Open for the Climate

This course looks at where important materials in products we use every day come from and how these materials can be used more efficiently, longer, and in closed loops. This is the aim of the Circular Economy, but it doesn’t happen on its own. It is the result of choices and strategies by suppliers, designers, businesses, policymakers and all of us as consumers. In addition to providing many cases of managing materials for sustainability, the course also teaches skills and tools for analyzing circular business models and promotes development of your own ideas to become more involved in the transition to a Circular Economy. You will learn from expert researchers and practitioners from around Europe as they explain core elements and challenges in the transition to a circular economy over the course of 5 modules: Module 1: Materials. This module explores where materials come from, and builds a rationale for why society needs more circularity. Module 2: Circular Business Models. In this module circular business models are explored in-depth and a range of ways for business to create economic and social value are discussed. Module 3: Circular Design, Innovation and Assessment. This module presents topics like functional materials and eco-design as well as methods to assess environmental impacts. Module 4: Policies and Networks. This module explores the role of governments and networks and how policies and sharing best practices can enable the circular economy. Module 5: Circular Societies. This module examines new norms, forms of engagement, social systems, and institutions, needed by the circular economy and how we, as individuals, can help society become more circular.

In this course, participants are introduced to key notions and concepts evolving in sustainability science that are relevant to all, independent to one's work or field of interest. After having completed the course, participants will have a better understanding of the vocabulary used today and should demonstrate the ability to reflect critically to integrate different perspectives of environmental, social, and economic sustainability to their specific area of interest or research. Throughout the course, links are made to the Agenda 2030 for Sustainable Development, as our current global road map towards sustainability, and how new approaches and solutions are emerging to describe, understand and address key sustainability challenges. Put simply, the overall aim is to give participants the knowledge and confidence needed to present and discuss ideas with others by applying methods, concepts and the vocabulary exemplified in the course with a more holistic view on the sustainability agenda across topics and disciplines. The course is designed as 5 modules: The first module presents essential concepts within sustainability science, and methods used to describe, frame, and communicate aspects of sustainability. We look at key questions such as what we mean with strong or weak sustainability, resilience, tipping points and the notion of planetary boundaries. We also look at some techniques used of envisioning alternative futures and transitions pathways. The second module is all about systems thinking and how systemic approaches are applied today to achieve long-term sustainability goals. Your will see what we mean with systems thinking and how systems thinking, and design is applied in practice to find new solutions. The third module touches upon drivers for a sustainable future, namely links to economy and business with an introduction to notions of a circular economy, and also policy and regulatory frameworks. We introduce the basics of transformative policy frames and how they are designed and applied through several real-case examples. The fourth module discusses the links between innovation and sustainability, highlighting approaches for technological, social, institutional, and financial innovations. Some examples (or cases) aim to show how different actors across society balance in practice the need for innovative approaches for social, environmental, and economic sustainability. The fifth and last module provides general insights on how we work with models to create various scenarios that help us identify solutions and pathways for a more sustainable world. Three main dimensions are addressed namely climate and climate change, nature and biodiversity, and the importance of data and geodata science to support spatial planning and sustainable land use.

How can we work with nature to design and build our cities? This course explores urban nature and nature-based solutions in cities in Europe and around the world. We connect together the key themes of cities, nature, sustainability and innovation. We discuss how to assess what nature-based solutions can achieve in cities. We examine how innovation is taking place in cities in relation to nature. And we analyse the potential of nature-based solutions to help respond to climate change and sustainability challenges. This course was launched in January 2020, and it was updated in September 2021 with new podcasts, films and publications. The course is produced by Lund University in cooperation with partners from Naturvation – a collaborative project on finding synergies between cities, nature, sustainability and innovation. The course features researchers, practitioners and entrepreneurs from a range organisations.   

How can we shape our urban development towards sustainable and prosperous futures? This course explores sustainable cities as engines for greening the economy in Europe and around the world. We place cities in the context of sustainable urban transformation and climate change. We connect the key trends of urbanization, decarbonisation and sustainability. We examine how visions, experiments and innovations can transform urban areas. And we look at practices (what is happening in cities at present) and opportunities (what are the possibilities for cities going forwards into the future). This course was launched in January 2016, and it was updated in September 2021 with new podcasts, films and publications. The course is produced by Lund University in cooperation with WWF and ICLEI – Local Governments for Sustainability who work with creating sustainable cities. The course features researchers, practitioners and entrepreneurs from a range organisations.

