This #GoogleExpeditions lesson develops student skills in human anatomy. Journey inside the human ear to develop students’ understanding of the workings of the middle and inner ear. Google Expeditions are immersive 360 degree photo stories designed for use in the classroom. For more see: https://www.google.com/edu/expeditions/. This is Google Expeditions Lesson is number 2 of a 4 lesson sequence. It can be used as a standalone lesson or in conjunction with others listed below (links go to Google Docs versions of the lessons). Lesson 1: Google Expeditions: Auditory System – Sound waves & The Outer Ear https://goo.gl/y5jukV Lesson 2: Google Expeditions: Auditory System – Middle & Inner Ear https://goo.gl/RbUlQs Lesson 3: Google Expeditions: Auditory System – Ear & Balance https://goo.gl/xl5mJ3 Lesson 4: Google Expeditions: Auditory System – Ear & Disease https://goo.gl/TKj9Om

Students work scientifically by writing a method to test a hypothesis and then practise this in an exam setting. The context of the lesson is Dr Ceri Lewis’ work into the impact of ocean acidification on copepods; a type of zooplankton with calcium carbonate shells. The lesson builds on students’ prior knowledge of the environmental impact of anthropogenic CO2 production. This full lesson contains: Slideshow 2 How does ocean acidification affect organisms? Lesson Overview and Teacher Guidance Activity Overview 2 Investigating how ocean acidification affects organisms with shells Student Sheet 2a Investigating how ocean acidification affects organisms with shells Subject Update 1 Ocean acidification Six enquiry-based lessons introducing ocean science concepts for ages 11-14. These lessons and activities are full of practical ideas to bring carbonate chemistry and marine biology to the science classroom. All lessons demonstrate science at work and are based on recent research conducted in the Arctic. Designed to be used in conjunction with the Encounter Edu Discovery Zone. All lessons and resources are available from Encounter Edu’s TES profile.

In this biology Key Stage 3 (KS3) lesson, students will learn about plastics and bioaccumulation. This lesson is focused on how chemical pollutants cause harm to marine organisms. Included are teacher resources to model bioaccumulation and an orca case study. This is a single lesson in the Ocean Plastic Science Unit. Ocean Plastics Science is a Key Stage 3 (KS3) resource combining both biology and chemistry. Students are taken on the journey of plastic. Exploring how plastics are manufactured, used, and disposed into the ocean. Students will learn the science behind what makes plastics both brilliant for everyday purposes and devastating to our oceans and marine life. Included in this topic are teacher resources that promote students to conduct authentic research, emulating research conducted by The University of Plymouth. Students will test the properties of plastics, investigate compostable alternatives, and analyse case studies to discover how plastics can physically and chemically harm marine life. If you liked this resource, please rate and review below. This will help to promote oceans education in schools worldwide.

This is the second in a six lesson unit, Submarine Science KS3. This lesson encourages students to investigate hands-on the property of neutral buoyancy, and to discuss its importance in terms of submarines.This lesson is from the Submarine STEM Science 11-14 unit. You can access the unit here: https://encounteredu.com/teacher-resources/submarine-stem-science-ages-11-14 This unit is based on the real life submersible exploration of the XL Caitlin Deep Ocean Survey off Bermuda, the Sargasso Sea. It provides students the opportunity to apply science, engineering, and design princples. To experience the full impact of this scheme of work it can be taught in advance of our annual Submarine Live event. Live lessons can be booked for free here: https://encounteredu.com/live

This is the first in a six lesson unit, Submarine Science KS3. This lesson is based on forces through a practical investigation to discover a suitable shape that can dive and rise at a speed safe enough for the scientists inside the submarine. Students develop their understanding of forces, surface area, and fair testing. This lesson is from the Submarine STEM Science 11-14 unit. You can access the unit here: https://encounteredu.com/teacher-resources/submarine-stem-science-ages-11-14 This unit is based on the real life submersible exploration of the XL Caitlin Deep Ocean Survey off Bermuda, the Sargasso Sea. It provides students the opportunity to apply science, engineering, and design principles. To experience the full impact of this scheme of work it can be taught in advance of our annual Submarine Live event. Live lessons can be booked for free here: https://encounteredu.com/live

Knowledge organiser covering the carbon cycle and climate change. This includes the following sections: Carbon cycle processes Where is the carbon? Climate change key words How has human activity changed where carbon is located? The greenhouse effect Climate change over time Atmospheric CO2 over time Evidence for climate change

