, and all the documents are fully editable, so you can tailor them to your students’ and your schools’ needs. The activity sheet includes teacher notes, guidance, useful web links, and links (where appropriate) to the national curriculum in each of the four devolved UK nations; England, Northern Ireland, Scotland and Wales. And please do share your learning highlights and final creations with us on social media @IETeducation #SantaLovesSTEM