How can we govern consumption and the sharing economy in our cities? This course explores cities, consumption and the sharing economy in Europe and around the world. We connect together the key themes of the sharing economy, cities, governance, consumption and urban sustainability. We explore how the sharing economy can contribute to increasing social, environmental and economic sustainability. And we argue that it is imperative that the sharing economy is shaped and designed to advance urban sustainability. This course was launched in May 2020, and it was updated in September 2021 with new podcasts, films and publications. This course is produced by Lund University in cooperation with partners from Sharing Cities Sweden – a national program for the sharing economy in cities with a focus on governance and sustainability. It features researchers, practitioners and entrepreneurs from a range organisations.

How can we live a good life on one planet with over seven billion people? This course will explore greening the economy on four levels – individual, business, city, and nation. We will look at the relationships between these levels and give many practical examples of the complexities and solutions across the levels. Scandinavia, a pioneering place advancing sustainability and combating climate change, is a unique starting point for learning about greening the economy. We will learn from many initiatives attempted in Scandinavia since the 1970s, which are all potentially helpful and useful for other countries and contexts. The International Institute for Industrial Environmental Economics (IIIEE) at Lund University is an international centre of excellence on strategies for sustainable solutions. The IIIEE is ideally suited to understand and explain the interdisciplinary issues in green economies utilising the diverse disciplinary backgrounds of its international staff. The IIIEE has been researching and teaching on sustainability and greener economies since the 1990s and it has extensive international networks connecting with a variety of organizations.

WHat you will learn Increased knowledge on sustainable cities and communities. Deeper understanding of the relationship between urbanization, decarbonisation and sustainability. Improved critical thinking on the opportunities and challenges for sustainable cities and communities as engines for greening the economy. Expanded ability to use systems thinking to assess sustainable cities and communities.   About this SpecializationIn this specialization you will learn how to drive change in cities and communities towards sustainable, climate friendly, just, healthy and prosperous futures, and you will boost your career with new knowledge, understanding and skills for navigating urban transformations. This specialisation brings together a series of cutting-edge courses with world-leading teachers on cities, communities, sustainability, governance and innovation. This specialization is offered by the IIIEE at Lund University and the City Futures Academy – an online learning community on urban transformations. Our flagship course, Greening the Economy: Sustainable Cities, is ranked in the Best Online Courses of All Time by Class Central. The ranking by Class Central contains 250 courses from 100 universities based on 170,000 reviews. Our specialisation builds on the success of the Greening the Economy: Sustainable Cities course.  A key approach embedded in the courses in this specialisation is the role of experimentation in urban transformations. In particular, urban living labs are highlighted as a means for catalysing change in cities and communities towards sustainable, climate friendly, just, healthy and prosperous futures. The experimentation within urban living labs offers the potential for accelerating transformations and systematic learning across urban and national contexts. Applied Learning Project Learners are introduced to key facts and insights about sustainable cities and communities as engines for greening the economy, then tasked with developing this understanding through readings and practice exercises that highlight the role of urban living labs in creating sustainable cities and communities. Specifically, you will learn: how to work with greening the economy through cities and communities; how to design and implement urban living labs for accelerating change in cities and communities; how to build resilience and create a host of benefits from nature-based solutions in cities and communities; and how to influence consumption patterns in cities and communities through sharing practices . Further documentaries and quizzes will provide you with critical thinking and a broader and deeper perspective that are essential to understanding and creating sustainable cities and communities. 

FÖR VEM Vindkraftskurs.se riktar sig till handläggare i kommuner och länsstyrelser samt till alla som vill lära mer om vindkraft. VAD OCH VARFÖR Syftet med kursen är att öka kunskapen om vindkraft och specifikt om frågeställningar som är aktuella vid tillståndsärenden. NÄR OCH HUR Du väljer själv när samt i vilken takt du vill genomföra momenten. Samtliga delar av kursen är avgiftsfria.   Vindkraftskurs.se är uppbyggd av fyra moduler: 1. Vindkraftens förutsättningar 2. Miljöpåverkan 3. Prövning och tillsyn 4. Idébank & lokal nytta Inne i modulerna finns både sökfunktion och kursöversikt, så att du lätt kan orientera dig genom kursens innehåll. Att gå igenom hela kursen tar ca 3–5 dagar beroende på hur intensivt/extensivt du läser. Du kan även välja att läsa delar av kursen.

