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Structural engineering
IETEducationIETEducation

Structural engineering

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In this activity students will use case studies to investigate how architectural and building issues can be resolved. It can accompany our Structural engineering starter and How to design a spaghetti roof structure activities as part of a series of activities that explores structural engineering. This is one of a set of resources developed to aid the class teaching of the secondary national curriculum, particularly KS3. It has been designed to support the delivery of key topics within design and technology (D&T) and engineering. Activity: Exploring how architectural and building issues can be resolved through real-life case studies Students will view the design of the O2 arena by watching our Sound design video. They will also investigate the design of Stanstead Airport by viewing our structural engineering presentation. They will look specifically at the requirements of the buildings and the constraints in terms of structural design. They will also explore the design solutions used to overcome potential issues. This will form the stimulus for students to investigate structures in detail. The students will then be asked to explore possible solutions to a given structural design challenges. Download our activity overview for a detailed lesson plan on structural engineering for free! The engineering context Iconic structures don’t just happen by accident. When designing large buildings, there will often be challenges that need problem solving such as eliminating columns for large open spaces. Engineers need structural knowledge to be able to create innovative designs that are safe, functional, and aesthetic. Suggested learning outcomes Students will learn how to identify the key features of structural components. They’ll also know how to identify the various pressures a structural element can undergo and then apply their knowledge of structure to design an effective solution to overcome specific issues. Download our activity sheet and other teaching resources The activity sheet includes teachers’ notes, useful web links, and links (where appropriate) to the national curriculum in each of the four devolved nations; England, Northern Ireland, Scotland and Wales. All activity sheets and supporting resources are free to download (including the video), and all the documents are fully editable, so you can tailor them to your class’s and your schools’ needs. You can download our classroom lesson plan below. Please do share your highlights with us @IETeducation.
Solar power in space
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Solar power in space

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Investigate the photovoltaic effect and manufacture a simple circuit in this free activity. In this engaging task, students will explore the photovoltaic effect by creating a simple circuit and incorporating it into a product—specifically, a solar-powered version of the well-known jitterbug project called a “solarbug” This activity can serve as a targeted hands-on exercise for subjects like Electronics or Product Design under the umbrella of Design & Technology. Alternatively, it could be included as a component of a study on the application of solar energy in the field of science. Activity: Solar power in space Photovoltaic cells, also known as solar cells, are used as a power source by the James Webb Space Telescope (JWST). This activity is one of a set of STEM resources developed with the theme of the James Webb Space Telescope to support the teaching of Science, Design & Technology, Engineering and Mathematics. The ‘Photovoltaic cells’ scheme of work involves investigating how photovoltaic cells are used and then using this technology to make a series of increasingly complex electronic circuits. What is the James Webb Space Telescope? The James Webb Space Telescope (JWST) is the largest and most powerful telescope ever to be launched into space. It is a monumental leap in space exploration, building on the legacy of the Hubble Space Telescope. The JWST is the next great space science observatory, with a primary mission to unravel the mysteries of the universe. It will address lingering questions and achieve groundbreaking revelations across all fields of astronomy. The JWST is equipped with a suite of cutting-edge instruments that will allow it to study the universe in unprecedented detail. These instruments will help us better understand the Solar System, the formation of stars and planets, and the evolution of galaxies. The JWST is a revolutionary telescope that will blaze new trails in exploration. It is already making headlines with its first images, and it is sure to continue to amaze us for years to come. Suggested learning outcomes By the end of this activity, students will understand how photovoltaic cells work, how they can be used in a circuit and how to make a simple circuit. The engineering context The James Webb Space Telescope uses photovoltaic cells as its power source. Download the free activity sheet! All activity sheets and supporting resources are free to download, and all the documents are fully editable so that you can tailor them to your students and your schools’ needs. The activity sheet includes teacher notes, guidance, helpful web links, and links (where appropriate) to the national curriculum in the four devolved UK nations; England, Northern Ireland, Scotland and Wales. Please share your classroom learning highlights with us @IETeducation
Investigate the James Webb Space Telescope
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Investigate the James Webb Space Telescope