Different species have adapted to life on the coral reef in amazing and diverse ways. From sleeping in mucus bubbles, to flexible snakelike skeletons, life on the reef has had to find ingenious methods to find food and stay alive. The reef is also host to numerous examples of symbiosis and finding food and safety in the strangest of places, whether that be in a shark’s mouth or ‘vacuuming’ the sandy seabed. In this lesson, students are challenged to create the ultimate reef organism. This is a single lesson from the Coral Oceans Science KS3 unit. The lesson plans and accompanying activities are designed to introduce classes to what it is like to be an ocean explorer. Each lesson is designed around a ‘dive’ to investigate a particular science topic. These include identification, classification, food webs and symbiosis, adaptation and human impacts on the environment. The enquiry-based resources incorporate the scientists’ experiences and research, and enable students to explore marine life on the reef and the threats facing it. Access the other lessons in this unit here: https://encounteredu.com/teachers/units/coral-oceans-science-11-14

This lesson explores the technology required to explore deep reefs and considers how water pressure poses additional challenges to scientists exploring the ‘twilight zone’ through a teacher led demonstration. Students consider the human context of deep reef exploration through reading a blogpost written by Norbert Englebert a member of the deep reef team. Students conduct an experiment to test whether the colour of coral affects the amount of light it absorbs. This is a single lesson from the Coral Oceans Science KS3 unit. The lesson plans and accompanying activities are designed to introduce classes to what it is like to be an ocean explorer. Each lesson is designed around a ‘dive’ to investigate a particular science topic. These include identification, classification, food webs and symbiosis, adaptation and human impacts on the environment.The enquiry-based resources incorporate the scientists’ experiences and research, and enable students to explore marine life on the reef and the threats facing it. Access the other lessons in this unit here: https://encounteredu.com/teachers/units/coral-oceans-science-11-14

Throughout this lesson students explore underwater habitats and begin to understand the importance of the XL Catlin Seaview Survey. Students consider why exploration of this kind can be challenging for humans and learn dive signs so they can communicate on their virtual dive. During the virtual dive students use 360 virtual reality to explore this dynamic environment, identifying some of the species that live there. Students go on to classify these species and record the findings of their first dive. This is a single lesson from the Coral Oceans Science KS3 unit. The lesson plans and accompanying activities are designed to introduce classes to what it is like to be an ocean explorer. Each lesson is designed around a ‘dive’ to investigate a particular science topic. These include identification, classification, food webs and symbiosis, adaptation and human impacts on the environment. The enquiry-based resources incorporate the scientists’ experiences and research, and enable students to explore marine life on the reef and the threats facing it. Access the other lessons in this unit on EncounterEdu here: https://encounteredu.com/teachers/units/coral-oceans-science-11-14

Plastic, Plankton and Poo is a science Key Stage 4 unit of work, this video lesson can be used as part of Lesson 7. In this lesson the science team explain the societal importance of their work and how their research can be used by policy- makers, community organisations and wider society. This full lesson includes: Student Sheet Video 4 Student Sheet Video reflection The video can be used as a stimulus to a larger discussion about the impact of plastics on the environment and how science can help inform decisions about the future use of plastic. 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.

This is the third 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 ‘How can humans indirectly threaten coral reefs?’ lesson focuses on the indirect threats to coral reefs such as climate change. Climate change causes sea temperatures to increase, which subsequently causes coral bleaching to occur. Students will explore indirect threats through a range of experiments such as the activity Ocean Acidification in a cup. It is important in this lesson that students consider how the actions of people around the world are affecting the coral reefs located near Com. Multimedia content and other information can be found at: https://encounteredu.com/teachers/units/coral-oceans-science-14-16

Introducing the issue of marine plastics and their impact on the ocean ecosystem, this video looks at how scientists investigate environmental issues and the potential impact of human actions. Students will also be able to relate existing knowledge of the carbon cycle, food webs and human impacts on the environment to the work of a professional research group. This full lesson includes: Student Sheet Video 1 Student Sheet Video reflection This video lesson can be used as part of Lessons 1 or 6 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.

Students work scientifically by developing and using a model (a food web) to formulate hypotheses. The context of the lesson is Dr Ceri Lewis’ investigating how ocean acidification might affect the plankton at low trophic levels and the cascade effects at higher levels. The lesson builds on students’ prior knowledge of interdependence. This full lesson contains: Slideshow 3: How does ocean acidification affect communities? Lesson Overview and Teacher Guidance Student Sheet 3a: Arctic food webs Student Sheet 3b: Arctic organisms Subject Update 1: Ocean acidification Subject Update 3: Trophic cascades Six enquiry-based lessons introducing ocean science concepts for ages 11-14. These lessons and activities are full of practical ideas to bring carbonate chemistry and marine biology to the science classroom. All lessons demonstrate science at work and are based on recent research conducted in the Arctic. Designed to be used in conjunction with the Encounter Edu Discovery Zone. All lessons and resources are available from Encounter Edu’s TES profile.