Our society must shift to sustainable production. The production systems need to be developed in line with the global goals set by the UN and that have been agreed on by the countries. Sustainable production is about producing with, preferably, positive impact, but usually at least as little negative impact as possible, on people and our planet. This three-week course introduces you to sustainable production systems and helps you understand them from economic, social and ecological perspectives. The course begins with an exposé of how production systems have developed historically. You will learn about the UN Sustainable Development Goals. The course continues with an in-depth study of production systems, covering some prominent people and theories in the field. Next, you will learn about current developments in production innovation and Industry 4.0. You will also meet two companies in the manufacturing industry, Polarbröd and Sandvik Coromant, and see examples of how they work with sustainable production. The course concludes by giving you tools to design sustainable production systems. The course is aimed at anyone curious about sustainable production and how industrial production can be developed to become more sustainable. The course will be given in English.

Materials are all around us, in your house, in your phone and in the air you breathe. But what is material and why is it so important? Right now, the green transition is underway, but how do we create a more sustainable world - from raw material to product? It's all about materials. How does material feel? How are materials chosen? What are the materials of the future? Join us and discover our world of materials! The course containsIn this course we go through the basics of what materials are and why they are so important. You get to discover materials, get to know materials and be inspired by the materials of the future. The following areas are included in the course: What is material? How does material feel? How are materials chosen? How are materials recycled? What are the materials of the future? You will learnAt the end of the course you should be able to: Discover and reflect on the world and meaning of materials Get a feel for different materials Discover and analyze materials in your vicinity Understand that different materials are chosen based on the area of use Understand and reflect on the possibilities of materials and their role in the green transition Who is the course for?This is a course suitable for EVERYONE who is curious about the materials in their surroundings, regardless of background and age. The course requires no prior knowledge. It is for those of you who have an interest in a sustainable future and who wonder what role materials have in the green transition. The course is given in Swedish.

Society is transitioning from oil dependency to metal dependency as we are turning to fossil-free alternatives in the energy and transport sectors. Today, many more metals in the periodic table are used in our daily lives compared to only a few decades ago and many metals that previously had marginal applications are today central to achieving the climate goals. But where do these metals come from and how are they linked to geology?In this course, you will explore the basics of geology and understand how geology controls where critical metals are in the earth’s crust. You will gain insight into what it takes to mine an ore body and broaden your perspective on what risks and challenges we are facing when it comes to the raw material supply that drives the fossil-free energy transition. This course covers the role of ore geology in the transition to fossil-free energy and transport systems, which means that we are moving from oil dependency to metal dependency. Geological processes throughout the earth’s history are responsible for the current distribution of ore deposits. By understanding how these ore forming processes work, we can better explain why certain metals occur in extractable amounts in one place while being almost absent in another. To meet the global demand of metals needed in, for example, solar panels, wind turbines, and batteries, a thorough understanding of how geological processes work is fundamental. In this course, you will be introduced to the fantastic world of the subsurface that made all the technology you take for granted possible.    You will explore: What critical metals are, where they are produced today, and what risks and challenges are involved in the supply of raw materials that drives the fossil-free energy transition. Basic geology – minerals, rock types, geological structures and why they matter. What an ore is and the natural processes that accumulate metals in the earth’s crust.  This course is designed for people that would like to gain knowledge about the role of geology in the transition to fossil-free energy systems. The course is for those who want to know more about what critical metals are, how an ore is formed, and about risks and challenges coupled to the supply of raw materials that drive the energy transition. This may include politicians and other authorities, teachers and students in elementary and high school that want to know more about subjects critical to the energy transition. It may also include university students within the social sciences, and many more. The course will also be useful for anyone who is employed and wishes to upskill within the area of societal challenges coupled to the supply of raw materials and the need for metals in modern society. The course will be given in english.

