Hurricanes, flash floods, and wildfires. Climate change brings more extreme weather, and the results can be catastrophic to our communities. As the weather becomes more severe, there is an increased need for shelters that can be easily transported and assembled to provide relief shelter for families who have been displaced from their homes. In this session, attendees will engage in an authentic STEM inquiry implemented in third and fourth-grade classrooms. The inquiry was designed so that students would be able to explore homelessness caused by natural disasters and design a tiny house prototype for a family in need. Participants will learn about planning and implementing a place-based and integrated STEM inquiry during this session. A major focus will be on planning and sensemaking as students learn through authentic opportunities and real-world mathematics and science. The presenter will share experiences using the Design Thinking Framework and place-based methodology as a guide for implementing and designing integrated STEM inquiries. In addition, the presenter will give specific strategies for developing problem statements to engage students in empathetic responses within STEM inquiries. The presenter will also share specific strategies for developing empathy during STEM inquiries for elementary-aged students. Participants will have the opportunity to experience key parts of the inquiry and view student examples.

TAKEAWAYS:
1. Engage participants in NGSS-based engineering design challenge where participants are required to design a solution for homelessness caused by natural disasters (hurricane, floods, wildfire); 2. Learn the role of empathy in authentic STEM inquiries by using Design Thinking principles; and 3. Outline possible place-based strategies for implementing STEM inquiries in upper elementary classrooms that engage all learners in STEM.

SPEAKERS:
Jennifer Williams (Isidore Newman School: New Orleans, LA)

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)

Trade books are often used to support science instruction, and are an effective way to connect ideas about how science works to classroom science experiences. In this workshop, we will share a rubric for evaluating trade books for science read-alouds and discuss how the tool can be used to inform instruction (e.g., developing discussion questions). The rubric focuses on four concepts related to humanizing science, and aligned with views of nature of science in the Next Generation Science Standards: Science is done by diverse people, Scientists interpret empirical evidence to support their claims, Scientists use a variety of methods, and Scientists are creative at all stages of their investigations. These four concepts support students’ understanding of how science works, laying the foundation for being an effective consumer of science. Additionally, these four concepts present a more accurate representation of scientists, in contrast with many long-standing stereotypes about scientists. Attendees will have the opportunity to use the rubric to analyze elementary-level science trade books and develop a plan for implementing the read-alouds in class. We will conclude by examining how teachers can layer selected trade books effectively into their existing science curriculum.

TAKEAWAYS:
Attendees will learn why representing science as a human activity is important for students’ understanding of how science works, and will learn how to select and plan for read-alouds of books that humanize science into their existing science curriculum.

SPEAKERS:
Jeanne Brunner (University of Massachusetts Amherst: Amherst, MA), Kathleen Mahoney (Doctoral Student)

By the end of this session, participants will be able to: - Explain the impact of roads on wildlife - Analyze data to design wildlife-friendly crossing structures - Use hands-on tools to teach STEM concepts The majority of this session will focus on real world data analysis and problem solving. Working in small groups, participants will propose solutions to a number of related scenarios. First, they’ll analyze data to determine if highways pose a significant threat to wildlife. Relevant vocabulary will be introduced – including fragmentation, migratory barriers, porosity and passage rates – as we explore the need for ways to move animals across highways without impacting humans. Once a need is determined, they’ll continue their exploration by looking at potential crossing structure solutions. They’ll identify structure location and wildlife-friendly designs to ensure the highest use. They’ll be asked to either create a model or blueprint of their design. Finally, participants will discuss ways to determine the crossing structure effectiveness. This will include a cost/benefit analysis. Additional resources to expand learning will be shared, including links, books, videos, contacts and professional development.

TAKEAWAYS:
Science and Engineering Practices are used by wildlife biologists to help manage wildlife populations and those same skills can be developed in students.

SPEAKERS:
Eric Proctor (Arizona Game and Fish Department: Phoenix, AZ)

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)

Come join us as we participate in a Darwinian speculation reimagined as a Thought Experiment. This is a classic STEAM approach.

TAKEAWAYS:
See how to integrate the arts into STEM = STEAM.

SPEAKERS:
Christina Derusha (Science Teacher: , IL), Vito Dipinto (National Louis University at Wheeling: Wheeling, IL)

Participants will organize in groups and receive clues and puzzles to learn about genetic modification then be tasked to “break out” unlocking BreakoutEDU boxes. Puzzles include myths and facts; GMO or not?; Misleading label; and general terms related to genetics, and recombinant DNA. This activity could be used as review of genetics concepts or as a way to engage learners in research about genetically modified organisms. Free curriculum is available from grownextgen.org.

