Without out a doubt the recent pandemic has demonstrated that, the efforts in the science classroom towards scientific literacy are more relevant than ever. In this session participants will learn simple effective visual literacy tools and strategies that make learning science visible to all students, supporting diversity and reinforcing scientific literacy skills that help students make sense of the world. The strategies and tools used in this presentation will highlight the need to incorporate visual literacy as current brain research shows that around 60% of information we process every day comes in visual form. Sometimes chunking content to smaller learning bites can lower the understanding of concepts and ideas, especially if these concepts are abstract in nature; learning how to maximize the use of visuals both student and teacher made supports deeper understanding not just on a particular concept but of how they are connected making sense of the world. These strategies support cultural competency as they support learner diversity while working on scientific literacy skills such as use of evidence/data, pose questions, find answers. By having a common visual as point of reference along with strategy and tools not only closes the gap on background knowledge and makes accessible to all students but also helps student and teachers have meaningful discourse highlighting students strengths to solve real world problems.

TAKEAWAYS:
In this session participants will learn simple effective visual literacy tools and strategies that make learning science visible to all students, supporting diversity and reinforcing scientific literacy skills that help students make sense of the world.

SPEAKERS:
Marjorie Miles Dozier (Polk County Public Schools: Bartow, FL)

Science literacy is essential to be informed and engaged citizens in the 21st century. Data are what we use to do science. Thus, reading and making sense of real-world data are fundamental skills to being scientifically literate and a fun way to engage learners with science. However, how do we incorporate data into K-8 science without feeling overburdened with yet another thing to teach? By integrating it into what we are already doing! Join us to explore the connections between data, science, and literacy. We will experience research-based strategies and freely available resources for integrating phenomenon-based and local data into our science instruction to promote science literacy. We will participate in activities ourselves and reflect on approaches for how to bring these into our classrooms. The goal is to increase our data toolkit of strategies and resources to increase science literacy and relevance for students. Participants will leave more empowered to integrate data into their science content in purposeful ways to better helps students do and communicate science. Working with and learning from data fosters critical thinking skills, lifelong interests in science, and facilitates learners’ literacy skills. Let’s set our students up for success now and in the future!

TAKEAWAYS:
Participants will identify how data literacy is a critical aspect of science literacy in the 21st century and how to leverage existing strategies to authentically integrate data into K-8 science instruction to teach their science content and increase literacy simultaneously.

SPEAKERS:
Kristin Hunter-Thomson (Dataspire Education & Evaluation, LLC: No City, No State)

How are you engaging all students in critical skills to ensure they are ready for the future of work? What does the classroom feel, sound, and look like when students are making sense of their world and solving real-world problems? Join the alumni from the 2021 Northrop Grumman Foundation Teachers Academy as they share the ways they have transformed their schools/classrooms to align with the reality of work as experienced alongside engineers, technologists, and scientists.

TAKEAWAYS:
Strategies to integrate workforce skills aligned with the vision of the K–12 Framework.

SPEAKERS:
Rachel Kenning (Spring Creek Middle School: Providence, UT), Anthony Carter (Middle River Middle School: Middle River, MD), Yevgeny Pevzner (Kearns Junior High School: Salt Lake City, UT), Leilani O'Dell (Roscomare Road Elementary School: No City, No State)

Hexagonal Thinking ensures the learning environment features a high degree of student engagement by providing a framework for academic discussion where all students participate. Participants will collaborate with colleagues to experience Hexagonal Thinking using science and math content vocabulary and visuals that will then be used to synthesize information into a piece of critical writing.

TAKEAWAYS:
Participants will learn a strategy for making thinking, learning and content connections visible in the classroom.

SPEAKERS:
Michelle Yates (Aledo ISD: Aledo, TX), Miranda Rosenhoover (Aledo ISD: Aledo, TX)

In this session, the co-editors of the recent NSTA Press book, Crosscutting Concepts: Strengthening Science and Engineering Learning, will take a deep dive into how crosscutting concepts can be more explicitly leveraged to strengthen science instruction. Presenters will illustrate how two instructional units—one elementary and one secondary—have developed CCCs as lenses on phenomena in order to better connect with students’ everyday experiences and to enhance students’ ability to meaningfully integrate SEPs, DCIs, and CCCs to make sense of authentic phenomena and problems.

TAKEAWAYS:
CCCs are: 1) lenses on phenomena and problems; 2) critical to sensemaking about phenomena and problems; and 3) most useful when meaningfully integrated with SEPs and DCIs.