Ocean Plastics Science is a Key Stage 3 (KS3) resource combining both biology and chemistry. Students are taken on the journey of plastic. Exploring how plastics are manufactured, used, and disposed into the ocean. Students will learn the science behind what makes plastics both brilliant for everyday purposes and devastating to our oceans and marine life. Included in this topic are teacher resources that promote students to conduct authentic research, emulating research conducted by The University of Plymouth. Students will test the properties of plastics, investigate compostable alternatives, and analyse case studies to discover how plastics can physically and chemically harm marine life. https://encounteredu.com/teachers/units/ocean-plastics-science-11-14 If you liked this resource, please rate and review below. This will help to promote oceans education in schools worldwide.

In this biology Key Stage 3 (KS3) lesson, students learn how plastics affect the marine environment. This lesson is focuses on the physical harm caused by plastics to marine organisms. Included are teacher resources that promote students to become advocates for reducing plastic waste to protect our oceans. This is a single lesson from the Ocean Plastics Science unit. Ocean Plastics Science is a Key Stage 3 (KS3) resource combining both biology and chemistry. Students are taken on the journey of plastic. Exploring how plastics are manufactured, used, and disposed into the ocean. Students will learn the science behind what makes plastics both brilliant for everyday purposes and devastating to our oceans and marine life. Included in this topic are teacher resources that promote students to conduct authentic research, emulating research conducted by The University of Plymouth. Students will test the properties of plastics, investigate compostable alternatives, and analyse case studies to discover how plastics can physically and chemically harm marine life. If you liked this resource, please rate and review below. This will help to promote oceans education in schools worldwide.

This lesson reviews students’ knowledge about the carbon cycle within the context of the study of ecosystems for GSCE Science (Biology) and Geography, as well as the changing composition of the Earth’s atmosphere for GCSE Science (Chemistry). It covers the carbon cycle and major carbon stores and fluxes. The lesson combines a digital interactive carbon cycle diagram to reinforce knowledge of the processes in the carbon cycle, with a hands-on activity to introduce students to the size of the major carbon stores and fluxes. Exam style questions and a knowledge organiser provide a good revision focus. Learning outcomes Review basic processes in the carbon cycle Develop fuller understanding of the carbon cycle Compare the sizes of the major carbon stores Demonstrate their understanding of carbon fluxes and how changes have contributed to climate change

This activity focuses on the processes in the global carbon cycle. It can be played individually or in small groups of two to four. Each player will move their counter around the board using the instructions. Players will use a dice to see how their carbon counter will move around the different stores in the carbon cycle.

This is the sixth in a six lesson unit, Submarine Science KS3. This lesson investigates the life support systems needed to keep scientists and explorers alive. Students will conduct an investigation into how limewater can reduce the amount of carbon dioxide in an atmosphere. This lesson is from the Submarine STEM Science 11-14 unit. You can access the unit here: https://encounteredu.com/teacher-resources/submarine-stem-science-ages-11-14 This unit is based on the real life submersible exploration of the XL Caitlin Deep Ocean Survey off Bermuda, the Sargasso Sea. It provides students the opportunity to apply science, engineering, and design princples. To experience the full impact of this scheme of work it can be taught in advance of our annual Submarine Live event. Live lessons can be booked for free here: https://encounteredu.com/live

This lesson is part of the Key Stage 4 (KS4) science unit, Plastic, Plankton and Poo. In this lesson students work scientifically to explain the importance of zooplankton in the marine carbon cycle. Students will learn the importance of zooplankton as primary consumers in the community and as part of the marine biological pump in the global carbon cycle. This full lesson includes: Lesson Overview & Teacher Guidance Slideshow 1 Why should we care about zooplankton? Student Sheet 1a The importance of zooplankton Mark scheme for Student Sheet 1a Subject Update Copepods Subject Update The marine carbon cycle This is Lesson 1 of 7 in the Plankton, Plastics and Poo unit of work, which is based on current research being conducted at the University of Exeter and Plymouth Marine Laboratory. The unit consists of enquiry-based lessons which support students to work scientifically by simulating the researchers’ investigations, and encourages students to the use their findings to have a wider impact. The resource uses innovative methods to bring cutting edge science to the classroom, including: - Using real field and laboratory data. - Practical investigations that replicate the work of the scientists. - Using social media to connect with the scientists. - The opportunity to connect with scientists through Skype in the classroom events.

This is the fourth 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 ‘Which coral reefs should we protect?’ lesson develops students knowledge and understanding of how to complete a transect, how to use this information to investigate the impact of abiotic factors on distribution and abundance of biodiversity on coral reefs. The rest of the unit can be found here: https://encounteredu.com/teachers/units/coral-oceans-science-14-16