TAKEAWAYS:
Dispelling many of the myths about genetically engineered crops. An engaging way to involve every student in the process of problem-solving. Introduction to more resources about the connection between agriculture and science concepts.

SPEAKERS:
Jane Hunt (Nourish the Future - Education Projects, LLC: Columbus, OH)

Come explore creative storylines for integrating up-to-date, research-driven climate science into high school Chemistry courses.

TAKEAWAYS:
1. Climate-related storylines provide powerful frameworks for students to learn fundamental chemistry core ideas and reinforce understandings of crosscutting concepts and science and engineering practices; 2. The wealth of Earth-orbiting NASA satellite data now available in real time provides us with an unprecedented understanding of the science of climate change and also provides many opportunities for student experiential learning; and The latest advances in climate modeling can allow all students to both see the inequitable impacts that humans are currently having on Earth systems and build a sense of hope in how future changes in human practices can reverse current impact trends.

SPEAKERS:
Michael Wysession (Washington University in St. Louis: Saint Louis, MO)

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)

To help develop more scientifically curious and literate students, we use scientific literature or documentaries to engage students in developing the NGSS science practices. Students find an interesting topic, generate a question, collect and analyze data and then develop a Science Installation that communicates their learning to the greater community. Our most recent class project had students study how to grow food in a simulated Mars environment with the conditions controlled by student programmed raspberry pis. High school students organized 6th graders to do hands on data collection. They created a 10x12 foot exhibit that looked like a Martian landscape and highlighted the equipment they used with the plants still growing. The display included QR codes to communicate data and research using student-created videos, infographics, and data tables. Other installations include a monochromatic yellow room where everything looks grey and allowed observers to learn about the properties of light and the ways light energy is used in photosynthesis, the way it can be used to promote electrons, and the way it produces color. Other exhibits include sound waves and a history or music and musical instruments, the chemistry of color, and an environmental study of our use of carbon.

TAKEAWAYS:
Participants will learn how to guide students in the reading of scientific literature or the watching of documentaries in order to generate an authentic question and project. (How can we develop the capacity to farm on Mars? How does yellow monochromatic light produce the absence of color (an episode of Abstract, What can we learn about pollen structure from 3D printed files from Bayer’s agricultural division?) Participants will review a process to take the question and generate an authentic study that transcends a single class, grade, or discipline. (Students in 11th grade worked with students in 6th grade to test growing plants under controlled conditions that simulated Mars. Students in art and physics classes explored the properties of light and created a light-based art exhibit with science lessons on QR codes) Participants will explore a template for guiding students through the creation of an installation/exhibit that creatively shows the question, their experiment, their analysis, and potential solutions or conclusions in a creative and community-informing way. The exhibit is similar to an art installation with QR codes and experiment/study artifacts presented in a museum like scenario.

SPEAKERS:
Elizabeth Helfant (Mary Institute and Saint Louis Country Day School: Saint Louis, MO)

NEED’s Science of Energy stations provide a hands-on approach to experimenting with objects used in student’s daily lives while incorporating scientific processing skills such as making observations, measuring, recording results, compare and contrast, categorize, make predictions, analyze and graph results, and draw conclusions. Workshop participants will rotate through six stations just as their students would in the classroom or OST Program, to learn about the different forms of energy and energy transformations using objects such as a toy car, apple, yo-yo, compass, bouncy ball, glow stick, etc. Using the same materials, the station guides can be easily differentiated for elementary, intermediate, and secondary levels. Each station includes a "What's Happening" article that provides additional informational text on the energy transformation that took place at the station and ties to more real-life examples for further visualization and understanding. The station guides have been correlated to each state’s individual science and math standards, as well as effectively support Next Generation Science Standards.

TAKEAWAYS:
Workshop participants will engage in hands-on experiments just as their students would, using items we encounter in our daily lives that demonstrate energy forms and their transformations and applications to real-life examples for further visualization and understanding.

