ClimateSim is a fast and simple climate modeling and simulation tool. It is a web app that is freely available to anyone interested in climate science. ClimateSim allows users to model scenarios of greenhouse gas emissions in the current century and simulates the first-order response of the earth system. ClimateSim makes climate simulation accessible in a simplified form and provides an easy-to-use simulation platform for performing virtual climate experiments. ClimateSim is primarily targeted as a science education tool for undergraduate and advanced high-school students in physics, environmental science and related courses. Instructors can use ClimateSim to illustrate climate-change concepts, demonstrate dynamic relationships between climate variables, and assign simulation-based exercises as part of their courses. It is also an appropriate and accessible tool that policymakers, journalists and others can use to get a better understanding and working knowledge of the basics of climate science.

With students and educators under shelter-at-home orders, states and districts are faced with difficult decisions about how to support students’ science learning while they are home. Home environments support different aspects of student learning than school-based environments. Designing home-based learning experiences to intentionally take advantage of the unique assets of being at home can be supportive of students’ social, emotional, and mental health; provide a meaningful and complementary science learning experience; and allow students to explore real-world and personally relevant science in ways that are difficult to accomplish in school. Field-based examples of home and neighborhood investigations of ecological systems will be shared.

The Washington State Legislature has invested $16 million in climate science education since 2018. This portal contains links to professional learning resources and instructional materials developed by the ClimeTime network of educational partners who came together as a result of this funding. ClimeTime partners provide climate science professional learning to Washington science teachers, using innovative strategies and effective practices. Many projects also create instructional materials aligned with the Next Generation Science Standards, to support student climate science learning.

This Professional Development course sets up teachers and students to use the perimeter of their school to inquire about and monitor air quality as well as learn about emissions and activism in their community.Did you know idling cars during school pickup impacts air quality and the environment? Learn how to use an easy-to-implement action project to motivate and empower your students. Your students will build an understanding of how air pollution impacts their community and the climate and learn what community members are doing about it. They will then work together to map their findings, develop an action plan and share what they have learned.Learn how the Next Generation Science Standards Engineering Design Process and Social Studies standards can be an integral part of students working on real-world problems.Explore the social-emotional side of climate change and how direct action can foster resilience and environmental justice.Collaborate with teachers from across the region to have a collective impact on air quality and the environment.#climate science #islandwood (already searchable on text)

D-Lab: Water, Climate Change, and Health is a project-based, experiential, and transdisciplinary course. Together with peers and experts, we will explore the vitally important interface of water, climate change, and health. This course addresses mitigation and adaptation to climate change as it pertains to water and health. Water-borne illness, malnutrition, and vector-borne diseases represent the top three causes of morbidity and mortality in regions of our focus. Students submit a term project, setting the stage for a lifelong commitment to communicating climate science to a broad public.

D-Lab: Water, Climate Change, and Health is a project-based, experiential, and transdisciplinary course. Together with peers and experts, we will explore the vitally important interface of water, climate change, and health. This course addresses mitigation and adaptation to climate change as it pertains to water and health. Water-borne illness, malnutrition, and vector-borne diseases represent the top three causes of morbidity and mortality in regions of our focus. Students submit a term project, setting the stage for a lifelong commitment to communicating climate science to a broad public.

The Climate 101 presentation was developed by Brandon Leshchinskiy in collaboration with Professor Dava Newman, MIT Portugal, and EarthDNA in an effort to mobilize young people as educators on the issue of climate change. The presentation addresses not only the science but also the economics and civics of climate change, incorporating a negotiation activity that brings key concepts to life.
This resource includes the slides and instructions for the presentation, along with an introductory video from Prof. Newman, a video of Leshchinskiy actually delivering the presentation to a classroom full of students, and extensive supporting materials that will help users to become climate ambassadors and deliver the Climate 101 presentation themselves.

In this virtual professional development opportunity designed for teachers, EarthGen explores two global crises taking place concurrently - the climate crisis and COVID-19. What are the connections between the two? Why are BIPOC (Black, Indigenous, People of Color) communities disproportionately affected by both? Educators receive foundational information around climate justice, analyze the variables associated with vulnerability, exposure, and risk, and explore educational resources to bring this content into their classrooms.Contact EarthGen at info@earthgenwa.org for more information.

This book is intended for use by future teachers, written from the perspective of students who have taken Science Methods II. The student authors gathered and created resources to help prospective elementary cience teachers better understand science and feel confident in your abilities as a future teacher.
This book is divided into five parts which align with the Science Methods II course:

Physics
Space Science
Earth Science
Climate Science
Course Materials and Pedagogy

Within each part, the material is broken down into smaller chapters. Here you will find written explanations, video links, glossary terms, key takeaways, and practice quizzes to help you understand the material. This book is designed to be a flexible resource; use it as much or as little as you need throughout the course.

This course examines the choices and constraints regarding sources and uses of energy by households, firms, and governments through a number of frameworks to describe and explain behavior at various levels of aggregation. Examples include a wide range of countries, scope, settings, and analytical approaches.
This course is one of many OCW Energy Courses, and it is a core subject in MIT’s undergraduate Energy Studies Minor. This Institute-wide program complements the deep expertise obtained in any major with a broad understanding of the interlinked realms of science, technology, and social sciences as they relate to energy and associated environmental challenges.

This course examines the choices and constraints regarding sources and uses of energy by households, firms, and governments through a number of frameworks to describe and explain behavior at various levels of aggregation. Examples include a wide range of countries, scope, settings, and analytical approaches.
This course is one of many OCW Energy Courses, and it is a core subject in MIT’s undergraduate Energy Studies Minor. This Institute-wide program complements the deep expertise obtained in any major with a broad understanding of the interlinked realms of science, technology, and social sciences as they relate to energy and associated environmental challenges.

