This OSPI resource provides curated collections of free activities, lessons, units, and informational "texts" (articles, passages, e-books, videos, podcasts) to support every NGSS Performance Expectation (standard) in grades K-5.  This resource is intended to support teachers with teaching science while also integrating science and ELA to grow student knowledge, thinking, application, and skills in both content areas.  Materials are organized into units based on the topics and essential questions in each grade. Resources listed are all freely available online, with some requiring teachers to create free accounts to access.  Some trade books are also listed that might be accessed through a library system. Gratitude is expressed to the Washington State Science Fellows, Science Fellows Emeriti, and ELA Fellows who contributed to curating the informational texts.  For questions or comments contact OSPI Elementary Science at Kimberley.Astle@k12.wa.us. 

For those who have previously discovered this resource, we would like to direct you to a new and improved version that now adds curated and freely available  informational "texts" (articles, passages, e-books, videos, podcasts) to support every NGSS Performance Expectation (standard) in grades K-5. This is to support elementary teachers with designing for learning that integrates science and literacy.  Click "View Resource" above for the link.This adds an additional layer to the previous resource that listed freely available activities, lessons, units, and whole-year curricula for every K-5 NGSS Performance Expectation.Please email kimberley.astle@k12.wa.us at OSPI Elementary Science with feedback and questions.  

Join us on a mission to keep the coffee hot! Students will investigate the insulating properties of different materials and will design a mug sleeve for a grown-up to keep their coffee or tea nice and hot!

Elementary Science and Integrated Subjects is a statewide Clime Time collaboration among ESD 123, ESD 105, and the Office of Superintendent of Public Instruction. Development of the resources is in response to a need for research- based science lessons for elementary teachers that are integrated with English language arts, mathematics and other subjects such as social studies. The template for Elementary integration can serve as an organized, coherent and research-based roadmap for teachers in the development of their own NGSS aligned science lessons.  Lessons can also be useful for classrooms that have no adopted curriculum as well as to serve as enhancements for  current science curriculum. 

The Kindergarten Elementary Framework for Science and Integrated Subjects, Wild Weather, uses severe storms as a phenomena for exploring natural and man-made hazards and staying safe in those conditions.  It is part of Elementary Framework for Science and Integrated Subjects project, a statewide Clime Time collaboration among ESD 123, ESD 105, North Central ESD, and the Office of Superintendent of Public Instruction. Development of the resources is in response to a need for research- based science lessons for elementary teachers that are integrated with English language arts, mathematics and other subjects such as social studies. The template for Elementary Science and Integrated Subjects  can serve as an organized, coherent and research-based roadmap for teachers in the development of their own NGSS aligned science lessons.  Lessons can also be useful for classrooms that have no adopted curriculum as well as to serve as enhancements for  current science curriculum. The EFSIS project brings together grade level teams of teachers to develop lessons or suites of lessons that are 1) pnenomena based, focused on grade level Performance Expectations, and 2) leverage ELA and Mathematics Washington State Learning Standards.

In early 2021, 80 Washington citizens from all walks of life gathered virtually to learn from 40 presenters to make recommendations to the Washington state legislature about how to mitigate climate change in our state. Specifically, the Assembly addressed was:How can Washington State equitably design and implement climate mitigation strategies while strengthening communities disproportionately impacted by climate change across the State?This series uses videos of the Assembly speakers to help teachers increase their climate change background knowledge, explore teaching resources and consider ways to bring this learning to students. Each session of the series includes 1 - 3 related recorded presentations from the Climate Assembly, plus accompanying materials, and activities. 

This resource is a phenomenon-based adaption to the Smithsonian's STCMS Matter and Its Interactions kit. The anchoring phenomenon event features a railroad tanker that collapses due to the phase changes of water that was used to clean it. Students will investigate what causes phase changes, energy transfer, thermal energy, the law of conservation of mass, and atoms and molecules throughout the three week unit.

This assessment task, from ClimeTime educators, is aligned with middle school grades 6-8. The assessment context within the middle school curriculum is thermal energy transfer and developing a model for particle motion as energy transfers. Students are presented with a discrepant event when two ice cubes of the same size next to each other melt at astonishingly different rates. Before starting this assignment, students should have practice with drawing motion lines on particles and with drawing arrows for direction of heat transfer – this is not their first activity working with conduction and particles.
Resource includes a student task document, teacher guide, and task facilitation slides.

In this assessment task from ClimeTime educators, students model thermal energy transfer between a hot liquid and a cooler solid, exploring how this might also occur in everyday phenomena.
Resource includes a student task document, teacher guide, and task facilitation slides.

This task, from ClimeTime educators, is targeted to students in grades 6–8 studying body systems or algal blooms. Students develop a model showing the interactions that allow humans to detect issues in water quality based on the taste of the water.
Resource includes a student task document, teacher guide, and task facilitation slides.

This task, by ClimeTime educators, is targeted to students in grades 6–8 studying ecology and human impacts on the environment. Students identify relationships between human activity and environmental impacts on water resources. Educators can leverage students’ ideas to assess understandings of criteria in evaluating solutions.
Resources include a student task document, teacher guide, and task facilitation slides.

Mosquito! is a freely available community research guide developed by the Smithsonian Science Education Center (SSEC) in partnership with the InterAcademy Partnership as part of the Smithsonian Science for Global Goals project. These Smithsonian Science for Global Goals community research guides use the United Nations Sustainable Development Goals (SDGs) as a framework to focus on sustainable actions that are defined and implemented by students.

