This resource is a the first of a set of five lesson plans with STEM activities based around a group of 10-12 year olds, wanting to get their ‘wings’ from Flight School, by completing activities on forces associated with flight. This first session teaches the FORCE DRAG. Other sessions involve LIFT, THRUST, WEIGHT), and the fifth AEROPLANE pulls together all the learning. The sixth section contains the learner self-evaluation and learning log which has also been included in this bundle. This is the first on the force drag. By the end of the lesson the goal is that students will have a clear understanding of drag and how the parachute causes a falling object to slow down, they will also be able to show their understanding in the log book that records their learning by labelling the arrows representing drag in the ‘Parachute section.’ This bundle includes: extensive teacher notes bundle includes pdf and editable versions of the following: • Teaching Notes - contents for each lesson includes: • Science behind the lesson • Materials best for the session • Parachute shapes • Plenary responses • List of resources specific for this lesson. Main Lesson Plan (as a PowerPoint Resource) • Learning goals • Overview • Set Up • Task • Plenary and Feedback Flight School has been created as a teaching resource for the City of Edinburgh Council’s ‘Curiosity Club’, an Intervention Strategy initiative that is currently operating in Council schools. A learner self-evaluation and learning log makes up the sixth section and this has been added to each section for ease of use. Learning outcomes in the Curriculum for Excellence and associated benchmark SCN 2-07a: By investigating how friction, including air resistance, affects motion, I can suggest ways to improve efficiency in moving objects. TCH 2-04a: I am developing dexterity, creativity and confidence when preparing models TCH 2-09a: I can extend and enhance my design skills to solve problems and can construct models. TCH 2-10a: I can recognise basic properties and uses for a variety of materials and can discuss which ones are most suitable for a given task. MNU 2:11b: I can use the common units of measure, convert between related units of the metric system and carry out calculations when solving problems. To find more Open Educational Resources from the University of Edinburgh, visit open.ed.ac.uk. Author: Joanna Barrie, adapted by Kay Douglas and Charlie Farley. Unless otherwise stated, all content is released under a CC-BY-SA 4.0 license.

This resource is  the fourth of a set of  4 lesson plans with STEM activities based around a group of 10-12 year olds, wanting to explain the science and maths behind magic. This session teaches STATIC ELECTRICITY, a magic wand trick. (Other sessions involve PROBABILITY, AIR PRESSURE, CHEMICAL REACTIONS. ) Wonder in Magic has been created as a teaching resource for the City of Edinburgh Council’s ‘Curiosity Club’, an Intervention Strategy initiative that is currently operating in Council schools. The focus of the four planned lessons of Wonder in Magic is to explain the ‘magic’ behind science and maths activities. The first has an activity on air pressure. The second has an activity on probability and tthe third is on chemical reactions. There is an optional activity (session 5) on showcasing the knowledge and skills obtained in Wonder in Magic. You can find all of these in our TES Shop for free download and re-use. The log-book (‘Book of Spells’), general teaching notes, completion certificate and letter (‘hook’) are included with all resources. This bundle includes: extensive teacher notes bundle includes pdf and editable versions of the following: Electrostatics – Hopping Magic Wands - contents for each lesson includes: Resource list Learning Intentions Shared success criteria Relevant Es&Os Assessment Methods Lesson Plan General resources * ‘Hook’ letter from the Head Teacher of Scotland’s Magic School Log-book (aka Book of Spells) Completion Certificate General Teaching Notes Learning outcomes in the Curriculum for Excellence and associated benchmark SCN 2-08a: I have collaborated in investigations to compare magnetic, electrostatic and gravitational forces and have explored their practical applications. (Explains how some objects may become electrically charged by rubbing two surfaces together and how the charges produce an electrostatic force. Investigates and demonstrates understanding that electrostatic forces can both repel and attract.) LIT 2-07a: I can show my understanding of what I listen to or watch by responding to literal, inferential, evaluative and other types of questions, and by asking different kinds of questions of my own. (Asks and responds to a range of questions, including literal, inferential and evaluative questions, to demonstrate understanding of spoken texts.) This resource was created as part of the GeoScience Outreach Course, which is a 4th year undergraduate course in the School of GeoSciences aiming to provide students with the opportunity to develop their own science communication and engagement project. Author: Philippa Johnston, adapted by Kay Douglas and Charlie Farley. Unless otherwise stated, all content is released under a CC-BY-SA 4.0 license. Read less