Big data and the algorithms used in data science, together with the corresponding process and its technology tools, have important implications for addressing climate change. From machine learning algorithms to data visualization, data science methods are used to investigate and better understand climate change and its various effects on land, sea, food, etc.Data science is a powerful approach which is capable of helping practitioners, and policy-makers understand the uncertainties and ambiguities inherent in data, to identify interventions, strategies, and solutions that realize the benefits for humanity and the environment, and to evaluate the multiple– and sometimes conflicting–goals of decision-makers. In this MOOC course, we introduce methods pertaining to the growing field of data science and apply them to issues relevant to climate change. Topics Data science Analytics as a process Data-driven decisions Climate change Applications of data science in climate change Course content Understand data science Learn about the sources of big data Understand the basics of climate change, its impacts and sustainable development goals Get to know data-driven decisions and how they are made Highlight some climate change challenges that are directly or indirectly related to data science Apply data science knowledge and skills to make climate change related decisions Learn how others have used data science in association with addressing climate change problems You will learnBy the end of the course, you will be able to: obtain and analyze datasets; make data-driven decisions; identify and address climate change challenges using data science Who is the course for?This course is designed for those who want to improve their analytics and data-driven decision-making skills, with an emphasis on utilizing such skills for addressing climate change challenges. The course will also be useful for practitioners and policy-makers as they can benefit from understanding the uncertainties and ambiguities inherent in data and using it to identify interventions, strategies, and solutions that realize benefits for humanity and the environment.

Cities around the world are facing the challenge of dealing with stormwater to protect against flooding caused by heavy rainfall. Future climate change will make this even more difficult. This course gives an introduction to how can we manage stormwater in a sustainable way in the coming decades.The course containsThe course covers the hydrological cycle and how this is affected by urbanization, as well as rainfall and how this is affected by climate change. The problems with traditional pipe-based drainage systems are discussed before looking at green stormwater infrastructure as a sustainable alternative. Finally, the course looks at how stormwater can be integrated into urban planning. What are you learning?How urbanization affects the water cycle.How rainfall is affected by future climate change.What facilities can be used to manage stormwater in a sustainable way.The role that stormwater plays in urban planning. Who is the course for?This course is designed for anyone who may encounter stormwater in their work, as well as anyone who wants to know more about how we can build a society that is prepared for the effects of future climate change. The course will be given in English.

Hydrogen is a clean fuel, a versatile energy carrier, and seems to be the answer to the climate change challenge. Why is everyone talking about it, and how is it going to replace traditional fuels? This modularized course provides a comprehensive overview on hydrogen as an energy carrier, with focus on fuel cell as hydrogen conversion technology. Hydrogen production and storage and their role in decarbonization will be covered. Different fuel cell technologies will be analyzed and discussed to present benefits and challenges in the use of hydrogen for power production, urban mobility, aviation, transportation, residential sector and much more. The learners will be able to combine the available modules to create their personalized education based on their needs and get insights on where and when hydrogen can play a role in a carbon-free society.

UMA TALKS CLIMATE CHANGE 2022 Climate Adaptation of the Built Environment DESIGNING CYCLES AT 64°   Interior Urban Landscapes and the Water-Energy Food Nexus Climate change demands a recalibration of our built environment to become more resilient. Designing Cycles at 64° takes a multi-scalar approach addressing individual building typologies and, exemplarily for climate adaptation of northern climate zones, the city of Umeå with its diverse urban fabric as a whole. The active involvement of all stakeholders in the planning and future use of buildings and open spaces becomes key. How to create spaces that contribute to community building and social interaction while integrating a maximum of ecosystemic services is therefore a central question that demands for implementable methods, tools, processes and design solutions. At 64° latitude, interior landscapes and the water-energy-food nexus offer interesting possibilities to extend growing seasons and diversify crops, to reduce energy consumption while providing hybrid living spaces between inside and outside. By exploring greenhouse extensions and building envelopes as local passive architectural solutions, DC64° sets out to build productive interfaces between the private and public sector, academia involving the disciplines of architecture and urban planning, urban water management, plant physiology and vertical gardening, as well as the general public in a living lab format. Retrofitting the existing building stock, repurposing vacancies and expanding our building performance may accumulatively have a systemic impact both in terms of reducing water and energy consumption, as well as food miles, while buffering existing infrastructure networks and enabling local food production on site. Expanding on Bengt Warne’s Naturhus (1974) and following examples, we anticipate new multifunctional architectural models applicable in various contexts and scales. FORMAT / The program includes an introductory lecture that addresses climate urgencies and potential capacity for change in the context of the built environment the week before the one-day symposium (hybrid format). The symposium brings together practitioners, researchers and educators and consists of five thematic sessions that can be attended as a full day or individually as they are interrelated, yet also function independently (See program link below). INTENDED LEARNING OUTCOMES / Understanding of multi-scalar climate-adapation design approaches within the built environment with a focus on the Nordic context / Reflect on aspects of social sustainability when it comes to transforming buildings and inhabitants from being consumers to becoming producers /   Umeå University School of Architecture   Presentations   Program Nov. 30.     For any questions content-related questions please email us cornelia.redeker@umu.se sara.thor@umu.se constanze.hirt@umu.se  

