Computing KS3: Safety and signalling is a resource in which students will consider how technology and people interact. Students will learn about signalling movement and giving warning with light and sound. Students will use code to control their robot car’s LEDs and buzzer to produce lights and sounds for a variety of different scenarios. Finally, they will discuss the other sensors and signals they think would be useful for their robots and an autonomous vehicle in real life. This is a single lesson fromt he Computing KS3 unit. Computing KS3 is a computing and robotics education programme based on driverless car technologies. Students will develop their ability to code as well as their design thinking as they tackle smart city challenges. Through a series of nine lessons, students will learn about aspects of making, programming and design thinking as they build and program their own robot cars. They will work in teams to tackle coding challenges based on the actual problems that engineers are faced with in designing autonomous vehicles. In a final design challenge, students will need to work on not only the technical aspects of driverless cars, but also how they can improve lives and create smarter and safer communities. All lesson resources are found here: https://encounteredu.com/teachers/units/code-smart-11-14"

Computing KS2: Mapping and robotic cars will teach students about obstacles and sensors. Students will discuss the risks that a smart city presents, focusing on the challenges that an autonomous vehicle faces while navigating in the real world. They will then learn about the ultrasonic sensor on board the mBot and how to use it to avoid obstacles. Finally, they will think about how driving speed can influence a vehicle’s ability to react to obstacles. This is a lesson from the Computing KS2 unit. Computing KS2 is a computing and robotics education programme based on driverless car technologies. Students will develop their ability to code as well as their design thinking as they tackle smart city challenges. Through a series of nine lessons, students will learn about aspects of making, programming and design thinking as they build and program their own robot cars. They will work in teams to tackle coding challenges based on the actual problems that engineers are faced with in designing autonomous vehicles. In a final design challenge, students will need to work on not only the technical aspects of driverless cars, but also how they can improve lives and create smarter and safer communities. All lesson resources are found here: https://encounteredu.com/teachers/units/code-smart-7-11

Computing KS2: Controlling cars with code gets the students to firstly think about and discuss how programming a car compares to programming a standard computer. Following this, students will work in groups to programme the robot to drive in different shapes around the classroom. This is a lesson from the Computing KS2 unit. Computing KS2 is a computing and robotics education programme based on driverless car technologies. Students will develop their ability to code as well as their design thinking as they tackle smart city challenges. Through a series of nine lessons, students will learn about aspects of making, programming and design thinking as they build and program their own robot cars. They will work in teams to tackle coding challenges based on the actual problems that engineers are faced with in designing autonomous vehicles. In a final design challenge, students will need to work on not only the technical aspects of driverless cars, but also how they can improve lives and create smarter and safer communities. All lesson resources are found here: https://encounteredu.com/teachers/units/code-smart-7-11

This is the first lesson in a full unit (Biodiversity Science GCSE Coral Reefs) using the coral reef as a new context for applying concepts of biodiversity, human impacts and conservation. The ‘Why is coral reef biodiversity important?’ lesson covers the importance of coral reefs, the so called ‘rain forests of the sea’, to a local community in Timor-Leste. Students develop their understanding of mutualism, biodiversity and how it is useful and important to us and the Earth as a whole. Multimedia content and other information can be found at: https://encounteredu.com/teachers/units/coral-oceans-science-14-16

Coral Oceans 14-16 Geography delivers a comprehensive understanding of coral reefs. Through the use of our exclusive galleries, videos and online resources, students will develop their knowledge and understanding of what coral reefs are, why they are important and how to protect them. The unit includes challenging lessons on abiotic components such as the nutrient cycle and biotic factors such as food chains. To experience the full impact of this scheme of work it can be taught in advance of our annual Coral Live event. Live lessons can be booked for free here: https://encounteredu.com/live

The scientists provide an insight into field sampling techniques. Join a microplastics research team as they explain how to identify a research survey site and how to ensure that any samples collected can be used as valid data. This full lesson includes: Student Sheet Video 2 Student Sheet Video reflection This video lesson can be used as part of Lesson 4 of the Plankton, Plastics & Poo unit. There are also opportunities to use a flipped approach to learning, setting the video lesson as pre-work before the topic is taught or as home learning to provide reinforcement of factual knowledge or to encourage further reflection. All lessons and resources are available from Encounter Edu’s TES profile.