This resource is  the third of a set of  4 lesson plans with STEM activities based around a group of 10-12 year olds, wanting to explain the science and maths behind magic. This session teaches CHEMICAL REACTIONS, magic invisible ink trick. (Other sessions involve PROBABILITY, AIR PRESSURE, STATIC ELECTRICITY. ) Wonder in Magic has been created as a teaching resource for the City of Edinburgh Council’s ‘Curiosity Club’, an Intervention Strategy initiative that is currently operating in Council schools. The focus of the four planned lessons of Wonder in Magic is to explain the ‘magic’ behind science and maths activities. The first has an activity on air pressure. The second has an activity on probability and the fourth static electricity. There is an optional activity (session 5) on showcasing the knowledge and skills obtained in Wonder in Magic. You can find all of these in our TES Shop for free download and re-use. The log-book (‘Book of Spells’), general teaching notes, completion certificate and letter (‘hook’) are included with all resources. This bundle includes: extensive teacher notes bundle includes PDF and editable versions of the following: This bundle includes: extensive teacher notes bundle includes pdf and editable versions of the following: Chemical Reactions – Secret Message- contents for each lesson includes: Resource list Learning Intentions Shared success criteria Relevant Es&Os Assessment Methods Lesson Plan General resources ‘Hook’ letter from the Head Teacher of Scotland’s Magic School Log-book (aka Book of Spells) Completion Certificate General Teaching Notes SCN 2-08a: I have collaborated in investigations to compare magnetic, electrostatic and gravitational forces and have explored their practical applications. y investigating how friction, including air resistance, affects motion, I can suggest ways to improve efficiency in moving objects. (Explores and explains air pressure, a gravitational force) LIT 2-07a: I can show my understanding of what I listen to or watch by responding to literal, inferential, evaluative and other types of questions, and by asking different kinds of questions of my own. (Asks and responds to a range of questions, including literal, inferential and evaluative questions, to demonstrate understanding of spoken texts.) This resource was created as part of the GeoScience Outreach Course, which is a 4th year undergraduate course in the School of GeoSciences aiming to provide students with the opportunity to develop their own science communication and engagement project. To find more Open Educational Resources from the University of Edinburgh, visit open.ed.ac.uk. Author: Philippa Johnston, adapted by Kay Douglas and Charlie Farley. Unless otherwise stated, all content is released under a CC-BY-SA 4.0 license.

This resource is a the second of a set of four lesson plans with STEM activities based around a group of 10-12 year olds, wanting to discover the science and maths behind magic. This session teaches PROBABILITY. (Other sessions involve AIR PRESSURE, CHEMICAL REACTIONS, STATIC ELECTRICITY) Wonder in Magic has been created as a teaching resource for the City of Edinburgh Council’s ‘Curiosity Club’, an Intervention Strategy initiative that is currently operating in Council schools. The focus of the four planned lessons of Wonder in Magic is to explain the ‘magic’ behind science and maths activities. This is the second resource and it focuses on probability, a magic card trick. The first has an activity on air pressure. The third involves chemical reactions and the fourth static electricity. There is an optional activity (session 5) on showcasing the knowledge and skills obtained in Wonder in Magic. You can find all of these in our TES Shop for free download and re-use. This bundle includes: extensive teacher notes bundle includes  PDF and editable versions of the following: Probability – What’s the Chance?- contents for each lesson includes: Resource list Learning Intentions Shared success criteria Relevant Es&Os Assessment Methods Lesson Plan General resources ‘Hook’ letter from the Head Teacher of Scotland’s Magic School Log-book (aka Book of Spells) Completion Certificate General Teaching Notes Learning outcomes in the Curriculum for Excellence and associated benchmark MNU 2-22a: I can conduct simple experiments involving chance and communicate my predictions and findings using the vocabulary of probability. (Uses the language of probability accurately to describe the likelihood of simple events occurring, for example equal chance; fifty-fifty; one in two, two in three) LIT 2-07a: I can show my understanding of what I listen to or watch by responding to literal, inferential, evaluative and other types of questions, and by asking different kinds of questions of my own. (Asks and responds to a range of questions, including literal, inferential and evaluative questions, to demonstrate understanding of spoken texts.) This resource was created as part of the GeoScience Outreach Course, which is a 4th year undergraduate course in the School of GeoSciences aiming to provide students with the opportunity to develop their own science communication and engagement project. Author: Philippa Johnston, adapted by Kay Douglas and Charlie Farley. Unless otherwise stated, all content is released under a CC-BY-SA 4.0 license.