The course is given by Chalmers University of Technology. VIDEOCLIP - TEASER: Take two min to get a sense of the course and hear why you should take it: https://play.chalmers.se/embed/secure/iframe/entryId/0_wvsk9cji/uiConfId/23450493/st/0 FOR WHO: The course aims at professionals working with or affected by ongoing sustainability transitions. For example, the course targets professionals such as: Those who work with environmental policy related business development and sustainability practice in larger corporations. Examples of typical sectors include transport, energy, food and manufacturing. Civil servants within authorities or municipal operations who are responsible for issues with climate relevance or circular economy. Professionals working with development cooperations, or in intergovernmental organizations with related issues. Applied researchers who want to get an introduction to the subjects. WHAT AND WHY: In this course your invited to learn from the experience and knowledge of a world-leading expert in environmental policy instruments (Thomas Sterner) who, with the help of pedagogical experts, has cherry-picked content from a master's course at Chalmers and tailored the course structure for you as a professional. In the wake of the increased pace of ongoing sustainability transitions, environmental policies are becoming more comprehensive, complex and stringent. The purpose of this course is to give professionals an introduction to the portfolio of environmental policy instruments and equip them with tools to understand the mechanisms of the respective instruments and learn to work strategically with them in their own practice. The course will focus on topics such as climate change, the circular economy, and the energy crisis. To learn from the experience of thought leaders from several major industries, you will be able to view interviews with experts who talk about the role and implications of policies to their work and the sustainability transitions of their industry. WHEN AND HOW: All parts of the course are free of charge, and you choose when and at what pace you want to complete the course elements. The course will be given in English, and the estimated time spent is 35-50 hours, depending on how much of the optional material you chose to study. The course offers you the possibility to tailor the learning experience as it fits best with your professional development. Therefore, it is recommended to read the course together with colleagues, to share joint learning and anchor it in your daily work. However, this is not a requirement. WHAT YOU WILL LEARN: The course gives a broad overview of the economic concepts underlying environmental policymaking. You will get insights into the practicalities of environmental and climate policies, both from the perspectives of those implementing the policy and of those facing new regulations. On completion of the course, you will for example be able to: describe and recognize how environmental policy instruments work. identify and relate to which environmental policy instruments are key to climate action and circular economy efforts in one's own sector and organization. The course offers a dynamic learning environment with short videos, quizzes, exercises, and resources.

FOR WHO: The course is targeting professionals who want to deepen their knowledge of emissions from transportation, e.g. high school teachers, civil servants and politicians in public administration, engineers in the field of transport (car manufacturers, fuel production, logistics, ...) WHAT AND WHY: The purpose of the course is to provide a holistic perspective and increased knowledge in air pollution, to distinguish between climate effects and health effects, but also to provide insight into the tools to bring about social change. The climate is changing at an increasingly rapid pace and all the focus is on reducing CO2 emissions. However, our society relies heavily on energy conversions, e.g. for transport. Although some transport uses renewable (liquid) fuels, the CO2 balance is affected. Even if some transport is electrified, more CO2 emissions arise in the manufacture of, for example, batteries (and many cases of fossil-based electricity production). But transport also creates other emissions, so-called local emissions which mainly affect people and nature. As modern combustion engines emit very little air pollution, the composition changes and so-called wear particles also play a greater role in human health. Air pollution causes about 5 million premature deaths and is, after cancer, the greatest threat to human health. But local emissions also affect the climate. For example, marine transport will contribute with so-called albedo effects due to particle emissions (from internal combustion engines) and risk worsening climate change even more. This course deals with all the different aspects of air pollution from transport. WHEN AND HOW: You choose when and at what pace you want to carry out the steps. All parts of the course are free of charge. The course consists of five modules: 1.     Introduction 2.     The energy system and energy carriers 3.     Energy converters (engines) and reduction of emissions (exhaust gas treatment) 4.     Measurement and monitoring 5.     Health effects, societal aspects Each module contains several lectures and for each lecture and module there is a quiz where you can get confirmation that you have understood the most important things. Going through the entire course takes about 3–5 weeks, depending on how intensively/extensively you read. You can also choose to read parts of the course