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Examine the materials used on the James Webb Space Telescope in this free activity. In this engaging STEM activity for KS3, we will delve into the groundbreaking technologies used in the construction of the James Webb Space Telescope (JWST), one of humanity’s most impressive space observatories. As budding engineers, students will have the unique opportunity to investigate the engineered materials that make the JWST a marvel of modern engineering. Get ready to uncover the secrets behind the telescope’s incredible capabilities, discover the innovative materials that withstand the harsh conditions of space, and gain a deeper understanding of how scientific ingenuity allows us to peer into the universe’s farthest reaches. Activity: Investigate the James Webb Space Telescope In this activity, students will investigate an engineered material and share the results of their research with the class. This unit has a predominantly design & technology, and engineering focus, although it could be used in science. It could also be used as a main lesson or a research activity to develop an understanding of materials and their properties. What is the James Webb Space Telescope? The James Webb Space Telescope (JWST) is the largest and most powerful telescope ever to be launched into space. It is a monumental leap in space exploration, building on the legacy of the Hubble Space Telescope. The JWST is the next great space science observatory, with a primary mission to unravel the mysteries of the universe. It will address lingering questions and achieve groundbreaking revelations across all fields of astronomy. Suggested learning outcomes By the end of this activity, students will be able to understand that materials can be selected for specific characteristics and purposes, they will be able to identify the properties of materials required for a particular function, and they will be able to explore a range of engineered materials, understanding why they are used. The engineering context The materials students will examine are used in the JWST or aerospace applications. Download the free activity sheet! All activity sheets and supporting resources are free to download, and all the documents are fully editable so that you can tailor them to your students and your schools’ needs. The activity sheet includes teacher notes, guidance, helpful web links, and links (where appropriate) to the national curriculum in the four devolved UK nations; England, Northern Ireland, Scotland and Wales. Please share your classroom learning highlights with us @IETeducation
Daylight hours maths activity
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Daylight hours maths activity

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In this fun maths activity, students will look at the way the length of the day changes over the year. They will use a data sheet to plot a graph, then interpret the data to work out the date of the longest and shortest days of the year in the United Kingdom. A free activity sheet can be downloaded. And please do share your poetry highlights with us @IETeducation! #SantaLovesSTEM
Design a jetpack
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Design a jetpack

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Consider how a jetpack works and sketch an idea for a wearable jetpack In this activity learners will make use of the theme of football on the moon to design a jetpack that can be worn by either the players or referee during a moon football game. They will look at jetpack design and the different parts of a jetpack. They will then sketch an idea for a wearable jetpack for use during the 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 learners looking at jetpack aviation to design a jetpack that the players or referee can use during a game of football on the moon. The teacher will introduce the theme of playing football on the moon and the challenges that would be faced when doing this, before introducing and explaining how a jetpack works. Learners will then have time to go through the design brief and sketch their design ideas before reporting back to the class in an informal style or as part of a formal presentation. This activity can be simplified (particularly for less able students) by providing sentence starters for annotations/labelling of sketches and/or providing templates for learners to draw around, such as images of the referee and players. As an extension learners can make a life size model of the jetpack or design a spacesuit to be work by the players and/or referee. This activity is designed to take between 50-80 minutes. 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? Suggested learning outcomes By the end of this free resource students will be able to design a wearable jetpack for a game of football on the Moon; know the different parts of a jetpack; and understand how jetpacks function and the technology needed to make them work. 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.
Build a communication system for the moon
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Build a communication system for the moon