SPEAKERS:
Cori Nelson (The NEED Project: Manassas, VA), Sharon Bird (The NEED Project: Manassas, VA)

News bulletins on social media and news sites contain topics that students need to understand now so that they can make informed decisions for their world today and tomorrow. STEM literacy is crucial to learners struggling to understand the multitude of information bombarding them through television, social media and the internet. Students in K-12 must become STEM literate so that they can identify, understand and solve problems in the world around them. STEM Literacy promotes innovative thinking and creativity as well as collaboration, problem solving, and most importantly, critical thinking. Today’s challenges need answers from our students but first they need to understand issues including climate change, space travel, robotics. By using real-world applications of scientific data and storylines, students become critical consumers, problem-solvers, and change-makers. Students who are STEM literate will be able to think critically and act responsibly about issues that impact them. In this session, lessons and strategies will be shared with teachers to inspire and to support their students as they develop STEM literacy skills. These lessons will encourage students to explore, explain and develop solutions to real phenomena and solve real problems.

TAKEAWAYS:
Three Takeaways: 1) Teachers will become familiar with technology, literacy and adaptive learning for middle school and high school students. 2) Teachers will be introduced to the free materials available that align with NGSS standards. 3) Teachers will be given ideas on how to incorporate these lessons in class

SPEAKERS:
Diane Ripollone (Cardinal Gibbons High School: Raleigh, NC), Kathy Biernat (Zanilu Educational Services, LLC)

As a high school Engineering teacher, I'm passionate about the effects project-based learning can have on students' ability to engage with classroom material. I don't believe that hands-on STEM work needs to be limited to the science classroom and want to share a project that has been done in a freshman History class and could be adapted to incorporate other topics. Using online 3D modeling software, a 3D printer, and a wind generator, students studying the Wright brothers drew their own historically significant airfoils (like The Spirit of St. Louis and the Enola Gay), 3D printed them, and tested them. Students learned airfoil terminology, like camber and chord, and used airfoil ratios to create their scale models. While testing, we discussed the variations of the wings and why engineers might value payload capacity over speed based on the plane's use. My hope is that this presentation can encourage teachers to bring STEM concepts into other curricular departments as a way to demonstrate the types of connections students can make when they're working hands-on. This presentation will detail the steps of the project, materials needed, and highlight the challenges and lessons we've learned over the four years we've run this unit.

TAKEAWAYS:
Attendees will see an example of how a STEM teacher brought project based learning into a freshman History class and how that project has evolved and expanded over four years. We will present the curriculum and materials needed for this week-long project for others to employ at their own schools.

SPEAKERS:
Abigail Mills (Woodberry Forest School: Woodberry Forest, VA)

This session focuses on improved outcomes for students’ written science explanations when including data description prompts and instructional facilitation to adapt the CER framework.

TAKEAWAYS:
Learn about the importance of a preliminary step of incorporating data descriptions when utilizing the CER framework to guide students’ written explanations and reasoning of data visualization.

SPEAKERS:
Andrea Drewes (Rider University: Lawrenceville, NJ)

Marine debris is a widespread pollution problem in our ocean and waterways. It can harm wildlife, habitats, and our economy. This issue is human-caused, but it also has human solutions. The National Oceanic and Atmospheric Administration (NOAA) Marine Debris Program is dedicated to better understanding and preventing marine debris and its impacts on our environment. One of the best tools we have to combat marine debris is understanding the distribution, abundance, and types of debris in the marine environment. The Marine Debris Monitoring & Assessment Project (MDMAP) is a NOAA citizen science initiative to survey and record marine debris on shorelines. By participating in the MDMAP, students can generate critical data on marine debris for use by community organizations, policymakers, researchers, and NOAA. MDMAP data can also support student-generated action projects, providing opportunities to plan and implement authentic changemaking efforts. The NOAA Marine Debris Program plans to demonstrate and solicit feedback on an updated tool to support implementation of the MDMAP protocols with students: The MDMAP Educators’ Guide (Guide). We will introduce the updated protocols, provide a demonstration of activities in the Guide, and engage in a discussion with educators about implementation, suggested extensions (including action projects), and feedback.

TAKEAWAYS:
Attendees at this session will learn about the updated Marine Debris Monitoring & Assessment Project Educators’ Guide: a refreshed citizen science tool for monitoring shoreline marine debris available from the NOAA Marine Debris Program, including planning and conducting protocols with students, working with survey data, and creating authentic, meaningful action projects for students based on their experiences.