KursinnehållKursen syftar till att ge en introduktion och överblick av artificiell intelligens. Fokus ligger på att förstå begreppet och några viktiga tekniker som hur sökning och maskininlärning fungerar samt konsekvenser av AI på samhället.  Börja läsa när du vill Du kan börja läsa kursen i stort sett när du vill då kursen är en online-kurs med flexibel antagning. Du gör ansökan till den termin du tänker börja läsa kursen. Vill du börja direkt så ansöker du till innevarande termin, eller så väljer du den termin du tänker börja. Termin väljer du här ovan, så kommer du till rätt ansökningstillfälle. KursformatKursen är en distanskurs som görs i egen takt och hanteras i sin helhet i en web-baserad kursmiljö. Kursen baseras på självstudier av kursmaterialet och examineras med självrättande tester och inlämningar. Du som har gjort Elements of AI kan anmäla dig till den här kursen för att få dina resultat validerade. Det gäller både den svenska och den engelska versionen av kursen. Du måste inte göra om kursen, däremot måste du ladda upp certifikatet från Elements of AI och göra ett valideringstest med frågor motsvarande de som finns i Elements of AI för att säkerställa att det verkligen är du som gått igenom kursen. För mer information se denna länk. Kursen handleds över internet. Information om behörighetObservera att du vid ansökan till kursen måste kunna styrka att du har grundläggande behörighet. Om dina gymnasiemeriter inte redan finns på dina sidor på antagning.se så behöver du ladda upp gymnasieexamen, eller motsvarande, på antagning.se i samband med din ansökan.

KursinnehållKursen syftar till att ge en introduktion till praktisk AI, med fokus på grundläggande maskininlärning. Syftet är att förstå hur man kan skapa AI-system med hjälp av maskininlärning, få inblick i teknikens möjligheter och begränsningar, samt få en överblick över vanliga metoder för maskininlärning. Börja läsa när du villDu kan börja läsa kursen i stort sett när du vill då kursen är en online-kurs med flexibel antagning. Du gör ansökan till den termin du tänker börja läsa kursen. Vill du börja direkt så ansöker du till innevarande termin. Termin väljer du här ovan, så kommer du till rätt ansökningstillfälle.  KursformatKursen är en distanskurs som görs i egen takt och hanteras i sin helhet i en web-baserad kursmiljö. Kursen baseras på självstudier av kursmaterialet och examineras med självrättande tester och inlämningar. Du som har gjort Elements of AI, Part 2: Building AI kan anmäla dig till den här kursen för att få dina resultat validerade. Detta innefattar att göra ett valideringstest med frågor motsvarande de som finns i Elements of AI, Part 2: Building AI för att säkerställa att det verkligen är du som gått igenom kursen. För mer information se denna länk. Kursen handleds över internet. Information om behörighetObservera att du vid ansökan till kursen måste kunna styrka att du har grundläggande behörighet. Om dina gymnasiemeriter inte redan finns på dina sidor på antagning.se så behöver du ladda upp gymnasieexamen, eller motsvarande, på antagning.se i samband med din ansökan.

This is a course for professionals and PhD students seeking a wider understanding of our current global predicaments, how to make sense of them, and how to respond. The first module introduces the Anthropocene, The Great Acceleration, Planetary Boundaries along with causal relationships between energy, technology, economy, values and the human and more-than-human experience. The second module explores how our own cognition, values, norms and emotions guide our responses to the crises of our time, and how we can formulate coherent responses based on our experiences. The third introduces a way of reasoning about the world in terms of interconnected systems instead of independent problems, and explores what such a view means for us. The course is run online with 2h highly interactive seminars connected to each module along with recorded material, readings and exercises.