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Learn about how electronic intercom circuits can help players communicate In this activity students will gain an understanding of how soundwaves travel and are received to allow them to be heard in the ear. Building on students pre-existing knowledge of circuits this activity focusses on how football players on the Moon could communicate to each other using electronics. Students then apply their skill to build an intercom circuit. This resource uses the theme of football on the Moon to allow learners to develop their knowledge and skills in design & technology, mathematics and science. In this activity learners will use the theme of football on the Moon to learn about how electronic intercom circuits can help players communicate. The teacher will introduce the activity and explain how sound waves allow us to hear. The teacher will then discuss the problems communicating on the Moon and explain why an electronic circuit is necessary. Learners will then have the opportunity to manufacture and test their own intercom. This activity can be simplified (particularly for less able students) by placing components onto the PCB/stripboard prior to soldering and/or using helping hands to hold PCB/stripboard in place. As an extension learners can research what methods could be used to make the intercom wireless. This activity is designed to take between 40-60 minutes. Tools/resources required Paper cups and string Sharp pencils and sticky tack Electronic components (see PPt list on slide 7) Soldering irons and stands Helping hands Wire strippers and cutters Lead free solder PCB making kit Tracing paper to print PCB mask Stripboard (see PPt slides 16-18) Stripboard track cutters The engineering context Engineers create and develop communication systems for numerous activities that take place in very different environments. For example, deep sea divers need to communicate underwater and armed forces have to communicate in all weather conditions. Suggested learning outcomes By the end of this free resource students will be able to understand how hearing works translating sound waves; understand how sound waves can travel through string by vibration and wire by electrical signal; and be able to build an intercom circuit. 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.
Explore electrical resistance
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Explore electrical resistance

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Testing the electrical resistivity of different materials In this activity learners will make use of the theme of electrical resistance to experiment with an electronic circuit. They will learn how to use an electronic multimeter and will then apply their skills to test the electrical resistivity of various materials. This activity could be used as a main lesson activity to teach about resistors and their use. It could also be used as part of a wider scheme of learning focussing on the selection of materials for different applications. This is one of a series of resources developed in association with the National Grid ESO, to allow learners to use the theme of electronics to develop their knowledge and skills in Design & Technology and Science. This resource focusses on practical experiments investigating the resistance of different materials. 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 what is meant by resistance and then explain the task to the learners through a series of practical hands-on activities. At the end of the session the teacher will get the learners back together to discuss their findings. This activity can be simplified (particularly for less able students) by setting up the multimeter in advance to the correct range before handing to learners. This activity is designed to take between 45-70 minutes. Tools/resources required Multimeters (digital or analogue) Assorted resistors, including 33kΩ Breadboards Crocodile clips Pencils and paper Glass of water Table salt Selection of materials (for the extension activity) The engineering context Many components, such as integrated circuits, can be damaged by high current. An understanding of resistance allows electrical engineers to select resistors to protect these components, ensuring the effective and continued operation of the electronic devices. Suggested learning outcomes By the end of this free resource students will be able to choose materials based on their resistivity; understand the basics of resistance; and be able to use electronic devices to measure resistance. 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.
Test out Galileo’s gravity experiment
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Test out Galileo’s gravity experiment

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Investigating velocity and acceleration down a slope In this fun STEM activity for kids, learners will discover how to write numbers in hieroglyphics. This free resource is aimed at primary school children and could be used as a main lesson activity, to teach learners about the works of the ancient Egyptians contributing to learning in design and technology, history, and mathematics or as an alternative method of reinforcing learning in basic numeracy. Additionally, this could be used to start a discussion on ancient Egypt or to introduce the concept of people using different languages. It could also be used in conjunction with other activities in this theme, ‘Making Papyrus’ and ‘Write like an Egyptian’. 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 and technology, history, and mathematics. This resource is based on the use of Hieroglyphics for mathematical activities by the Ancient Egyptians. Using hieroglyphic symbols, learners will write down three numbers with values between 1,000 and 10,000,000. They will then swap their numbers with a peer. Can they tell each other the correct values of the numbers? A free presentation for teachers is provided. The presentation includes a slide showing how the ancient Egyptians represented fractions using hieroglyphics, which could be used for extension work. Additionally, learners could write and solve maths problems using hieroglyphics. This practical and engaging activity will test students’ maths abilities as it challenges children to think about the value of numbers, rather than just processing stated values. Tools/resources required A length of channel or guttering A tape measure A protractor A stopwatch The results table A pen or pencil An egg (plastic or boiled or solid) Weighing scales (for extension activity 2 only) The engineering context An understanding of numbers is vital for engineers to solve lots of interesting problems. For example, factories need to know the quantity of materials in order to make their products and farmers need to know how much food to produce. Suggested learning outcomes By the end of this exercise students will know what Hieroglyphics are, they will be able to use Hieroglyphics to represent numbers of values up to 10,000,000 and they will be able to carry out basic numeracy functions. Download the free Galileo’s gravity experiment activity sheets, including teacher notes, presentation and curriculum links along with a bonus wordsearch using words from the activity to enhance learning.
Build a popsicle stick catapult
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Build a popsicle stick catapult

