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: Kissimmee, FL)

Participants will use a graphic organizer to record their thinking as I describe a unit I taught in which students in grades 9-12 explored issues related to artificial intelligence. Students crafted op-Eds advocating for what we should do in our community about emerging technologies like driverless cars and facial recognition. As I describe the unit, I will highlight how I (1) kicked off the unit with a phenomenon that raised questions about convenience, safety, security, equity, and justice; (2) layered on texts and encouraged students to grapple with multiple perspectives on AI-related issues; (3) used routines and mentor texts to support students in crafting claims and connecting evidence to their claims; and (4) engaged students in processes of revision. Then, participants will work in self-selected groups to explore science/technology/society text sets on topics like lab grown meat and space debris. As they explore the text set, they will engage with a classroom routine to develop a compelling, debatable, defensible, and nuanced claim. Participants will share what they discovered as they explored the text set and wrote claims in their group and will reflect on how these text sets and routines might become part of their classroom practice.

TAKEAWAYS:
Participants will learn about freely available text sets and classroom routines developed by teachers for supporting civically engaged argument writing about science and technology issues in society.

SPEAKERS:
John Smith (Chester A Arthur School: Philadelphia, PA)

The Half-Earth Project team-based Mapping Design Challenge engages students in authentic teamwork to use digital mapping to design their own biodiversity conservation choices.

TAKEAWAYS:
Digital mapping motivated by exploring charismatic species draws diverse students into the multidisciplinary science of conservation decision-making where species, human impacts, and stakeholders have to be considered.

SPEAKERS:
Dennis Liu (E.O. Wilson Biodiversity Foundation: Potomac, MD)

Participants will use sensemaking and the engineering design process to solve a real world food production problem in a small scale format. This lesson introduces the Food Delivery Challenge, in which participants must design a gravity feeder to carry food (chicken feed) to twelve hungry chickens for over 24 hours. To accomplish the task students must design and build a model of an efficient gravity feeder using the materials available to them. The scenario presented to the class: One of the feeders in your uncle’s barn has broken down, and a new one will not arrive until next month. You must create a gravity feeder to satisfy 12 chickens for 24 hours consistently to ensure the health of your flock. Participants will research, design, build and test their design before presenting to the group for feedback, Participants will then use the feedback to redesign for an improved feeder.

TAKEAWAYS:
1. Use the engineering design process to collaborate, design and build a gravitational feeder system that will feed 10 pounds of feed over a 24 hour period. 2. Present your design plan, and final product to the class for feedback. 3. Provide feedback to the design team for design improvement.

SPEAKERS:
Leah LaCrosse (McCormick Junior High School: Huron, OH), Heather Bryan (Nourish the Future - Education Projects, LLC: McComb, OH)

We can examine natural phenomena and address wicked problems using the scientific process. The smallpox virus emerged approximately 10,000 years ago, and the virus's global spread devastated civilizations. Thanks to the scientific thinking of a Buddhist nun, a milkmaid, and Edward Jenner, smallpox was declared eradicated in 1979 by the World Health Organization. To support the understanding of the nature of science in the NGSS (Appendix H), session participants will engage in activities that demonstrate how science is used to answer questions about the natural world through a process that is consistent, observational, natural, predictable, tentative, and testable. Additionally, participants will examine various media sources to learn how to identify scientific misinformation and the tactics used to make misinformation appear credible. The National Center for Science Education supports science teachers through free professional development and curriculum to recognize and address science misconceptions using the three dimensions of the NGSS. Resources: https://ncse.ngo/supporting-teachers/classroom-resources

TAKEAWAYS:
This session introduces participants to a basic understanding of the scientific process, how our knowledge of the natural world evolves with new evidence, and that science cannot answer questions that do not pertain to natural processes. Attendees will take a deep dive into an NGSS storyline sequence developed to help students understand that science is an ongoing process that must be supported by multiple lines of evidence to be accepted by the scientific community.

SPEAKERS:
Lin Andrews (Independent Contractor: Wichita, KS), DeeDee Wright (Colorado State University: Fort Collins, CO), Cari Herndon (National Center for Science Education: Marietta, GA), Ayesha Alirahi (Science Teacher: Elmsford, NY), Blake Touchet (National Center for Science Education: ABBEVILLE, LA)

Applying principles of Understanding By Design and Visible Thinking, learn how to design and implement authentic and equitable assessments in any middle school or high school science classroom.

TAKEAWAYS:
Participants will walk away with easy-to-implement, real-world examples of collaborative lab practicums.

SPEAKERS:
Aruna Chavali (The Spence School: New York, NY), Laura Bader (The Spence School: New York, NY)

Connect the human impact of trash pollution to engineering design. Get your students thinking critically and creatively as they collaborate in real-world problem-solving. The global real-world issue of human-generated trash polluting local bodies of water is the main focus of this hands-on session. Using our partnership with the Howard County Conservancy, our students learn about their local watersheds and contribute to a Watershed Report Card. Students see how trash that is often found on our local schoolyards can affect our watershed, and they design a working model for trash removal in a local tributary. Basic coding will be used to design programs that will control sensors and motors through a microcontroller, thus removing the trash from the water source. The model will utilize solar and water power to move the trash into a separate receptacle. Various sensors will also be used to monitor water levels and determine the outcome of the program. This session will allow participants to find ways to increase the environmental stewardship of their students while incorporating engineering design into the science classroom. This project allows authentic integration of technology, mathematics, crosscutting concepts, science practices, and easy implementation of the Next Generation Science Standards.