This resource is  the first of a set of  4 lesson plans with STEM activities based around a group of 10-12 year olds, wanting to explain the science and maths behind magic. This first session teaches AIR PRESSURE, a gravitational force. (Other sessions involve PROBABILITY, CHEMICAL REACTIONS, STATIC ELECTRICITY. ) Wonder in Magic has been created as a teaching resource for the City of Edinburgh Council’s ‘Curiosity Club’, an Intervention Strategy initiative that is currently operating in Council schools. The focus of the four planned lessons of Wonder in Magic is to explain the ‘magic’ behind science and maths activities. This is the first on air pressure, a gravitational force. The second has an activity on probability. The third involves chemical reactions and the fourth static electricity. There is an optional activity (session 5) on showcasing the knowledge and skills obtained in Wonder in Magic. You can find all of these in our TES Shop for free download and re-use. The log-book (‘Book of Spells’), general teaching notes, completion certificate and letter (‘hook’) are included with all resources. This is the first on air pressure, a gravitational force. This bundle includes: extensive teacher notes bundle includes PDF and editable versions of the following: Air Pressure – A Magical Fountain - contents for each lesson includes: Resource list Learning Intentions Shared success criteria Relevant Es&Os Assessment Methods Lesson Plan General resources ‘Hook’ letter from the Head Teacher of Scotland’s Magic School Log-book (aka Book of Spells) Completion Certificate General Teaching Notes Learning outcomes in the Curriculum for Excellence and associated benchmark SCN 2-08a: I have collaborated in investigations to compare magnetic, electrostatic and gravitational forces and have explored their practical applications. y investigating how friction, including air resistance, affects motion, I can suggest ways to improve efficiency in moving objects. (Explores and explains air pressure, a gravitational force) LIT 2-07a: I can show my understanding of what I listen to or watch by responding to literal, inferential, evaluative and other types of questions, and by asking different kinds of questions of my own. (Asks and responds to a range of questions, including literal, inferential and evaluative questions, to demonstrate understanding of spoken texts.) This resource was created as part of the GeoScience Outreach Course, which is a 4th year undergraduate course in the School of GeoSciences aiming to provide students with the opportunity to develop their own science communication and engagement project. To find more Open Educational Resources from the University of Edinburgh, visit open.ed.ac.uk. Author: Philippa Johnston, adapted by Kay Douglas and Charlie Farley. Unless otherwise stated, all content is released under a CC-BY-SA 4.0 license.

This interdisciplinary STEM resource on Climate Change has three to four sessions seeking out what practical steps pupils and their family can take to mitigate the effects of climate change. (Involves STEM Challenges.) Activity 1 is a broad introduction to climate change, its causes, effects and solutions at the individual level. Activity 2 discusses the concept of ecological footprint and is based on a practical workshop on upcycling. Activity 3 applies a simplified version of the scientific research method to measure the impact of our actions. Activity 4 is an optional showcase with scientific posters. Educational Information This resource provides material for the Curriculum for Excellence (CfE) Experiences and Outcomes in Technology, Numeracy and Mathematics, Literacy and English. An interdisciplinary approach to the concept of Ecological and Carbon Footprint is adopted with the aim of shaping pupils’ sense of responsibility and awareness of the impact of our daily actions on our planet. The resource comprises four activities (including STEM), each lasting within the range of 60-80 minutes. A so-called “Gift to the Earth” challenge requires pupils to record their daily commitment to reducing their carbon footprint and creates the link between each activity. Learning Outcomes covered: Technology Technology TCH 2-06a: I can analyse how lifestyles can impact on the environment and Earth’s resources and can make suggestions about how to live in a more sustainable way. Technology TCH 2-07a: I can make suggestions as to how individuals and organizations may use technologies to support sustainability and reduce the impact on our environment. Technology TCH 2-09a: I can extend and enhance my design skills to solve problems and can construct models. Numeracy and Mathematics Numeracy MNU 2-20b: I have carried out investigations and surveys, devising and using a variety of methods to gather information and have worked with others to collate, organise and communicate the results in an appropriate way. Mathematics MTH 2-21a: I can display data in a clear way using a suitable scale, by choosing appropriately from an extended range of tables, charts, diagrams and graphs, making effective use of technology. Literacy and English Literacy and English LIT 2-09a: When listening and talking with others for different purposes, I can: share information, experiences and opinions; explain processes and ideas; identify issues raised and summarise main points or findings; clarify points by asking questions or by asking others to say more.