Computing KS2: Design our smart city pt.2 is part two of the Design Thinking Workshop. This lesson sees your class use an ideas funnel to select and refine ideas from the brainstorming activity in in part one. Each group will then prototype one of the ideas using the hardware and software skills they have learned with the mBot in lessons 1-6. This is a lesson from the Computing KS2 unit. Computing KS2 is a computing and robotics education programme based on driverless car technologies. Students will develop their ability to code as well as their design thinking as they tackle smart city challenges. Through a series of nine lessons, students will learn about aspects of making, programming and design thinking as they build and program their own robot cars. They will work in teams to tackle coding challenges based on the actual problems that engineers are faced with in designing autonomous vehicles. In a final design challenge, students will need to work on not only the technical aspects of driverless cars, but also how they can improve lives and create smarter and safer communities. All lesson resources are found here: https://encounteredu.com/teachers/units/code-smart-7-11

This lesson introduces students to the range of life on the reef. Starting off by learning to name and identify different species, students will then sort these into different groups and start to use classification keys. This is a single lesson from the unit Coral Oceans 7-11. This science-based unit uses the stunning imagery and 360 media from the XL Catlin Seaview Survey and covers several of the main concepts for students studying living things at upper elementary level. The unit can be used as a standalone primer for students, using a new and exciting context of corals, clownfish and sharks, or as a comparative study to the local environment. Students work through a series of connected lessons to develop their understanding of: habitats and how they provide the basic needs of plants and animals identification, classification and the use of keys life cycles, anatomy and sexual reproduction how animals obtain their food using the idea of food chains how animals and plants are adapted to their environment human impact on the environment Access the full unit’s resources here: https://encounteredu.com/teachers/units/coral-oceans-science-7-11

This lesson introduces students to the wonders of the coral reef and the adventures of the XL Catlin Seaview Survey. In this first lesson, students will embark on their journey to become coral explorers, finding out where coral reefs can be found, and learning from the experiences of scientists and the expedition team. They will then take part in their first virtual dive. This lesson provides the platform for further scientific discovery through the rest of the unit.

This lesson will be spent with students completing the assessment, which will include a variety of tasks such as exam questions and some skills-based questions such as finishing graphs. This lesson is from the Coral Oceans Geograpy 14-16 unit. You can access the unit here: https://encounteredu.com/teachers/units/coral-oceans-geography-14-16 The unit delivers a comprehensive understanding of coral reefs. Through the use of our exclusive galleries, videos and online resources, students will develop their knowledge and understanding of what coral reefs are, why they are important and how to protect them. The unit includes challenging lessons on abiotic components such as the nutrient cycle and biotic factors such as food chains. To experience the full impact of this scheme of work it can be taught in advance of our annual Coral Live event. Live lessons can be booked for free here: https://encounteredu.com/live

This lesson will look at the impacts of coral reef destruction, categorising those impacts. We discover the impacts to different stake holders in Timor-Leste through watching videos. Students will then write a letter to their local MP informing them of the threats the coral reefs are facing and why they need protection. This lesson is from the Coral Oceans Geograpy 14-16 unit. You can access the unit here: https://encounteredu.com/teachers/units/coral-oceans-geography-14-16 The unit delivers a comprehensive understanding of coral reefs. Through the use of our exclusive galleries, videos and online resources, students will develop their knowledge and understanding of what coral reefs are, why they are important and how to protect them. The unit includes challenging lessons on abiotic components such as the nutrient cycle and biotic factors such as food chains. To experience the full impact of this scheme of work it can be taught in advance of our annual Coral Live event. Live lessons can be booked for free here: https://encounteredu.com/live