Mosquito! is a module broken up into seven parts. Each part contains a series of tasks to complete. Each task contains additional resources to support that task. We have provided a suggested order for the parts and tasks. However, the structure of the guide hopefully allows you to customize your learning experience by selecting which parts, tasks, and resources you would like to utilize and in what order you would like to complete them.

The Integrated Conceptual Science Program Course 1 Integrated Physics and Chemistry is a three dimensional course based on the Conceptual Progression Model of the Next Generation Science Standards. It is designed to be used as part of a three course program that addresses all high school science performance expectations. Course 1 is designed for ninth grade students.
This resource includes the teacher materials, supporting documents, and short videos to support teachers in using the materials.
The Courses were designed using the Ambitious Science Teaching (AST) framework. It is strongly encouraged that before using these materials that you be familiar with AST. We suggest that you watch the AST Overview short video found here: https://datapuzzles.org/ambitious-science-teaching and explore this Google Slide deck that contains many resources designed to further your understanding of AST: https://docs.google.com/presentation/d/1WOUVmlm636_7i2l0GYa9JkX1TCK3NMdySfpxKN7IM7A/edit?usp=sharing

This Wakelet is a collection of links to free online resources that address all areas of teaching the Next Generation Science Standards (NGSS). The resources are grouped together in smaller, topic-based collections. A range of resources are provided for K-12, and additional links will be continually added to the collection. 

This learning resource will engage you and your colleagues in learning more about the importance of NGSS. You will build awareness and learn more about how to implement the Next Generation Science Standards in your own setting. We envision this professional learning taking place in an ongoing community of practice. We encourage you to determine and proceed at your own pace that reflects the needs of your team.

Image by Gorkhs from Pixabay

The Next Generation Science Standards (NGSS)* call for students to use the practices, concepts and content of science and engineering to understand phenomena and solve problems that are relevant to their lives. Starting from a student’s own experiences and community makes the science meaningful and increases engagement while helping students understand how global issues like climate change are present and addressable in their lives. In this series we examine how you can use the new science standards and your community to understand and address real world environmental problems and explore together how to integrate NGSS into your district’s classroom science units.Mapping neighborhood assets, opportunities, and problems can engage students more deeply in science and engineering. In this workshop you’ll learn how system models, looking for patterns, and observing change over time can help students investigate and map their community. Local ecosystems, water flow, and community assets are some of many possible areas for your mapping efforts. By the end of this workshop you’ll have strategies to use in mapping your community and ideas for how you can use the information gathered.

The Next Generation Science Standards (NGSS)* call for students to use the practices, concepts and content of science and engineering to understand phenomena and solve problems that are relevant to their lives. Starting from a student’s own experiences and community makes the science meaningful and increases engagement while helping students understand how global issues like climate change are present and addressable in their lives. In this series we examine how you can use the new science standards and your community to understand and address real world environmental problems and explore together how to integrate NGSS into your district’s classroom science units.How does engineering relate to solving problems in your community? Learn how IslandWood is using the engineering design process to help students investigate local stormwater problems, seek stakeholder input, and develop solutions. Explore what is involved in putting student ideas into action including possible real-world constraints, practical small-scale solutions potential partners, and mini-grant options. We’ll work together to figure out a plan for the topics and students you teach.

The Next Generation Science Standards (NGSS)* call for students to use the practices, concepts and content of science and engineering to understand phenomena and solve problems that are relevant to their lives. Starting from a student’s own experiences and community makes the science meaningful and increases engagement while helping students understand how global issues like climate change are present and addressable in their lives. In this series (NGSS in Action: Science and Engineering in your Schoolyard) we examine how you can use the new science standards and your community to understand and address real world environmental problems and explore together how to integrate NGSS into your district’s classroom science units.Workshop 1: Science in Action Description: "Venture outside the walls of the classroom to find local environmental phenomena that can anchor your classroom science unit. Explore with us the big picture of Next Generation Science Standards’ “three dimensional” science learning and then get hands on with the Science and Engineering Practices as you use them to build an understanding of an example phenomenon in our 'schoolyard.' You’ll leave this workshop with ideas and examples you can use in your own classroom science curriculum."

The Next Generation Science Standards (NGSS)* call for students to use the practices, concepts and content of science and engineering to understand phenomena and solve problems that are relevant to their lives. Starting from a student’s own experiences and community makes the science meaningful and increases engagement while helping students understand how global issues like climate change are present and addressable in their lives. In this series we examine how you can use the new science standards and your community to understand and address real world environmental problems and explore together how to integrate NGSS into your district’s classroom science units.Would you like to learn more about how urban water systems actually work? Are you curious how water systems, the impacts of climate change, and related conservation issues can interest your students and integrate with NGSS? Join us to learn about wastewater and stormwater systems (may include tours of facilities, depending on the site) and then workshop how you might use this content in your classroom. Appropriate for all 4th-12th grade teachers.

The original Native American story component lesson was developed as part of an Office of Superintendent of Public Instruction (OSPI) and Washington State Leadership and Assistance for Science Education Reform (LASER) project funded through an EPA Region 10 grant. The stories were told by Roger Fernandes of the Lower Elwha Klallam tribe. Mr. Fernandes has been given permission by the tribes to tell these stories.As these lessons and stories were shared prior to the adoption of the Washington State Science Learning Standards in 2013, there was a need to align these stories with the current science standards. This resource provides a current alignment and possible lesson suggestions on how these stories can be incorporated into the classroom. This alignment work has been funded by the NGSS & Climate Science Proviso of the Washington State Legislature as a part of North Central Educational Service District's award.