This open educational resource contains PowerPoint slides for a lifelong learning course which introduces the major schools of classical Chinese philosophy, including Confucianism and Daoism. Philosophical texts are approached in English translation, focusing on how the ancient Chinese thought about philosophical topics which concern us today. The course is intended for adult learners and taught at university foundation level (Scottish Credit and Qualifications Framework level 7). Introduction to Chinese Philosophy is offered as part of the Short Courses programme at the University of Edinburgh’s Centre for Open Learning. More information on our Short Courses can be found on our website. Learning outcomes On completion of this course, students will be able to: identify different approaches in classical Chinese philosophy; describe the positions of Chinese philosophers on philosophical issues; read and analyse extracts of Chinese philosophical texts in English translation. Content This resource bundle includes four PowerPoint presentations. Please click the links below to download them. Confucianism I: General Background and the Analects Confucianism II: Mencius and Xunzi Daoism I: Daodejing Daoism II: Zhuangzi Author: Lee Wilson All content is released under a CC BY-SA 4.0 license. Cover image: silk painting depicting a man riding a dragon, public domain image on Wikimedia Commons.

The development of these grade-related marking criteria has been led by Dr Nina Morris (School of GeoSciences) and Dr Hazel Christie (Institute for Academic Development). They are an outcome of a University of Edinburgh Principal’s Teaching Award funded project ‘Every student a researcher: supporting the use of blogging as a form of student assessment’. They provide a marking template for academic staff who wish to incorporate assessed blogs into their undergraduate or postgraduate curriculum and are designed to be adapted to suit individual course needs; not all comments will be relevant to every blog assessment – please delete elements as appropriate. If you adopt these marking criteria (regardless of how you adapt them) we would be grateful if you could let us know at N.Morris@ed.ac.uk or Hazel.Christie@ed.ac.uk. The assessment criteria for each grade include paragraphs relating to: CONTENT: knowledge (i.e. range, command of material, awareness of scholarship), application of theory (i.e. use and relevance of examples, connection of course themes to wider world), argument/analysis (i.e. focus, clarity of structure, analytical skills, evaluation and evidence), self-reflection (i.e. progress of project, contribution to group, group performance). PRESENTATION: language and expression (i.e. clarity and accuracy, grammar and syntax, spelling, fluency of writing), genre-specific features (i.e. content indicators, use of images and/or audio-visual material, use of hyperlinks), scholarly apparatus (i.e. accuracy and consistency of referencing, accuracy and consistency of bibliography, due consideration of data protection with regards to images and audio-visual material, image copyright), and accessibility (i.e. overall appearance, media, writing). PRACTICE: self-reflection and critical reflection on group efficacy. The original template for these criteria was the University of Edinburgh Geography Degree Programme Grade Related Marking Criteria. We have also drawn on: Badenhorst, C. & Mather, C. (2014) Blogging geographies, Journal of Geography in Higher Education, 38(2), 193-207. Brendell, N. (2017) Using weblogs to determine the levels of student reflection in global education. In C. Brooks, G. Butt and M. Fargher (Eds.) The Power of Geographical Thinking. London: Springer, pp.119-135. Dunleavy, P. (2014) Shorter, better, faster, free: Blogging changes the nature of academic research, not just how it is communicated. LSE Blogs. We are grateful to colleagues at the University of Edinburgh, Andrew Gardiner (Royal (Dick) School of Veterinary Studies), Karen Howie (Information Services), Kate Saunders (School of GeoSciences), Iraklis Pantopoulos (Edinburgh College of Art), and Kirsten Lloyd (Edinburgh College of Art), for their comments on an earlier version. June 2020