SPEAKERS:
Alexandria Brake (NOAA Office of Education: Silver Spring, MD), Tanya Kea-Marie Torres (California Sea Grant Marine Debris Extension Fellow: , CA)

Students come into a science classroom with varying or little to no background knowledge. Mathematical modeling in the science classroom is a critical piece of any three-dimensional lesson. Come learn how one science teacher uses real-world student-collected data to make modeling fun and inclusive of all students!

TAKEAWAYS:
Equity in the science/math classroom; data collection and analysis; and mathematical modeling.

SPEAKERS:
Stacy Thibodeaux (Southside High School: Youngsville, LA)

Participants will begin in the role of a student as the instructor models how picture books are often used ineffectively in the sequence of a 5Es lesson. This will be followed by a presentation of when and how different types of picture books are most effectively integrated into an NGSS-aligned lesson plan. Participants will play a game to apply what they have just learned by identifying where within a lesson specific picture book examples (both fiction and nonfiction) would be most effectively integrated. Next, participants will be introduced to picture book questioning “cheat sheets” for each of the seven crosscutting concepts. These sheets are filled with question examples and stems for each of the CCC. The instructor will model how to use these “cheat sheets” to prepare for and conduct a read aloud that emphasizes a specific CCC. Then, participants will be invited to choose a picture book from one of over 100 3-5 NGSS-aligned books found throughout the room in seven CCC “stations” and to use the “cheat sheet” to prepare for their own read aloud. Participants will then “Pair and Share” a portion of their read alouds. Finally, the instructor will briefly discuss how to use CCC graphic organizers (a link to organizers will be shared) to encourage students to independently identify CCCs in picture books. The session will wrap up with a final Q&A. Note: Specific examples of picture books that promote diversity will be discussed as well as the importance of representation in children’s literature. Methodologies demonstrated are based on research by Dr. Yen Verhoeven of Qi Learning (used with permission) and the text “Sharing Books Talking Science” by Valerie Bang-Jensen and Mark Lubkowitz.

TAKEAWAYS:
Through instructor modeling and active participation, participants will learn when they should (and shouldn't!) include picture books in their 3-5NGSS lesson plans well as how to use picture books to explore each of the seven crosscutting concepts with their students.

SPEAKERS:
Emily Starr (STEM Specialist: Clinton, IA)

Let's explore creative storylines for integrating up-to-date, research-driven Earth and space science into high school physics courses.

TAKEAWAYS:
1. Earth and space science storylines provide engaging avenues for students to learn fundamental physics core ideas and reinforce understandings of both crosscutting concepts and science and engineering practices; 2. Most of the classical physics curriculum originated within fields of Earth and space science, so aspects of geophysics integrate naturally within a modern high school physics curriculum; and 3. For most high schools, aligning a high school curriculum with the NGSS requires the addition of a substantial amount of Earth and space science, and integrating relevant geophysical content into a high school course can help do this.

SPEAKERS:
Michael Wysession (Washington University in St. Louis: Saint Louis, MO)

Teacher describes installation of two solar arrays, and how students use the arrays to investigate alternative energy and effect of array angle on electricity production.

TAKEAWAYS:
Solar arrays allow students to interact with a real world technology changing sunlight into usable electricity. Two solar arrays that tilt independently allow students to evaluate data from a controlled experiment. Solar energy is part of response our society needs to respond to the challenge of global warming and our need for energy.

SPEAKERS:
Bruce Rose (Greenbrier East High School: Lewisburg, WV)

Empathic engineering design can help develop students’ cultural competence as well as inform the design of more useful innovations for people with limb differences.

TAKEAWAYS:
School-based activities that are oriented toward improving community members’ lives can simultaneously support the development of students’ cultural competence and integrated STEM literacy.

SPEAKERS:
Susan Meabh Kelly (University of Connecticut: Storrs Mansfield, CT), Brittany Klimowicz (NYC iSchool: New York, NY)

Science denial, anti-intellectualism, and conspiracy theories have long, sordid histories. Today, rampant science denialism threatens personal and public health, economic sustainability, and prosperity. Globally, it poses existential threats to humanity. How has the situation deteriorated so far? How can so many people deny, not only the reality of climate change - a slow-moving and invisible enemy - but also the reality of a global pandemic and the effectiveness of simple protective/preventive strategies? The explanation is straightforward. Widespread scientific illiteracy enables moneyed and/or politically powerful interests to manipulate a credulous public in ways that undermine understanding of science and generate distrust of the scientific community. Campaigns often waged on unregulated social media are disturbingly effective. When disinformation, willful ignorance, and belligerence strike, who's on call? Right now, almost nobody ... and that's a problem for all of us who, as science educators, understand and value the role of science in general, and STEM topics and approaches more specifically. We will then explore a variety of online resources and discuss individualized teaching strategies that educators can deploy to overcome these challenges in our classrooms.