TAKEAWAYS:
Design a project that enhances STEM skills in students such as collaboration, curiosity and creative problem solving.

SPEAKERS:
Jessica Kohout (Educational Consultant: Ellicott City, MD), Stacy Thibodeaux (Southside High School: Scott, LA)

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: San Diego, CA)

Throughout the pandemic teachers have learned how to successfully navigate their world in a virtual setting. Now the benefits of virtual teaching can be used to enhance in-person learning. This hands-on session gives participants the opportunity to use scientific tools such as a photometer, infrared thermometer, and watt meter to collect data. Digital interactive slides containing additional data will then be introduced to enhance the classroom experience. Digital interactive slides increase student engagement with clickable features providing meaningful data and useful information. Teachers will also be given instructions and resources to create their own interactive Google slides aligned to their curriculum. Though the focus of this session is data collection for high school physical science, digital interactive slides can be created for all grade levels and content. These activities are companions to the eesmarts K-12 curriculum, an energy efficiency and clean, renewable energy learning initiative funded by the Connecticut Energy Efficiency Fund. Select digital resources will be provided to participants. The complete eesmarts program is free and available to all Connecticut educators.

TAKEAWAYS:
Participants will use tools such as a photometer, infrared thermometer, and watt meter to collect data, and enhance this experience with digital interactive slides providing additional data.

SPEAKERS:
Sharyon Holness (eesmarts: North Granby, CT), Rebecca Tonkinson (eesmarts: West Hartford, CT), Karin Jakubowski (eesmarts: Northford, CT)

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)

This workshop highlights one way to incorporate science history on a routine basis in the science classroom. Participants will receive a brief overview of the neuroscience research that explains why storytelling is emerging as one of the most effective educational tools for students of all ages. They will also explore how telling stories from science history promotes understanding of science practices, supports strong student science identities, and leads to discussion about the human nature of science and the underlying ethical and cultural implications. The presenter will share about the development of People to Ponder, a series of science profiles that can be used throughout a school year. This is not one specific set of scientists but rather a strategy to consistently include science history in instruction. Participants will experience through a student lens what a typical People to Ponder lesson might involve. Once they’ve experienced the strategy, participants will have a chance to reflect on and discuss how they might structure something similar in their classrooms. Participants will be provided with resources and instructional scaffolds that can assist them in their planning. They will leave with at least one activity or lesson planned for implementation in their classroom.

TAKEAWAYS:
Explore a strategy for sharing science biographies that promotes student engagement and understanding of science topics while creating an inclusive and culturally responsive teaching environment.

SPEAKERS:
Anna Babarinde (Sonoma County Office of Education: Santa Rosa, CA)

Come learn how to teach in three dimensions and advance students’ scientific literacy by strategically applying the use of CERs and CEJs in your classroom.

TAKEAWAYS:
After this session, participants will be able to identify opportunities for using CERs and CEJs to facilitate student discourse and discussion and apply what they have learned to their own classroom.

SPEAKERS:
McKenna Serowka (Lake Zurich High School: Lake Zurich, IL)

Are you used to having your students keep a notebook, but aren’t sure how to transition it into a digital version? Have you ever wanted to try an Interactive Notebook but don’t know where to start? Are you having trouble keeping your students organized in the digital school world? Interactive Notebooks are a meaningful way to transfer a student’s learning, practice, and reflection into an engaging digital environment. Research has shown that benefits range from allowing students space to record and reflect on their experiences, guiding teacher instruction, and providing more opportunities for differentiation. As classes have shifted between in-person, hybrid, and completely online instruction, digital learning options are becoming an even more necessary part of our curriculum. During this workshop, you will learn about different types of digital notebooks, their uses/benefits, and how to find or create your own resources for student use. By converting an interactive notebook into a digital notebook, students can now access multi-media resources all in one place creating opportunities for greater flexibility and autonomy in learning.

TAKEAWAYS:
Create and manage digital notebooks resources from materials you already use.

SPEAKERS:
Joy Barnes-Johnson (Foundation Academies: Willingboro, NJ), Mridula Bajaj (Mount Laurel Schools: Robbinsville, NJ), Shefali Mehta (Princeton High School: Princeton, NJ)

Turn any multiple-choice review into an exciting escape! Learn to create digital and in-person escapes to help keep students interested, engaged, and motivated.

TAKEAWAYS:
Participants will learn tips for designing escape boxes, plus how to add riddles, puzzles, games, and small prizes. The digital escape uses Google Forms, and the physical escape uses lockable boxes with resettable combination locks. Links to a customizable digital and physical escape will be available to attendees.

SPEAKERS:
Sharon Beck (Davidson County High School: Thomasville, NC)