This resource contains PowerPoint slides for a lifelong learning course which introduces different democratic theories and traces the development of modern mass democracy from ancient Greece to the present. The course is intended for adult learners and taught at university foundation level (Scottish Credit and Qualifications Framework level 7). Democracy in Theory and Practice is offered as part of the Short Courses programme at the University of Edinburgh’s Centre for Open Learning. More information on our Short Courses can be found on our website. Learning outcomes On completion of this course, students will be able to: • Distinguish different models of democracy and their normative assumptions; • Apply democratic theories to critically assess political institutions and practices; • Reflect on the nature of citizenship and identify ways to participate in public life; • Engage in dialogue about the meaning and value of democracy; • Present arguments clearly and coherently. Content This resource bundle includes nine PowerPoint presentations: Introduction Classic Models I: Athenian Democracy Classic Models II: Civic Republicanism Classic Models III: Liberal Constitutionalism Modern Democracy I: Representative Government Modern Democracy II: The Role of the State Modern Democracy III: The Global Context The Future of Democracy I: Alternative Models The Future of Democracy II: Innovations and Reforms Author: Max Jaede All content is released under a CC BY-SA 4.0 license. Cover image: Greek Rally Against Troika, by D. Byrne, CC BY 2.0.

Properties and uses of substances, Earth’s Materials, People Place & Environment This mini resource comprises 2 sessions (or one afternoon). Session 1 uses songs to name and locate the continents, oceans and Pacific Ring of Fire. Session 2 involves a reaction of vinegar and bicarbonate of soda to mimic a volcanic eruption. Session 1 is PowerPoint presentation, giving general background on the World Map and names and locations of the continents, oceans and by inference the Pacific Ring of Fire. Despite being ppt based, you can make it interactive and even sing along with the songs. A consolidation worksheet is included to label the world map. Session 2 is a practical activity/demonstration. It involves using the chemical reaction (neutralisation) of bicarbonate of soda and vinegar. These react together to form carbon dioxide (CO2). Carbon dioxide is the fizzy gas in ‘pop’. Adding washing up liquid and tomato ketchup to the mix allows for red CO2 bubbles from the mouth of the small drinks bottle. A copy and complete exercise can be copied from the second half of the PowerPoint. Learning outcomes: Sciences - Biodiversity and interdependence SCN 2-15a: ‘By contributing to investigations into familiar changes in substances to produce other substances, I can describe how their characteristics have changed.’ and the explanatory benchmark, ‘Observes and identifies some of the signs of a chemical reaction, for example, production of bubbles, colour/texture change and heat given out/taken in.’ SCN 2-17a ‘Having explored the substances that make up Earth’s surface, I can compare some of their characteristics and uses‘ Social Studies - People, place, and environment SOC 2-07b: ‘I can describe the physical processes of a natural disaster and discuss its impact on people and the landscape and the explanatory benchmark ‘the explanatory benchmark ‘Describes the causes of a natural disaster such as a volcano, earthquake or extreme weather event’. Author: Kay Douglas of The University of Edinburgh, 2019. Unless otherwise stated, all content is released under a CC BY-SA 4.0 license.

Kind Clothing is a project written for Girlguides, designed by Hannah Fieldsend. It aims to fit into the exciting and varied programme suited to inspire and challenge Girlguides ages 10-14. Any groups looking to achieve their ‘Global Awareness’ guiding essential can use Kind Clothing as part of their programme, and it covers topics such as Sustainability, Environmental Issues and Practical Skills. It consists of three interactive sessions that introduce the idea of Fast Fashion and link it to the concepts of the environment and sustainability. Throughout the sessions there is an overarching project where the girlguides recycle a piece of clothing into a DIY drawstring bag. Learning outcomes: Girlguiding Programme Session 1 Express myself: innovate, communicate Session 2 Express myself: innovate, communicate Skills for my future: live smart Session 3 Know myself: reflect, network Skills for my future: live smart Take action: make change, influence Scottish Curriculum for Excellence Learning Objectives: Session 1 Literacy: LIT 2-07a, I can show my understanding of what I listen to or watch by responding to literal, inferential, evaluative and other types of questions, and by asking different kinds of questions of my own. Environment: SOC 3-08a, I can identify the possible consequences of an environmental issue and make informed suggestions about ways to manage the impact. Session 2 Planetary Processes: SCN 3-05b, I can explain some of the processes, which contribute to climate change and discuss the possible impact of atmospheric change on the survival of living things. Environment: SOC 2-08a, I can discuss the environmental impact of human activity and suggest ways in which we can live in a more environmentally responsible way. Session 3 People in Society: SOC 2-20a, Through exploring ethnical trading, I can understand how people’s basic needs are the same round the world, discussing why some societies are more able to meet these needs than others. People in Society: SOC 3-19a, I can describe how the interdependence of countries affects levels of development, considering the effects on people’s lives. This resource was created as part of the GeoScience Outreach Course which is a 4th year undergraduate course in the School of GeoSciences aiming to provide students with the opportunity to develop their own science communication and engagement project. This resource was originally developed for girlguides, and was successfully run with a girlguide group. Author: Hannah Fieldsend, adapted by Andrew Ferguson. Unless otherwise stated, all content is released under a CC BY SA 4.0 license.

