“You’re good at math; be an engineer.” Isn’t there more to it? Who is an engineer? Engineering helps society by solving problems. Let’s explore “why.”

TAKEAWAYS:
Learn that engineering is more than math + science and take away classroom activities addressing engineering identity, ethics, and society (not your typical engineering activities).

SPEAKERS:
Ken Reid (University of Indianapolis: Indianapolis, IN)

This session is an introduction to a new approach to STEM instruction called Argument-Driven Engineering (ADE). ADE is an instructional approach that gives students an opportunity to learn to use core concepts and processes form science, engineering, and mathematics to figure out solutions to a meaningful and authentic problem that will help make the world a better place. This instructional approach also gives students an opportunity to develop disciplinary literacy skills (reading, writing, speaking, and listening) because they must obtain information, share and critique potential solutions through talk, and communicate what they figured out and how they know the solution is acceptable through writing. In this session, participants will examine the potential benefits and challenges associated with embedding engineering design into science classrooms and learn how the ADE instructional model can help maximize the benefits and reduce the challenges. Participants will also have a chance to experience an example of an ADE design challenge that invites them to design a shipping and storage container for insulin and see examples of how students who completed this design challenge used science, engineering, and mathematics content and processes to figure out how to keep the insulin cold for long periods of time. Participants will also learn about how this new approach was developed through three years of classroom-based research by a team of researchers at the University of Texas at Austin and how well ADE instructional materials are aligned with the TEKS for science, mathematics, CTE, and ELA.

TAKEAWAYS:
• How to give students an opportunity to learn how to use concepts and processes from science, engineering, and mathematics to design a solution to an authentic problem that will help make the world a better place.

SPEAKERS:
Todd Hutner (The University of Alabama: Austin, TX)

Use innovative video-assisted STEM activities, demonstrations, award-winning videos, and behind-the-crash-tests tours to teach the science of car crashes. Visit classroom.iihs.org for more information.

TAKEAWAYS:
Participants learn how to incorporate culminating STEM design challenges (Project Pedestrian Sensors and Egg-Carrying Paper Car Crash) into their curriculum to promote student awareness and understanding of how engineering and technology are used to build safer vehicles.

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 understand how to develop and effectively implement STEM curriculum units that include project based activities and performance based assessments. Participants will learn to help students answer complex questions and develop solutions for challenges and real-world problems. They will also assist students with extending and refining their acquired knowledge to routinely analyze and solve problems. By the end of this session: 1) Participants will gain a clear and coherent understanding of what a STEM PBL is and how it works. 2) Participants will be able to identify and create effective essential questions. 3) Participants will be able to identify and apply the components of a STEM PBL. 4) Understand how STEM PBL’s will impact instruction for participants and students. Agenda: What is PBL? Why is it important? How does a STEM PBL Work? How to effectively integrate journal reflections. Ways to Implement STEM PBL’s

TAKEAWAYS:
Participants will learn how to effectively implement STEM PBL’s (Project Based Learning) by integrating the components of STEM and PBL in order to grow students' capacity for creativity, fun, and back-loaded learning in a STEM context.

SPEAKERS:
Adero Carter (Clayton County Public Schools: Jonesboro, GA)

Inspiration to Fruition provides any educator with a game plan on how to take an idea and available resources and create a project that enhances the student experience and skills.

TAKEAWAYS:
1. A template for designing a grassroots STEM or PBL project; 2. Top 10 tips on how to make managing the project actually manageable; and 3. Proof that trusting one's intuition to build a project based on an inspirational event can bring to fruition an amazing experience for students.