Exploring Climate Science With Virtual Reality, a Teacher/Scientist Partnership experience. High school teachers engage with working scientists and engineers to for content learning for climate science and virtual reality and engage in follow-up sessions with professional development facilitators to develop pedagogical expertise for use in creating formative classroom tasks that are formative and productive. It is a three day initial workshop with four follow-up days to
1) deepen teacher understanding by learning with climate scientists to understand climate science standards content knowledge
2) increase awareness and knowledge of the use of virtual reality devices in climate science learning
30 to co-develop a climate science simulation game for use on Oculus Go devices with teachers, their students and a virtual reality scientist/engineer team
4) to develop and implement embedded formative classroom tasks that
complement climate science learning by using a relevant, place based phenomena, and provide insights into student thinking and productive next steps in learning.

Creative Commons License CC BY
Exploring Climate Science With Virtual Reality Professional Learning Module by Georgia Boatman, ESD 123 and Peggy Willcuts PNNL is licensed under a Creative Commons Attribution 4.0 International License.

This lesson was developed by Wild Whatcom (www.wildwhatcom.org) for the Clime Time initiative. The lesson included expands on knowledge of Forest Succession. This outdoor lesson can happen in any natural setting whether it be on a school play field, in a garden, or in a forest. The lesson allows students to role play what it would be like to live in a forest undergoing natural occurances with varying effects due to different management styles. This lesson is best conducted after the concepts of forest succession or natural extreme weather patterns have been discussed.

This course introduces the basic science underpinning our knowledge of the climate system, how climate has changed in the past, and how it may change in the future. The course focuses on the fundamental energy balance between incoming solar radiation and outgoing infrared radiation in the climate system, and how this balance is affected by greenhouse gases. We will also discuss physical processes that shape the climate, such as atmospheric and oceanic convection and large-scale circulation, solar variability, orbital mechanics, and aerosols, as well as the evidence for past and present climate change. We will discuss climate models of varying degrees of complexity, and you will be able to run a model of a single column of the Earth’s atmosphere to simulate many of the important elements of climate change.
This course is part of the Open Learning Library, which is free to use. You have the option to sign up and enroll in the course if you want to track your progress, or you can view and use all the materials without enrolling.

This sequence of instruction was developed in the Growing Elementary Science Project to help elementary teachers who were working remotely.  We developed a short storyline that ties together a few sessions to help explore a specific concept.  We tried to include some activities that honored and included the student’s family and experience, and some that included the potential for ELA learning goals.Unlike other units in our series, this was not developed as a complete stand-alone unit. Our intent, in this case, was to provide a set of options for the teacher, as well as some materials for consideration of opportunities to integrate reading in science.It is part of ClimeTime - a collaboration among all nine Educational Service Districts (ESDs) in Washington and many Community Partners to provide programs for science teacher training around Next Generation Science Standards (NGSS) and climate science, thanks to grant money made available to the Office of the Superintendent of Public Instruction (OSPI) by Governor Inslee. 

This class uses revolutionary programmable interactivity to combine material from three fields – Computer Science + Mathematics + Applications – creating an engaging, efficient learning solution to prepare students to be sophisticated and intuitive thinkers, programmers, and solution providers for the modern interconnected online world.
Upon completion, students are well trained to be scientific “trilinguals,” seeing and experimenting with mathematics interactively as math is meant to be seen, and ready to participate and contribute to open source development of large projects and ecosystems.

To inform and empower the public on the complex issue of climate change, the Massachusetts Institute of Technology has created a Climate Portal, an online home for timely, science-based information about the causes and consequences of climate change—and what can be done to address it. Whether you are new to climate change or ready for a deeper exploration, the MIT Climate Portal offers a virtual place to ground your knowledge and ask your questions of experts. It also highlights MIT’s latest climate change research and initiatives for action.
The MIT Climate Portal is managed by the MIT Environmental Solutions Initiative, with support from the MIT Office of the Vice President for Research.

This sequence of instruction was developed in the Growing Elementary Science Prjoject to help elementary teachers who were working remotely.  We developed a short storyline that ties together a few sessions to help explore a specific concept.  We tried to include some activities that honored and included the student’s family and experience, and some that included the potential for ELA learning goals.
The book “Storm is Coming!” introduces students to the idea of severe weather. Students observe a time-lapse video of a hail storm.  Students interview a family member about a memorable weather event and what that person did to prepare and stay safe.  Students explore the implications of all of their interviews.  Students make plans for how they can prepare for future weather events, including an Engineering Design exercise. 
It is part of ClimeTime - a collaboration among all nine Educational Service Districts (ESDs) in Washington and many Community Partners to provide programs for science teacher training around Next Generation Science Standards (NGSS) and climate science, thanks to grant money made available to the Office of the Superintendent of Public Instruction (OSPI) by Governor Inslee. 

IDS.410J Modeling and Assessment for Policy explores how scientific information and quantitative models can be used to inform policy decision-making. Students will develop an understanding of quantitative modeling techniques and their role in the policy process through case studies and interactive activities. The course addresses issues such as analysis of scientific assessment processes, uses of integrated assessment models, public perception of quantitative information, methods for dealing with uncertainties, and design choices in building policy-relevant models. Examples used in this class focus on models and information used in earth system governance.

Lesson plan to explore how snow crystals form, atmospheric conditions that influence crystal morphology. Makes connections crystals, snow density and water content