Plastics: what are they? Part two is a Key Stage 2 (KS2) lesson. In this lesson students discover some of the incredible uses for plastic i.e. medical science and space exploration and reflect on why single-use plastics have become unpopular. Students examine data from a sample of litter collected on Henderson Island. They go on to consider where the plastic litter could have come from and create a bar graph representing this data. Ocean Plastics 7-11 is a Key Stage 2 (KS2) cross-curricular unit of work encompassing science and geography which also develops skills in mathematics, citizenship and spoken language. The unit addresses four key questions; what are plastics, where are plastics, what impact can plastics have and what can I do? These questions are answered by developing students understanding of properties of materials, living things, habitats and human and physical geography. The unit explores the pros and cons of a variety of plastic products, investigates how plastic finds its way to the ocean and looks at what changes can be made on a local and global scale. Students understand the complex issues surrounding oceans plastics through this units optimistic and innovative approach to challenging attitudes and behaviour. Get the whole unit resources here: https://encounteredu.com/teachers/units/ocean-plastics-x-curric-7-11

Plastics: what are they? is a Key Stage 1 (KS1) lesson. This lesson introduces students to a range of materials and allows them to compare and describe their properties. Students develop their understanding of what is meant by materials and discover four in particular; wood, metal, glass and plastic. They then discover why certain materials are chosen to make different products. Focussing on plastic, students explore the variety of items which are made from or contain plastic. They then conduct and investigation to find out which material is the most effective at waterproofing. This is a single lesson of the Ocean Plastics 5-7 unit. Ocean Plastics 5-7 is a Key Stage 1 (KS1) cross-curricular introduction to materials and their properties, which focusses on plastic and its abundance. Students discover how many everyday products are made from or contain plastic, understanding its versatility and resilience. They go on to discover what happens to rubbish after it’s thrown away and explore recycling, landfill and litter. Students find out how detrimental plastic is to marine life and create posters and models encouraging friends and family to recycle and reduce the amount of plastic they use. This unit encourages proactive and positive behaviours, for all our futures. Get the whole unit resources here: https://encounteredu.com/teachers/units/ocean-plastics-x-curric-5-7

Our ocean and us KS4 is a resource for year 9, year 10, and year 11 students. In this lesson students learn about the concept of ecosystem goods and services, following this they will answer GCSE style exam questions which they will peer assess, reflecting on how dependent we are on the ocean. This is one of three lessons in the Oceans for beginners X-Curric 14-16 unit. Ocean for beginners X-Curric 14-16 is a Key Stage 4 (KS4) resource. The lessons build on prior knowledge of oceans and the species and habitats it encompasses. Students explore ecosystem goods and services and answer GCSE style questions reflecting on how we use the oceans. The unit then reviews what is meant by ocean plastics pollution and encourages students to critically appraise information from different media sources. Students then go on to consider careers in this field by evaluating the work of an ‘Ocean hero’. At the end of these three lessons students will be fully prepared to embark on the full Key Stage 4 unit - Ocean Plastics 14-16. Get the full unit resources here: https://encounteredu.com/teachers/units/oceans-for-beginners-x-curric-14-16

This is the third lesson in the eight lesson Global Climate and Renewable Energy unit for KS4 and GCSE. This is a lesson for higher level students, developing knowledge of climate modelling and accessing information in an academic journal article on the impact of climate on renewable energy production. The HIWAVES research team wrote an academic paper investigating the impact of predicted climate on renewable energy production. This lesson looks at how the research team used climate models as part of their work and then focuses on the academic journal article written by the team and supports students to access information from this level of research output. The unit provides a robust understanding of the latest findings promoting climate literacy, while being curriculum-aligned to GCSE exam body specifications, equipping students with the knowledge and skills to tackle challenges of the future. The unit and its associated activities and multimedia can also be accessed on the Encounter Edu website.