TAKEAWAYS:
This workshop will briefly review the history, driving forces behind, and current status of science denialism, to clarify what we are up against. We will then explore online resources and individualized teaching strategies that can overcome these challenges in our classrooms. No single "magic bullet" (or magic YouTube video) can rescue us. We need a full-court press by all of us in education, focusing on cultivating in our students a true understanding of the nature of science, appreciation for the value of expertise in STEM fields, and a willingness to engage on a personal level with disturbingly cult-like beliefs.

SPEAKERS:
Joseph Levine (Science Writer and Producer: Concord, MA)

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)

We are living in an Age of Misinformation. Developing the capabilities to evaluate scientific information is a key goal of scientific literacy. Moreover, “obtaining, evaluating and communicating information” is a core practice of NGSS. The NGSS standards, however, were developed a decade ago before misinformation became so pervasive and were not developed to address this threat. Much of this misinformation is scientific. Therefore, this session will present a set of ideas and materials about how to address this challenge. These have emerged from a report developed at Stanford University drawing on the expertise of an international group of science educators, scientists and psychologists entitled “Science Education in an Age of Misinformation”. In this session, we will present the main arguments and recommendations of the report. Using a set of practical, web-based classroom examples, participants will work in small groups to trial and discuss the suggested teaching approaches and materials we have developed. Opportunities will be provided for feedback, questions and discussion in a final plenary. What we will present will empower teachers of science with ways they can support their students to avoid being misled by the purveyors of misinformation.

TAKEAWAYS:
Participants will learn what are the challenges posed by misinformation and what they can do to help science education address this challenge using practical examples of exercises and ionnovative teaching materials.

SPEAKERS:
Daniel Pimentel (Stanford University: Stanford, CA)

In this session, attendees will extend their understanding of learning design for the NGSS specifically focused on developing scientific literacy in the elementary grades. Participants will learn about selecting instructional phenomena and/or problems that can effectively anchor student learning experiences and create authentic needs for students to engage deeply with other content areas to make sense of phenomena and design solutions to problems, thus supporting meaningful integration of science with other STEM and content areas. Attendees will explore ways to design for elementary learning that meets at the intersection of three-dimensional standards, phenomena/problem driven learning, sensemaking, and integration. Participants will also be connected to a variety of Open Education Resources (OERs) and other freely available resources that support integrated elementary learning design.

TAKEAWAYS:
Attendees will learn how anchoring learning in phenomena and problems and leveraging integrated content as sensemaking resources for students supports scientific literacy development in grades K-5.

SPEAKERS:
Kimberley Astle (Washington Office of Superintendent of Public Instruction: Olympia, WA)

Go behind the scenes of a crash-test center and use award-winning videos, paper car crashes, and egg drop cushions to teach motion and energy. Everything free at classroom.iihs.org.

TAKEAWAYS:
Participants will learn how to use inquiry-based, NGSS-focused activities and video-supported engineering design experiences integrating STEM concepts with vehicle crashworthiness and crash avoidance technologies to promote students' safer decision-making when riding in or driving a vehicle.

SPEAKERS:
Griff Jones (University of Florida: No City, No State), Pini Kalnite (Insurance Institute for Highway Safety Highway Loss Data Institute: Arlington, VA)

Participants will begin in the role of a student as the instructor models how picture books are often used ineffectively in the sequence of a 5Es lesson. This will be followed by a presentation of when and how different types of picture books are most effectively integrated into an NGSS-aligned lesson plan. Participants will play a game to apply what they have just learned by identifying where within a lesson specific picture book examples (both fiction and nonfiction) would be most effectively integrated. Next, participants will be introduced to picture book questioning “cheat sheets” for each of the seven crosscutting concepts. These sheets are filled with question examples and stems for each of the CCC. The instructor will model how to use these “cheat sheets” to prepare for and conduct a read aloud that emphasizes a specific CCC. Then, participants will be invited to choose a picture book from one of over 100 K-2 NGSS-aligned books found throughout the room in seven CCC “stations” and to use the “cheat sheet” to prepare for their own read aloud. Participants will then “Pair and Share” a portion of their read alouds. Finally, the instructor will briefly discuss how to use CCC graphic organizers (a link to organizers will be shared) to encourage students to independently identify CCCs in picture books. The session will wrap up with a final Q&A. Note: Specific examples of picture books that promote diversity will be discussed as well as the importance of representation in children’s literature. Methodologies demonstrated are based on research by Dr. Yen Verhoeven of Qi Learning (used with permission) and the text “Sharing Books Talking Science” by Valerie Bang-Jensen and Mark Lubkowitz.