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Develop an understanding of levers and build a popsicle stick catapult from craft sticks with this free STEM lesson plan. This is an exciting and engaging way to learn about physics and engineering. With the right materials, build a simple yet effective catapult capable of launching chocolate eggs up into the air! This lesson plan is perfect for KS3 students and can be used as a fun one-off main activity to introduce levers. This is one of a set of resources designed to allow learners to use Easter themes to develop their knowledge and skills in Design & Technology, Mathematics and Science. This resource involves making a simple catapult which works as a lever to propel a chocolate or mini egg. This activity will take approximately 50 – 70 minutes to complete. Also included is a fun crossword using words from the activity to promote sticking learning. Tools/resources required Craft sticks (at least 7 per learner) Small elastic bands (at least 7 per learner, plus spares) A teaspoon (metal or plastic) Chocolate mini eggs (or similar) For the extension activity: Pencils (or similar, such as dowel rods) Elastic bands The engineering context Levers are one of the simplest machines and are used in many applications. These include pliers, scissors, brake pedals and wheels and axles. The principles of levers are also used in many applications when designing sports equipment, such as cricket bats, golf clubs and hockey sticks. Suggested learning outcomes After completing this Easter themed engineering resource students will be able to describe the three classes of lever and they will be able to make a structure. Download the free Build a popsicle stick catapult 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
Design a sports wheelchair
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Design a sports wheelchair

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Design a sports wheelchair for a Marathon race This activity is focused on the design of racing wheelchairs, but also develops understanding about the use of search engines. It considers the use of different search terms when using internet-based research using search engines and how this affects the outcomes of the search. The main activity involves designing a racing wheelchair considering key aspects to enhance its performance. The first London Marathon wheelchair race took place in 1983 in which 19 people took part with 17 completing the race. The winner, Gordon Perry, set a winning time of just over 3 hours and 20 minutes. With the advancements in engineering and technology since that date, wheelchair racing has come a long way, and in 2021, Marcel Hug won the London Marathon’s men’s wheelchair race setting a new course record with a time of just over 1 hour and 26 minutes! Activity info, teachers’ notes and curriculum links In this activity, learners will use the theme of the London Marathon to respond to a design context, investigate the context on the internet and design a wheelchair for sports use. This activity could be used as a main lesson activity to develop skills in designing. It could also be used to teach learners about how to search the internet effectively to gain the information that is most applicable to their requirements. 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. And please do share your learning highlights and final creations with us on social media @IETeducation or send them via email to IETEducation@theiet.org to be featured in our online gallery. Tools/resources required Pens, pencils and drawing instruments Computer access for internet searching 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.
Wheel materials
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Wheel materials

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Testing materials to see which material is the most suitable for a wheel This resource has been developed with the support of the Bugatti Trust Museum and Study Centre and focuses on testing materials to see which material is the most suitable for a wheel using Engineering and Math’s skills. Ettore Bugatti was the founder and designer of Bugatti sports cars. He was the first designer to use aluminium wheels to decrease the weight of Grand Prix racing cars, designing one of the most successful racing cars in the world. Activity info, teachers’ notes and curriculum links In this activity learners will test various discs made from different materials to see how they perform as a wheel. This activity could be used as a main lesson activity to teach learners about the physical properties of materials or approaches to testing in the context of practical applications. It could also be used as part of an introduction to the practical use of numeracy within engineering. 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. And please do share your learning highlights and final creations with us on social media @IETeducation or send them via email to IETEducation@theiet.org to be featured in our online gallery. Tools/resources required • Discs of material, 140 mm diameter with a 10 mm central hole; for example, steel, aluminium, acrylic, plywood • Metal bar or pipe, 8-10 mm diameter • G clamps or vices • Masking tape • Weights – various, 250 g to 1 kg • Stopwatch • Calculators • Rulers and writing implements • Optional: scales to weigh the discs 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.
Measuring noise
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Measuring noise