SPEAKERS:
Jeff Nordine (The University of Iowa: Iowa City, IA), Okhee Lee (New York University: New York, NY)

Water: It’s constantly in use all around us, but did you know that you can recycle water just like paper or plastic? Droughts and water scarcity are becoming an increasingly common phenomenon, and it is estimated that nearly 6 billion people will suffer from clean water scarcity by 2050. Yet, every year, Americans throw 11 trillion gallons of reusable water, also known as grey water, down the drain. In this series of lessons, students will learn about where their water comes from, the human water cycle, the three types of water and the connection between droughts and climate change. These lessons will also tie into the broader themes of sustainability and climate science and incorporate hands-on STEM activities and career connections. The lessons are primarily for elementary students but can be adapted for older audiences. They will be free for all teachers to use in their classrooms and are developed by Shreya Ramachandran, founder of The Grey Water Project in concert with educators. Join us for the presentation to learn more about grey water, why teaching about grey water and water conservation is important and how you can bring this to your classroom!

TAKEAWAYS:
Session participants will learn about grey water reuse and water recycling and how they can be effective drought solutions.

SPEAKERS:
Shreya Ramachandran (Stanford University: Stanford, CA)

Using real-world phenomena asks students to puzzle out answers to problems that occur in their day-to-day lives. It encourages students to enter into sensemaking using their own prior knowledge and tools. One of the best tools to make sense of a phenomenon is math. Learn from CCSS Math and NGSS specialists about using mathematical thinking to promote scientific literacy. This session includes a focus on student agency, sensemaking, and supporting connections between the STEM classroom and real-world phenomena. The presenters will map CCSS Mathematics and NGSS connections while providing strategies for increasing agency and sensemaking in the classroom. Questions we will consider include: How do we support all students in becoming mathematical thinkers? How do we promote agency by providing students with authentic, engaging opportunities to collect, analyze, and interpret real-world data? How can phenomena and questioning techniques support mathematical thinking?  Come explore new possibilities of what high-quality sensemaking with math can look like for all learners.

TAKEAWAYS:
Teachers will take away strategies to integrate mathematical thinking into student sensemaking about scientific phenomena.

SPEAKERS:
Emily Mathews (NSTA: Arlington, VA), Alanna Mertens (DePaul University STEM Center: Chicago, IL)

In this session, the participants will explore some lessons developed by teachers in the National Space Biomedical Research Institute-Teacher Academy Project (NSBRI-TAP). These are interactive, physical and focus on spatial disorientation and the musculoskeletal system as affected by microgravity. The teachers will engage in the activities and collect sample data as they would with students and interpret the results. These are both educational and fun as we need to desperately restore enthusiasm for science studies. The presenter has anecdotal stories from many astronauts of their physiological reaction to microgravity conditions that he will share. Teachers will be provided lesson plans and worksheets for use with their students. Sample activities: Title: IN-FLIGHT EXERCISES Grade Level: 5-8 Content Area: Life Science and Health National Science Content Standards: Standard A. Science as Inquiry (Grades 5-8 & 9-12) • Abilities necessary to do scientific inquiry • Understandings about scientific inquiry Standard C. Life Science (Grades 5-8) • Structure and function in living systems • Regulation and behavior Standard F. Science in Personal and Social Perspectives (Grades 5-8 & 9-12) • Personal health Title: SHIFTY EYES Grade Level: 5-8 Content Area: Space/Life Science National Science Content Standards: Unifying Concepts and Processes (Grades 5-8) Models Standard C. Life Science (Grades 5-8) Structure and function in living systems Regulation and behavior Diversity and adaptations of organisms Dr. Wilson also participated in two experiments on NASA’s KC-135 (Vomit Comet): 1) testing a resistance exercise machine to fly in space designed at The Cleveland Clinic and 2) an experiment where the corn earworm (Helicoverpa zea) was subjected to microgravity while a control group of worms was grown by elementary students in Las Cruces, NM. He will explain and share the results of these experiments and of one flown by teachers from Miami-Dade School District in Florida involved in his Future Scientists Program.

TAKEAWAYS:
The International Space Station (ISS) is a research platform and is helping scientists develop countermeasures to the adverse effects of long-duration spaceflight on the human body.

SPEAKERS:
Craig Wilson (Texas A&M University: College Station, TX)

Budburst is a national community science project that brings together researchers, educators, gardeners, and community scientists to make careful observations of the timing of plant life cycle events, or phenophases. Changes over time can be used to illustrate how plants and ecosystems are being affected by human impacts on the environment, especially climate change. By joining Budburst, students can connect to nature wherever they live while participating in an authentic scientific investigation with real-world impacts. In this session educators will learn how they can use Budburst to engage their students in collecting and using real scientific data to examine local plant phenomena and address the NGSS. They will learn about the resources freely available to educators on the Budburst website, including tools allowing them to (1) create their own virtual classroom and set up student accounts, (2) collect and submit data with students, and (3) access existing data to help students ask and analyze their own questions about plants, ecosystems, and climate change. Finally, participants will learn how other educators have implemented Budburst in their classrooms and explore how they can use this flexible platform to scaffold their students’ participation in different stages of the scientific process.

TAKEAWAYS:
Learn to engage students in local plant phenomena and real-world climate change science using Budburst resources.

SPEAKERS:
Sarah Jones (Chicago Botanic Garden: Glencoe, IL), Rebecca Ammann (Chicago Botanic Garden: Glencoe, IL)