TAKEAWAYS:
Through instructor modeling and active participation, participants will learn when they should (and shouldn't!) include picture books in their NGSS lesson plans well as how to use picture books to explore each of the seven crosscutting concepts with their students.

SPEAKERS:
Emily Starr (STEM Specialist: Clinton, IA)

Participants will begin by playing a game in which they discover the research regarding the impact of effective science instruction in elementary school on students’ future STEM career choices. Research on the importance of diversity and representation in children’s literature will also be included. Next, participants will be introduced to a picture book questioning “cheat sheet” for the science and engineering practices. This sheet is filled with question examples and stems for each of the S&EPs. The instructor will model how to use this “cheat sheet” to prepare for and conduct a read aloud that emphasizes specific S&EPs. Then, participants will be invited to choose a picture book from one of over 100 K-5 NGSS STEM Career focused picture books found throughout the room in six grade level “stations” that have been aligned to NGSS performance expectations. Participants will be asked to use the “cheat sheet” to prepare for their own read aloud. Participants will then “Pair and Share” a portion of their read alouds. Finally, the instructor will briefly discuss how to use S&EP graphic organizers (a link to organizers will be shared) to encourage students to independently identify S&EPs in picture books. The session will wrap up with a final Q&A.

TAKEAWAYS:
Through instructor modeling and active participation, participants will learn how to develop read aloud questions that effectively highlight the science and engineering practices in texts that feature STEM Careers.

SPEAKERS:
Emily Starr (STEM Specialist: Clinton, IA)

Complete a distracted driving simulation and discover free award-winning videos, STEM activities, and real-world applications exploring science, engineering, and vehicle crashworthiness. Free lesson plans included.

TAKEAWAYS:
Participants will learn how scientific and engineering principles can be modeled in classrooms using crash science–related videos and activities to promote safer personal behaviors when riding in or driving a vehicle.

SPEAKERS:
Griff Jones (University of Florida: No City, No State), Pini Kalnite (Insurance Institute for Highway Safety Highway Loss Data Institute: Arlington, VA)

Picture books often pique a child’s interest in a STEM topic, igniting their interest in learning more about it. Once they’re ready to dig deeper, how do they find books to let them do so? The difference between STEM picture books and longer-form ones isn’t just the number of words. How can teachers help students transition from reading books where so much of the information is in the illustrations to ones where the text carries most of the content. For many students, this involves learning a new skill set. And what about older students who aren’t quite ready yet to tackle a longer book? How do they find STEM picture books that are appropriate for their age and reading level? In this talk, we’ll gives examples of two books on the same topic. First, we’ll pair picture books for younger and older readers. Second, we connect picture books with related long-form books. Either way, this gives students a way to continue their curiosity.

TAKEAWAYS:
How to transition students from reading picture books to longer-form books.

SPEAKERS:
Laurie Wallmark (Author: Ringoes, NJ), Jennifer Swanson (Author/Teacher: Jacksonville, FL)

Unfortunately, the Las Vegas slogan “What Happens Here Stays Here” applies all too well to science classrooms. Science learning that takes place in the classroom often stays in the classroom and fails to transform students’ perceiving and experiencing of the world. This gap between school learning and everyday experience is one of the key barriers to developing active scientific literacy. This workshop on the Teaching for Transformative Experiences in Science (TTES) model will help teachers address this problem by enacting transformative teaching. The TTES model is a research-based pedagogy for fostering transformative experiences; that is, experiences in which students use science content to enrich and expand their everyday lives. The workshop will train teachers in the application of three core design principles: (a) artistic selection and crafting of content, (b) experiential apprenticeship, and (c) doing and undergoing. The workshop will be conducted by one of the pioneers and lead researchers of transformative experience theory. It will include authentic classroom vignettes illustrating the design principles in action, application templates and guidelines, and exercises that will help participants master the design principles. The workshop is appropriate for science educators at all levels as the design principles are adaptable to all ages.

