To effectively engage audience members, I will balance their readiness to learn, cognitive load, and stimulating activities. Using real-world examples, I will demonstrate the power of STEM in elementary classrooms to grow all learners and provide necessary 21st-century skills. Often STEM is an enrichment offered to high-achiever but struggling learners have even more to gain from STEM including confidence and leadership. I will focus on practical application, but valuable references and data will be included to support my practices. I will begin the session with a survey to identify the needs and perceptions of participants regarding STEM integration. Based on input, I will share research-based strategies, classroom integration examples, or dispel misconceptions. I will include an interactive STEM activity using index cards and paper clips to provide a STEM lesson model and demonstrate the ease of integrating STEM with simple, classroom supplies. Participants will leave the session with a better understanding of the benefits of STEM in K-5 classrooms and feel more comfortable integrating STEM into their own classrooms.

TAKEAWAYS:
Participants will understand the value of STEM integration beyond the four letters of the acronym, including the benefits of productive struggle of high achievers and how the grit of struggling learners are paramount in the success of STEM challenges.

SPEAKERS:
Erika Neuman (University of Texas at San Antonio: San Antonio, TX)

The basic physical science principles of gravitational force and air resistance are explored as students design, build, test, and evaluate parachutes. K-W-L charts are used to assess students’ knowledge of the engineering design process and the scientific method. The book, “Mercedes and the Chocolate Pilot” by Margot Theis Ravin, is read to students and they discuss whether the pilot acted like an engineer as he wanted to share sweets with children during the Berlin Airlift. The students are presented with a problem, getting food and water to islanders whose homes and roads have been damaged by hurricanes. Simple materials such as paper napkins, paper towels, crocheting thread, and paper clips are used to build the parachutes. The students use the five ‘E’s’: engagement, exploration, explanation, evaluation, and elaboration as they compare their various parachute models. Students learn that air contains particles, and it is these particles that place forces on bodies moving in the air and counteract the force of gravity. Students use math in the analysis of their models. Students learn that models representing parachutes can be designed in many ways and may behave differently when tested. Students learn the many ways engineering and science are used to explore and explain nature and are employed in manufacturing and technology processes.

TAKEAWAYS:
Student groups learn that the engineering design process and the scientific method are circular processes as they design, build, test, and evaluate a parachute model then improve it.

SPEAKERS:
Suzanne Cunningham (Purdue University: Lafayette, IN)

Learn how to integrate STEM and literacy through the use of high-quality STEM-related picture books.

TAKEAWAYS:
Learn strategies for integrating STEM and literacy through the use of picture books in the K–5 classroom.

SPEAKERS:
Kim Stilwell (BIOZONE Corp.: Naples, FL)

In this hands-on workshop, participants will make and preform tests on COVID masks to use engineering practices to design a mask that is both comfortable and protective.

TAKEAWAYS:
Inquiry-based STEM is a collaborative process in which students act and think like engineers and scientists to make the learning environment inclusive for ALL learners.

SPEAKERS:
Karen Ostlund (The University of Texas at Austin: Austin, TX)

This session highlights an activity from NASA’s Learning Launchers: Robotics (https://www.nasa.gov/audience/foreducators/stem-on-station/learning_launchers_robotics) teacher toolkit part of a series of Educator Guides with lessons and activities to help bring the International Space Station into the classroom. This session will focus on the “I Want to Hold Your Hand” activity that engages participants to build and test a robotic-like hand and understand how NASA uses robotic explorers to collect information about places where humans cannot travel. After watching videos "Robotics and the International Space Station" & "Benefits For Humanity: From Space to Surgery" participants will work in teams to construct a robotic-like hand and test their robotic hand by picking up an empty soda can or other lightweight objects. The “I Want to Hold Your Hand Activity” is aligned to national standards for science, technology, engineering, and mathematics (STEM) (i.e., NGSS, ISTE). The focus of the “I Want to Hold Your Hand” activity ties Engineering Design and NGSS science and engineering practices of defining problems, developing models, and planning and carrying out investigations. This session connects participants to how NASA uses robots in many ways as well as benefit humanity with its robots’ doing science and experiments aboard the International Space Station.

TAKEAWAYS:
1. Attendees will explore NASA STEM Educator Guides that are standards-aligned and provide detailed information and resources on how to implement NASA STEM engagement learning experiences in the classroom. 2. Attendees will gain hands-on minds-on experience with implementing a NASA STEM engagement activity in their classroom using everyday materials that encourages students to construct a robotic-like hand and demonstrate how data are collected when using robotic technology. 3. Attendees will gain insights into how humans and robots are working hand in hand to expand the horizons of space exploration and how robotic research that has helped make advances in medicine, auto manufacturing, among other things. Without robotics, major accomplishments like the building the International Space Station, repairing satellites in space, and exploring other worlds would not be possible.

SPEAKERS:
LaTina Taylor (NASA Educator Professional Development Collaborative (EPDC): Flossmoor, IL)

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)