This is the second lesson in the eight lesson Global Climate and Renewable Energy unit for KS4 and GCSE. This lesson focuses on using isobar maps and satellite images of NW Europe to predict and explain weather conditions. In this lesson students will use all their knowledge of weather systems, and use a variety of satellite maps of Northwestern Europe to predict the weather for the next day. Students will then go on to use satellite images to describe the weather of Northwestern Europe and explain what has caused this weather and what conditions would be expected as a result of what is shown on the satellite images. The unit provides a robust understanding of the latest findings promoting climate literacy, while being curriculum-aligned to GCSE exam body specifications, equipping students with the knowledge and skills to tackle challenges of the future. The unit and its associated activities and multimedia can also be accessed on the Encounter Edu website.

In this lesson you will look at the different strategies implemented in places across the globe and the main strategy used in Timor-Leste. Students will be assessing the need for the mitigating strategies such as the MPA in Timor-Leste but also evaluating the strategies. This lesson is from the Coral Oceans Geograpy 14-16 unit. You can access the unit here: https://encounteredu.com/teachers/units/coral-oceans-geography-14-16 The unit delivers a comprehensive understanding of coral reefs. Through the use of our exclusive galleries, videos and online resources, students will develop their knowledge and understanding of what coral reefs are, why they are important and how to protect them. The unit includes challenging lessons on abiotic components such as the nutrient cycle and biotic factors such as food chains. To experience the full impact of this scheme of work it can be taught in advance of our annual Coral Live event. Live lessons can be booked for free here: https://encounteredu.com/live

This lesson introduces Timor-Leste, the case study for this scheme of work and coral reefs. Students will locate Timor-Leste and other important coral reefs on a map. They will also learn what conditions are needed for a coral reef to grow and the global distribution of coral reefs. This lesson is from the Coral Oceans Geograpy 14-16 unit. You can access the unit here: https://encounteredu.com/teachers/units/coral-oceans-geography-14-16 The unit delivers a comprehensive understanding of coral reefs. Through the use of our exclusive galleries, videos and online resources, students will develop their knowledge and understanding of what coral reefs are, why they are important and how to protect them. The unit includes challenging lessons on abiotic components such as the nutrient cycle and biotic factors such as food chains. To experience the full impact of this scheme of work it can be taught in advance of our annual Coral Live event. Live lessons can be booked for free here: https://encounteredu.com/live

Computing KS3: Mapping and robotic cars will teach students about obstacles and sensors. Students will discuss the risks that a smart city presents, focusing on the challenges that an autonomous vehicle faces while navigating in the real world. Following on, students will then learn about the ultrasonic sensor on board the mBot and how to use it to avoid obstacles. Finally, they will think about how driving speed can influence a vehicle’s ability to react to obstacles. This is a single lesson fromt he Computing KS3 unit. Computing KS3 is a computing and robotics education programme based on driverless car technologies. Students will develop their ability to code as well as their design thinking as they tackle smart city challenges. Through a series of nine lessons, students will learn about aspects of making, programming and design thinking as they build and program their own robot cars. They will work in teams to tackle coding challenges based on the actual problems that engineers are faced with in designing autonomous vehicles. In a final design challenge, students will need to work on not only the technical aspects of driverless cars, but also how they can improve lives and create smarter and safer communities. All lesson resources are found here: https://encounteredu.com/teachers/units/code-smart-11-14

Computing KS3: Controlling cars with code gets the students to firstly think about and discuss how programming a car compares to programming a standard computer. Following this, students will work in groups to programme the robot to drive in different shapes around the classroom. This is a single lesson fromt he Computing KS3 unit. Computing KS3 is a computing and robotics education programme based on driverless car technologies. Students will develop their ability to code as well as their design thinking as they tackle smart city challenges. Through a series of nine lessons, students will learn about aspects of making, programming and design thinking as they build and program their own robot cars. They will work in teams to tackle coding challenges based on the actual problems that engineers are faced with in designing autonomous vehicles. In a final design challenge, students will need to work on not only the technical aspects of driverless cars, but also how they can improve lives and create smarter and safer communities. All lesson resources are found here: https://encounteredu.com/teachers/units/code-smart-11-14"