Sustainability and Conservation is a relaxed and fun way to engage students in sustainability and conservation subjects. The topics of wildlife, nature art, habitat loss, scientific methods and waste and pollution are covered. Hands on activities the learners enable the learners to apply these themes into their daily lives by exploring nature. Through five workshops they will become ambassadors of conservation and sustainability and will be able to teach their family and friends about it. In case of rainy days or inaccessibility to outdoor areas ‘Plan B’s’ have been created: games modified to limited indoor areas. There is a section on additional information, this provides online links to websites and reports that are related to the resource’s subject areas. Learning outcomes: Art and Design EXA 2-02a: I have the opportunity to choose and explore an extended range of media and technologies to create images and objects, comparing and combining them for specific tasks. Sciences - Biodiversity and interdependence: SCN 2-01a: I can identify and classify examples of living things, past and present, to help me appreciate their diversity. I can relate physical and behavioural characteristics to their survival or extinction. SCN 2-02a: I have contributed to the design or conservation of a wildlife area. Sciences - Topical Sciences: SCN 2-20b: I can report and comment on current scientific news items to develop my knowledge and understanding of topical science. Social Studies – People, place and environment SOC 2-08a: I can describe the major characteristic features of Scotland’s landscape and explain how these are formed. SOC 2-08b: I can describe the physical processes of a natural disaster and discuss its impact on people and the landscape. This resource was created as part of the GeoScience Outreach Course which is a 4th year undergraduate course in the School of GeoSciences aiming to provide students with the opportunity to develop their own science communication and engagement project. Author: Moa Bell, adapted by Andrew Ferguson. Unless otherwise stated, all content is released under a CC BY-SA 4.0 license.

This resource is a set of worksheets about games and puzzles based on simple concepts in graph theory. The resource covers: the seven bridges of Konigsberg, the Shannon Switching game and graph vertex colouring. The resource is aimed at a general public level as formal mathematical knowledge is not required beyond counting, but younger audiences would need more guidance. This resource aims to provide a very basic introduction to graph theory. The activities are designed to get participants to become familiar with how problems can be simplified into graph theory problems and how that may be used to find solutions. In this resource: Graph Colouring: solving scheduling and allocating problems using graphs Instructor guide 4 Party Problems 3 Radio Problems Rivers and Bridges: based on the Bridges of Konigsberg problem Instructor guide Matching activity Worksheets for 4 real cities (including Konigsberg) Shannon Switching game: a simple game which is played on a graph Instructor guide PowerPoint explaining the game (with presentation guide) 4 Virus games Simple examples Design your own graph to win the game This resource was originally developed for the Edinburgh International Science Festival with the School of Mathematics. Authors: Francesca Iezzi, Ana McKellar, Lukas Cerny, Benedetta Mussati and Patrick Kinnear (with additional input from other members of the Maths Outreach Team), adapted for wider audiences by Ana McKellar. Unless otherwise stated, all content (including original images) is released under a CC BY-SA 4.0 license. Cover image is Four Color Problem by Jeff Kubina (Flickr) is licenced under CC BY-SA 2.0.