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Measuring the amount of noise produced by different activities. In this activity learners will measure noise produced by a range of activities using a sound meter to help them understand how noise is measured and that high noise levels can damage our hearing. This activity could be used as a main lesson activity to teach learners about sound, as part of a scheme of learning covering sound waves and how sound is generated or as part of a wider topic area covering health and safety considerations in the workshop. 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
Hydrogen power
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Hydrogen power

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How to make hydrogen from water. In this activity learners will make use of the theme of the future of flight to investigate one of the potential energy sources of the future. They will discuss the problems associated with the use of oil-based fuels and how the use of hydrogen fuels could solve them. They will then produce hydrogen from water and investigate ways to make it work better. This activity could be used as a main lesson to teach about power supplies and renewable energy within a transport context. It could also be used as part of a wider scheme of learning to teach about sustainability and environmental issues. 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
How high will it go?
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How high will it go?

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Find the height achieved by a flying object using trigonometry. In this activity learners will work out the height of a released balloon using a clinometer and trigonometry. This is one of a series of resources designed to allow learners to use the theme of the future of flight to develop their knowledge and skills in in Design and Technology, Engineering and Mathematics. This activity could be used as a main lesson activity to teach learners about the practical application of trigonometry. It could also be used as part of an introduction to the use of trigonometry within engineering. You will need: Thin card Balloons Balloon pump, if required Brass split pin paper fasteners Scissors Sharp pencils and erasers Calculators Tape measure 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
Flying high
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Flying high

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Calculating the amount of energy needed to launch a rocket into space. In this activity learners will make use of the theme of the future of flight to calculate the amount of energy needed to launch a space rocket. They will discuss the meaning of the term escape velocity and then perform calculations based on the Space X and Saturn V rockets. 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
Make a water mill that generates electricity
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Make a water mill that generates electricity

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Create a water mill to produce electricity and power an LED In this exciting activity for primary students, kids will understand what is meant by, and the need for, renewable energy. They will make and test a water mill that produces enough electricity to light an LED and learn how water wheels work. This engineering activity will show students how electricity can be generated using the power of moving water and teach students facts about how the ancient Greeks have affected modern life. Resources for teachers are provided. And please do share your classroom learning highlights with us @IETeducation
Measure time with a water clock
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Measure time with a water clock

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Make a water clock to measures time In this fun activity for kids, students will learn how water can measure time using principles from ancient Greece. They will then create a Greek water clock that can be used to measure a set period. This activity will test students’ maths abilities and teach them historical facts about ancient Greece. Resources are provided for teachers. And please do share your classroom learning highlights with us @IETeducation
Static electricity experiment (KS2)
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Static electricity experiment (KS2)

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Using static electricity to make tissue paper cats ‘pounce’ onto a balloon 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 maths and science. This resource focuses on making tissue paper cats ‘pounce’ and stick to a balloon through the build-up of static electricity. This activity could be used as a main activity to introduce the concept of static electricity, or as one of several activities within a wider scheme of learning focusing on electricity and its uses. Learners will first cut their tissue paper into small cat shapes. They could use different coloured tissue paper to make different coloured cats for more visual interest. Learners will then blow up and tie their balloons. The balloon should be blown up fully and tied so that no air can escape. If learners struggle to do this, the teacher could complete this step in advance. Alternatively, clips could be provided to seal the balloons. Learners will rub their balloon against their jumper several times to ‘charge’ it with static electricity. Following this, they can hold their balloon just above their tissue paper cat shapes. The cats should ‘pounce’ onto the balloon and stick to it. Why do you think the cats ‘pounce’ and stick to the balloon? How close does the balloon need to be for the cats to pounce? What is causing this to happen? This activity will take approximately 30-50 minutes to complete. Tools/resources required Balloons Tissue paper Scissors The engineering context Engineers use knowledge of science concepts in their everyday work to ensure they produce solutions that are safe, functional and meet the needs of their clients. A good grasp of basic concepts, such as how electricity and static electricity works, is therefore very important. Electrical engineers use their knowledge of how electricity works to develop new electrical products and systems. Suggested learning outcomes By the end of this activity students will have an understanding of the causes and effects of static electricity, they will understand how to use a balloon and a jumper to create static electricity and they will know that static electricity can be used to make paper stick to a balloon. Download the Static electricity experiment activity sheets for free! All activity sheets, worksheets 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
Balloon speakers
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Balloon speakers