SPEAKERS:
Kelly Hartings (Indian Hill Middle School: CINCINNATI, OH), Jessica Brown (Teacher: cincinnati, OH)

Science inquiry is a powerful process and learning environment that embraces exploration and sense-making, as students question phenomena and explore real world science/STEM. Inquiry is an “attitude” that seeks understanding and continually questions how our natural world works. Student achievement, engagement, and sense-making of phenomena, increase when students are taught in an instructional environment that embraces inquiry, where students are encouraged to ask questions, gather evidence, seek answers, and formulate explanations. Speaker will discuss the many varied ways that inquiry manifests itself in the elementary STEM classroom, including ways to increase participation of ELL’s. She will actively engage participants, as she shares strategies and lesson ideas that promote inquiry, and as she demonstrates effective questioning, modeling how to guide students in their own questioning and explorations, as they gather data, formulate their explanations, and draw conclusions. Speaker will emphasize the importance of ‘testing’ the ‘known’, as well as the ‘unknown’, so students can validate their processes and thinking. Creating environments of inclusivity, collaboration, cooperation, and sharing of ideas will be emphasized. Participants will embrace the power that inquiry offers: content, strategies, process, engagement, and the desire to ask, answer, and understand scientific phenomena. This session will help teachers establish effective classroom practices, guiding students in understanding the ways scientists think and study our natural world, as teachers nurture students’ sustained curiosity and love of science/STEM. Handouts.

TAKEAWAYS:
Attendees will learn how to create STEM classroom environments that fully embrace and create the inquiry process: emphasizing explorations, the formulation of questions to guide student inquiry and their understanding of scientific phenomena, the importance of collaborative sense-making and assuring the inclusivity of ALL students, the importance of assisting ELL’s with language accessibility, and the fulfillment of learner curiosity as part of the sense-making process and as a trajectory for guiding their continual learning.

SPEAKERS:
Donna Knoell (Educational and Technology Consultant: Prairie Village, KS)

Student understanding of how science and STEM ideas and concepts are applied within their chosen career pathway is a critical component of many Career and Technical Education (CTE) programs, but for a variety of reasons these connections are often overlooked. Some states even provide CTE courses and Career Pathway standards that seem to go against the three-dimensional and student-centered learning grain. Yet, to truly meet the vision of the K-12 Framework, students in CTE and Vocational Education pathways should also be provided opportunities to engage in three-dimensional sensemaking in the context of their CTE course. In this session, we explore explicit connections between three-dimensional science learning and Agricultural, Food and Natural Resources as just one example of how three-dimensional student learning and sensemaking can be incorporated into CTE. We then explore how similar strategies can be utilized in other pathways with the goal of bridging the gap between science learning and practical application for students in CTE.

TAKEAWAYS:
Attendees will learn strategies for integrating scientific sensemaking into CTE courses to support their students' mastery of the scientific concepts they will apply in those fields.

SPEAKERS:
Bridina Lemmer (Illinois Science Teaching Association: Jacksonville, IL), Chris Embry Mohr (Olympia High School: Stanford, IL)

Think Tank to Shark Tank: Engineer to Entrepreneur is a free, ten-session project-based curriculum developed from a summer camp for middle school students. In the camp and curriculum, students work through developing a solution to a pain point (problem) they or loved ones interact with in life. Students develop a unique solution using the engineering design process, create a prototype, identify their potential customers, develop a business model and marketing strategy to present to local business leaders to provide guidance and support on market and opportunity realization. A facilitator or teacher may implement the curriculum in either a one-week experience with morning and afternoon sessions, a two-week experience, a ten-week after-school extra-curricular, or educators can choose elements to implement within a course throughout the academic year. The summer day camp, still in operation, runs for six hours a day for a five-day week with a break for lunch. Faculty use the curriculum to teach pre-service teachers in primary, middle, and high school to demonstrate the integration of engineering and entrepreneurship design principles into the classroom. During this interactive session, participants will gain access to this curriculum, and methods of integration into a pre-service teacher education course or program.

TAKEAWAYS:
During this interactive session, participants will gain access to this curriculum, and methods of integration into a pre-service teacher education course or program.

SPEAKERS:
Karen Plaster (The University of Akron: Akron, OH)