Plastic in the Ocean is a project aimed at educating learners about the negative environmental effects of plastic. Over the course of four lessons, the learners are taught what plastic is, why it is bad for the environment and what can be done to address this environmental problem. As well as fun and interactive lessons the learners are given the opportunity to explore the local area collecting litter/plastic, putting what they have learned in the classroom lessons into context with the real-world. Learning outcomes Science - Earth Materials SCN 2-17a: Having explored the substances that make up Earth’s surface, I can compare some of their characteristics and uses. Science - Topical Science SCN 2-20a: Through research and discussion, I have an appreciation of the contribution that individuals are making to scientific discovery and invention and the impact this has made on society. SCN 2-20b: I can report and comment on current scientific news items to develop my knowledge and understanding of topical science. Social Sciences – People, Place and the Environment SOC 2-08a: I can discuss the environmental impact of human activity and suggest ways in which we can live in a more environmentally responsible way. Technologies – Technology Developments in Society and Business TCH 2-06a: I can analyse how lifestyles can impact on the environment and Earth’s resources, and can make suggestions about how to live in a more sustainable way. TCH 2-07a: I can make suggestions as to how individuals and organisations may use technologies to support sustainability and reduce the impact on our environment. Expressive Arts – Art and Design EXA 2-03a: I can create and present work that shows developing skill in using the visual elements and concepts. EXA 2-05a: Inspired by a range of stimuli, I can express and communicate my ideas, thoughts and feelings through activities within art and design. This resource was created as part of the GeoScience Outreach Course which is a 4th year undergraduate course in the School of GeoSciences aiming to provide students with the opportunity to develop their own science communication and engagement project. This resource was originally designed to be implemented in Queensferry Primary School, located in South Queensferry, Edinburgh. The lessons were taught to Primary 5, Second Level. Author: Hannah Newberry, adapted by Andrew Ferguson. Unless otherwise stated, all content is released under a CC BY-SA 4.0 license. Cover image by Wild0ne on Pixabay is licensed under the Pixabay License. Has been cropped and overlay graphics added.

An outdoor learning activity to promote the health benefits of using green spaces. It includes a visitor questionnaire, health diary and drawing and interpreting graphs. Two of the lessons are classroom-based, however the other lesson is an outdoor field trip that encourages the learners to put into practise what they have learned in the first lesson. Learning outcomes HWB 3-25a: I am experiencing enjoyment and achievement on a daily basis by taking part in different kinds of energetic physical activities of my choosing, including sport and opportunities for outdoor learning, available at my place of learning and in the wider community. HWB 3-27a: I can explain why I need to be active on a daily basis to maintain good health and try to achieve a good balance of sleep, rest and physical activity. MTH 2-12d: Having investigated where, why and how scale is used and expressed, I can apply my understanding to interpret simple models, maps and plans. SOC 3-14a: I can use a range of maps and geographical information systems to gather, interpret and present conclusions and can locate a range of features within Scotland, UK, Europe and the wider world. MTH 3-21a: I can display data in a clear way using a suitable scale, by choosing appropriately from an extended range of tables, charts, diagrams and graphs, making effective use of technology. This resource was created as part of the GeoScience Outreach Course at the University of Edinburgh and was originally developed for Craigroyston Community High School, located in Edinburgh, Scotland. Author: Tom Richmond, adapted by Andrew Ferguson. Unless otherwise stated, all content is released under a CC-BY 4.0 license. Cover Image “A park historian assists with a field trip” from National Park Service, NPS Photo is from the webpage Field Trips, accessed July 2019. Modified by Andrew Ferguson. Public domain. No protection is claimed in original U.S. Government works.

This resource is a set of 5 lesson plans with slides, an experiment (with worksheets for analysing the results) and assessment items. The target audience for this resource is for learners aged between 14 and 16 years. Entomophagy is the human consumption of insects as food - it represents a sustainable alternative to the environmentally destructive effects of livestock based protein. The lessons presented here are based around a project designed to test the food conversion efficiency and water footprint of mealworms. The lessons are presented as 5 individual lessons each 50 minutes in length. They are designed to be incorporated into the school’s curriculum surrounding the food production unit for National 5 students. Providing that classes are taught when the food production unit would normally be delivered, these lessons can act as a detailed blueprint of how to teach the two related subjects in tandem. This resource aims to cover the following Curriculum for Excellence benchmarks: SOC 4-09a - Having evaluated the role of agriculture in the production of food and raw material, I can draw reasoned conclusions about the environmental impacts and sustainability. SCN 4-03a - Through investigating the nitrogen cycle and evaluating results from practical experiments, I can suggest a design for a fertiliser, taking account of its environmental impact. (Particularly the points associated with “Explores and explains the possible impact of the use of fertilisers, for example, algal blooms.”) SCN 4-20a - I have researched new developments in science and can explain how their current or future applications might impact on modern life.   This resource was created as part of the GeoScience Outreach Course at the University of Edinburgh and was originally developed for the Trinity Academy in Edinburgh. Author: Danny Ashton, adapted by Ana Mckellar. Unless otherwise stated, all content is released under a CC-BY-SA 4.0 license. Cover image is Future food: insects (Krabi, Thailand 2015) by Paul Arps (Flickr), licensed under CC BY-SA 2.0.