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In this simple STEM activity for kids learners will investigate how a balloon can be used as a simple speaker. They will blow up the balloon, tap it and listen to how to sounds travel through it. They will then discuss the outcome of their experiment and explain why the balloon speaker works in the way that it does. This activity could be used as a starter activity to introduce the concept of sound and how it travels, or as one of several activities within a wider scheme of learning focusing on sound. Activity: Balloon speakers This is one of a set of free 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 using a balloon as a simple speaker to amplify sound. What happens when you tap the balloon? What can you hear and feel? Why do you think this is happening? This is a quick and easy STEM activity that will take approximately 15 – 20 minutes. The engineering context Engineers must understand how speakers work in order to successfully design products that use them, such as phones, music players and TVs. Sound engineers must understand how sound can be amplified and transmitted from one place to another. For example, at a concert. Understanding how speakers work is a very important part of this. Suggested learning outcomes By the end of this exercise students will know that vibrations from sounds travel through a medium in the ear. They will also be able to use a balloon as a simple speaker and explain how it works. Lastly, they will understand how pushing air closely together affects the volume of sound travelling through it. Download the Balloon speakers 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. Please share your classroom learning highlights with us @IETeducation
Shadow puppet experiment
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Shadow puppet experiment

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This fun STEM resource focuses on making shadow puppets while nurturing an understanding of the relationship between light and shadow. We’ve created this shadow puppet experiment to support the teaching of key topics within design and technology (D&T) and science as part of the primary national curriculum at key stage 2 (KS2). This resource focuses on making shadow puppets and developing supporting knowledge about the relationship between light and shadow. This could be used as a one-off activity in D&T or science or linked with the IET primary activity ‘How does the light from a torch change with distance?’, which involves measuring how the distribution of light varies with distance from the light source. It could also be used in conjunction with learning in literacy – for example, creating puppets to perform a story being studied. Activity: Making shadow puppets Learners will make a shadow puppet using card, craft sticks and sticky tape. This not only makes learning about shadow puppets fun but also fosters creativity and storytelling skills among learners at the KS2 level. Tools/supplies needed: Card (photocopies of handouts, if used) Masking tape Craft sticks Tracing paper (for screen) Large boxes (for extension activity) Scissors Torches The Engineering Context Engineers often have to consider how light behaves when designing products for practical applications. For instance, the positioning of windows and artificial lighting in buildings, or the power and placement of lights and mirrors in vehicles, are all influenced by an understanding of light and shadow. This activity will give learners an insight into these considerations. Suggested learning outcomes Light is a type of electromagnetic radiation. Visible light is the range of the electromagnetic spectrum that can be seen with a human eye. Light’s brightness, or intensity, is typically measured as the power per unit area. Any object that blocks the path of light causes a shadow. This activity therefore offers a blend of scientific learning, practical skills, and creative expression, making it a comprehensive educational experience. Specifically, children will learn that blocking the path of light causes a shadow, and they’ll be able to use scissors to make a graphic product. Download our activity sheet and other teaching resources 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 teachers’ notes, useful web links, and links (where appropriate) to the national curriculum in each of the four devolved nations; England, Northern Ireland, Scotland and Wales. Please do share your highlights with us @IETeducation.