The main goal of this course is to teach you basic knowledge and skills in argumentation.You will be engaged in co-constructing evidence-based justifications as well as in analyzing existing justifications in search of argumentation fallacies. Individual work as well as group-based work will allow you to practice. You will analyze climate-related articles (published in scientific literature but also in the news) and will extract the implicit underlying arguments and provide their analysis.Ultimately, this course will help you to develop basic argumentative skills needed to critically join the debate in society on climate goals. Who is the course for?CLIMATE GOALS, ARGUMENTATION, EVIDENCE is aimed at anyone who is interested in moving the first steps into the argumentation domain with the purpose of joining the debate on climate goals.An engineer (but also a politician) is expected to have founded arguments before taking any (climate-related) action. A citizen is expected to have founded arguments before engaging and sustaining any climate-related political agenda. How is the course structured?The course is a 4-week course. Each week mainly focuses on a single Intended Learning Outcome.

The information and communication technology (ICT) sector is responsible for approx. 1.8-2.8% of the global greenhouse gas (GHG) emissions in 2020, and software is both part of the problems and the solutions. Traditional software engineering principles and techniques do not consider the climate, environment, and sustainability aspects in building and using software for any purpose. We, software engineers, developers, researchers, climate scientists, and various other related stakeholders, need to think about how we can reduce the carbon footprint due to building and using software-intensive systems. Green and sustainable software engineering is an emerging concept that can help reduce the carbon footprint related to software. In this introductory course, we will introduce the concept of green and sustainable software engineering and the engineering process to build green and sustainable software. Topics Sustainable and green computing Sustainable and green software engineering Process Energy efficient computing Sustainability issues in Scientific computing You will learnBy the end of the course, you will be able to: analyze the green and sustainability issues in traditional software engineering, identify and incorporate key elements to be included in the software engineering process to make the software green and sustainable, and use techniques to make your software code energy efficient. Who is the course for?This course is designed for those who are software developers, managers and software related policy makers, or have knowledge about software development, and want to consider the green and sustainability aspects in their everyday life. Also, this course will be useful for computational scientists who build green software and want to know more about these aspects in software engineering. However, this is an introductory course, and it will show a path for life-long learning to build more in-depth knowledge in each concept introduced in this course.

An introduction to the challenges that both public leadership and governance face in an increasingly digital and globalized world. The content is based on theories and models with global applicability, and uses examples on how Swedish public leadership and governance have met real crises. About the course This course is an accessible introduction to the challenges that both public leadership and governance face in an increasingly digital and globalized world. The content is based on theories and models with global applicability, and uses examples on how Swedish public leadership and governance have met real crises such as climate change, COVID-19, migration crisis, ageing population. The course provides an understanding of how public leadership and governance can address digitalization in sustainable ways building on Swedish illustrations. Topic covered by the course You will get an comprehensive introduction to the challenges that public leadership and governance structure will face through digitalization process.Engage with the topic through your own work and reflection and practice on peer-review on a particular topic.Engage with a selection of relevant and up-to date literature that will be accessible through the course.Who can take the course?The course is open to everyone and free. There are no requirements for prior knowledge or special qualifications to participate in the course. Course structure The course is web-based and is conducted entirely remotely via a web-based course platform. It is divided into four modules: First module will give an overarching introduction to the overall concepts of sustainability, digitalization and democracy. We will be staying mostly conceptual and theoretical in the first week. At the end of the week there will be a digital quiz and an scrapbook assignment. Second module there will be a discussion around institutions and what digitalization has meant looking at practical examples such as Transportation agency and the Linköping Municipality. At the end of the week there will be a digital quiz and an scrapbook assignment. Third week will delve more into the practical implications of diglitalisation for areas such as E-government, social services and health care. At the end of the week there will be a digital quiz and an scrapbook assignment. The last module will be based around self-study and the compilation of a scrapbook that will be uploaded to Lisam and then discussed and reviewed in an online forum setting. Each participant will produce one scrapbook and review three different scrapbooks during the last module.

Målet med kursen är att ge lärare fortbildning inom ämnet djurvälfärd och hållbarhet. Kursens mål är också att ge lärare inspiration att designa sin egen undervisning, att ge lärare möjlighet att ta till sig ny forskning och att dela med sig av läraktiviteter som kan användas av fler.