This resource provides materials to run a workshop about Escher’s printmaking, exploring the artist, his process and the mathematics underlying his work. There is a practical art element which involves participants designing and printing their own piece of work. This resource aims to show participants a creative side to mathematics. Knowledge of symmetry (rotational and reflectional) is assumed but also explained within the resource. The workshop is aimed at general public level - it is suitable for anyone with a basic understanding of geometry and symmetry. Learning outcomes: MTH 3-19a, MTH 4-19a, EXA 4-02a, EXA 4-06a To learn about the life and work of Escher To understand how mathematics influenced Escher’s work To learn about symmetries and wallpaper patterns To be able to identify the wallpaper group of a tessellation design To learn how to make lino prints In this resource: Workshop plan Part 1: Presentation Part 2: Designing a tessellating pattern Part 3: Printmaking Part 4: The mathematics behind your work Presentation slides Part 1: Who was Escher? Part 2: Regular divisions of the plane Part 3: Escher and mathematics Presentation guide Presentation content This resource was created as part of the Festival of Creative Learning by the Maths Outreach Team with the School of Mathematics. Author: Mairi Walker, Ana McKellar, Lukas Cerny and Benedetta Mussati. Except where otherwise stated, all content is released under a CC BY-SA 4.0 license. Cover image is a photograph from the original workshop courtesy of the University of Edinburgh School of Mathematics.

This resource is a booklet with a collection of strategies for improving mental health and wellbeing, a list of youth support agencies and a section with templates to aid the completion of some strategies. The target audience for this resource is anyone aged 12+ Aimed at Level 3 and above. The booklet aims to satisfy the HWB 3-02a, HWB 3-03a and HWB 2-06a benchmarks in the Health and wellbeing curriculum and includes a combination of strategies in different areas: Sleeping Stress and anxiety Self-esteem and body positivity Socialising Healthy lifestyle Online safety Author: Maria Teixeira-Dias at the University of Edinburgh. Unless otherwise stated all content is released under a CC BY-SA 4.0 license.

Three lessons on the contribution that bees make to our planet on the topics of pollination, bee diversity, and hexagons in the bee hive (STEM activity). Lesson 1: Flower structure and pollination Lesson 2: Types of bees Lesson 3: Why bee hives are made up of hexagons Includes lesson plans, activities, presentations and worksheets. Curriculum for Excellence: SCN 1-02a, SCN 1-02b, SCN 2-01a, MTH 1-16a, MTH 1-16b, MTH 2-16a. Author: Natasha Michaelides, School of GeoSciences at The University of Edinburgh, in collaboration with Ratho Primary School, with thanks to Amy Dixon (class teacher, science specialist and STEM advisor).

Two workshops covering what mental health is and how to promote it – aimed at learners aged 11 to 14. Includes workshop plans with presentations. Educational Level 3 (HWB 3-01a, HWB 3-02a, HWB 3-03a, HWB 3-04a, HWB 3-05a, HWB 3-06a, HWB 3-07a) This resource bundle includes lesson plans (pdf and editable word version) and presentation for: Workshop 1: What is mental health? Self-reflection activity What influences by mental health? What is influenced by mental health? Workshop 2: Title Self-reflection activity Strategies for maintaining good mental health Red flags in mental health What is depression? What is anxiety? Quiz This resource was created as part of Psychology Outreach and Engagement which allows undergraduate psychology students to develop new projects aimed at meeting the needs of local community partners as part of their degree. Author: Melina Zavali Unless otherwise stated, all content is released under a CC BY 4.0 license. Cover image is Mental Health by Wokandapix, licensed under the Pixabay license.