TAKEAWAYS:
Workshop participants will receive hands-on training in research-based strategies effective at fostering transformative experiences; that is, experiences in which students use their in-school learning to enrich and expand their everyday, out-of-school lives.

SPEAKERS:
Kevin Pugh (University of Northern Colorado: Greeley, CO)

Advances in biotechnology, particularly DNA sequencing, has led to a surge in genetic data and large online databases. Interpreting these data, using the interdisciplinary field of bioinformatics, is in high demand because genome sequencing is becoming increasingly cheaper and faster. In science classrooms, there are many opportunities to incorporate bioinformatics, but this can be a daunting task for teachers who do not know where to begin. This hands-on activity starts by introducing participants to the National Center for Biotechnology Information (NCBI) website. Presenters will provide a brief overview of the database to guide participants on: 1) how to use the search functions of the database, 2) interpret information on sequence pages, and 3) how to download DNA, RNA or amino acid sequences. Following the guided tour, small groups will be provided discussion questions to discover potential areas within their curricula that could be reinforced or enhanced with a brief bioinformatics activity. Participants will be provided worksheets to help document relevant sequence information (accession numbers) for the biological phenomenon or topic that inspired the activity. The participants will leave with a basic understanding of sequence capture from NCBI and a rudimentary activity to expose students to sequence data analysis.

TAKEAWAYS:
An understanding of the genetic code and basic internet browsing skills are all that are needed to explore bioinformatics and use them in the classroom.

SPEAKERS:
Zack Bateson (National Agricultural Genotyping Center: Fargo, ND), Jane Hunt (Nourish the Future - Education Projects, LLC: Columbus, OH)

Research shows many benefits of a maker-centered learning environment, however many teachers do not consider their classroom “maker classrooms” In this hands-on workshop, participants will see many different categories of making in an early years class, which allows participants to begin to reframe their view of their own classes. Through hands-on activities, participants experience a range of maker-centered learning activities which showcases how these activities can be used to develop problem solving and sensemaking for students, with built in modifications support MLL and students with special rights. Literacy development and formative assessments are also continuous threads in maker-centered learning as students learn and use language in the making process. Through observation and discussion of maker-made artifacts, and the processes leading to these artifacts, teachers can assess student understanding Furthermore, with many maker-centered activities, family and community connections are strengthened as students observe their own community, ask questions, and involve others outside of school in their making activities. Conference activities will be limited to portable, lightweight materials, with discussions and examples of different materials in action

TAKEAWAYS:
1) Discover new making opportunities to support sensemaking in your class while developing student skills in communication, collaboration as well as identifying and solving problems 2) Identify ways of integrating maker centered opportunities in your class planning, with specific attention to the early years 3) Observe different ways of bringing family’s funds of knowledge into a maker centered classroom

SPEAKERS:
Anne Lowry (Aleph Academy: Reno, NV)

The GISP2 H-Core was collected in 1992 adjacent to the Greenland Ice Sheet Project Two (GISP2) drill site. The GISP2-H 125.6-meter firm and ice core is a record of 430 years of liquid electrical conductivity and nitrate concentrations. The liquid electrical conductivity sequence contains signals from a number of known volcanic eruptions that provide a dating system at specific locations along the core. The terrestrial and solar background nitrate records show seasonal and annual variations – as well as unique events. Several major nitrate anomalies within the record do not correspond to any known terrestrial or solar events, and there is compelling evidence that some nitrate anomalies within the GISP2 H-Core could possibly be a record of supernova events. This investigation provides participants with a better understanding of the scientific process of analyzing data and developing models to construct knowledge, and defending the results. Sometimes there is no answer key, only possible solutions from analyzing and constructing knowledge from multiple sources that cross traditional disciplines. The materials focus on NGSS scientific practices, crosscutting concepts and the Earth and space sciences core disciplinary ideas – including analyzing and interpreting data, patterns, cycles of energy and matter, Earth systems and Earth and human activity.

TAKEAWAYS:
In constructing new knowledge, sometimes there is no definitive answer, only plausible conclusions based on constructing, analyzing, and comparing data and research from multiple disciplines.

SPEAKERS:
Donna Young (NASA/NSO/UoL Program Manager: Laughlin, NV)