2022 Chicago National Conference

July 21-23, 2022

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Lunch: Elements of Curriculum-Based Professional Learning

Wednesday, July 20 • 11:45 AM - 12:45 PM

Hyatt Regency McCormick Place - Regency Ballroom


STRAND: No Strand

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By Invitation Only

Shifting from traditional professional development to curriculum-based professional learning is a simple concept but complex to design and execute well. At its core, it means teachers experience the same kind of inquiry-based learning we expect them to provide their students. Learn more about a Carnegie Corporation of New York report, The Elements, which identifies a core set of research-based actions, approaches, and enabling conditions that effective schools and systems have put in place to reinforce and amplify the power of high-quality curriculum and skillful teaching.

TAKEAWAYS:
1. Examine beliefs and assumptions regarding the relationship between high-quality instructional materials, curriculum-based professional learning and student success 2. Gain understanding of the foundation for The Elements, a challenge paper from Carnegie Corporation of New York 3. Learn from science practitioners whose successful curriculum implementation efforts are grounded in the elements and essentials.

SPEAKERS:
Jim Short (Carnegie Corporation of New York: New York, NY)

Unpacking the Crosscutting Concepts with a Brand New NSTA Quick-Reference Guide to the Three Dimensions

Thursday, July 21 • 8:20 AM - 9:20 AM

McCormick Place - Skyline W375c


STRAND: No Strand

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Since its release, the NSTA Quick-Reference Guide to the NGSS has become an essential tool for many educators across the country. A new version titled the Quick-Reference Guide to the Three Dimension has been developed to not only support teachers in all states that have standards based on the Framework for K-12 Science Education. This new version of the Quick-Reference Guide still contains the most useful features of the original, including descriptions of the practices and the crosscutting concepts from the Framework of K-12 Science Education and K-12 progressions of the elements of all three dimensions. In addition, the new Quick-Reference Guide contains several new features that should make it even more helpful. For example, every element now has a unique code (based on the codes in the NSTA Atlas of the Three Dimensions) that makes it much easier to reference a particular element. In addition, there is an entire chapter devoted to the Performance Expectations. Finally, the guide also contains a number of tools for working with standards. This session will outline all of the features of the guide through the process of unpacking the crosscutting concepts to better understand how to make curriculum, instruction, and assessment more three-dimensional.

TAKEAWAYS:
A deeper understanding of the Crosscutting Concepts and how a well-designed reference guide can make it easier to unpack the three dimensions for work in curriculum, instruction, and assessment.

SPEAKERS:
Ted Willard (Discovery Education: Silver Spring, MD)

Universal Design for Learning (UDL) - An Effective Approach to Ensuring an Inclusive Science Classroom

Thursday, July 21 • 8:20 AM - 9:20 AM

McCormick Place - Skyline W375a


STRAND: Strategies for Creating Inclusive Science and STEM Learning Environments

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The Universal Design for Learning (UDL) Guidelines are a tool that can be used to design learning experiences that meet the needs of all learners (CAST, 2018). Instructional designers and teachers can use these principles to create learning environments that reduce barriers to access for all students, while keeping in mind the learning goals of the lesson. The three guiding principles of UDL are engagement, representation, and action and expression. In this session educators will be provided with examples of these principles in action in sample materials from OpenSciEd and classroom videos. In these examples, participating will identify how the materials have been purposefully designed with multiple avenues for engagement, representation, and action and expression. Additionally, they will identify the built-in supports for teachers to highlight student assets and to address potential barriers to learning for their local student population. Teachers will utilize a tool to help them analyze their own lessons to identify goals, potential barriers, and ways to use the UDL Principles to remove barriers and create flexible paths to learning.

TAKEAWAYS:
Teachers will utilize a tool to help them analyze their own lessons to identify goals, potential barriers, and ways to use the UDL Principles to remove barriers and create flexible paths to learning.

SPEAKERS:
Sarah Delaney (OpenSciEd: San Carlos, CA)

Using tools to sense and interact with the environment

Thursday, July 21 • 8:20 AM - 9:20 AM

McCormick Place - W193a



(Only registered attendees may view session materials. Please login with your NSTA account to view.)
Using tools to sense and interact with the environment.pdf

STRAND: Using Inquiry-Based STEM to Facilitate Learning for ALL

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After learning about computational thinking, participants will apply the framework to determine where students engage in computational thinking within the activity. Participants will engage in activities where students engineer as part of the investigations. Participants will be able to use a pre-programmed microcontroller (loaned by the presenters) to experience 3 different short investigations each tied to a different phenomenon. 1) Does angle matter? How does the angle of the collector affect how warm it is? Using the microcontroller and lamps participants will collect data to build a model that explains why the tilt of the Earth creates different seasons. 2) Transparent, Translucent, and Opaque. When working in a greenhouse, different materials can be used to cover the greenhouse. Which is the best material for your area? Using the light level sensor on the microcontroller, participants test different materials to recommend their uses when designing a greenhouse. 3) Making an alarm - using the microcontroller accelerometer sensor, participants arm an alarm and see how the accelerometer works in three dimensions. Participants will be provided printed copies of the lesson plans and how to engage students with using the microcontrollers. Note that no knowledge of coding or any equipment brought is necessary to participate in this workshop.

TAKEAWAYS:
Attendees will learn (1) Microcontrollers are small computers that come with several integrated sensors. Their functionality makes them useful for both investigations and engineering projects. Some of the basic functionality of different microcontrollers (2) One definition of computation thinking is how to use computers to solve problems. Computational thinking activities that connect students to everyday phenomena. The development of algorithms or the decomposition of problems into simple steps are just two examples of processes associated with computation thinking. It is a powerful problem-solving technique that is used in the modern world (3) How engineering tasks provide opportunities for student sensemaking

SPEAKERS:
Susan German (Hallsville Middle School: Hallsville, MO), G. Michael Bowen (Mount Saint Vincent University: Halifax, NS)

Dog Mode Design Challenge

Thursday, July 21 • 8:20 AM - 9:20 AM

McCormick Place - W185a



(Only registered attendees may view session materials. Please login with your NSTA account to view.)
Dog Mode Slide Deck

STRAND: No Strand

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Introducing students to real-world engineering problems is a key component to engaging them in the science classroom. In this project, students solve the problem of saving pets from a hot car. Many students are aware of this issue and would have many ideas on how this could be achieved. This projects gives them the tools to help solve such a problem by building a model and finding a solution. Participants in this session will get to build the model themselves to see how information from sensors (input) can determine what should be done (output) through simple lines of code. No coding or engineering experience is needed, just imagination and logical thinking. Projects like these can expose students to STEM Careers. The exposure to coding and engineering design can also get them interested in doing more in the STEM field.

TAKEAWAYS:
Solve a real-work problem with coding and engineering design - no prior experience needed.

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

Supporting Civically Engaged Argument Writing in Science and Technology Classrooms

Thursday, July 21 • 8:20 AM - 9:20 AM

McCormick Place - W178b



(Only registered attendees may view session materials. Please login with your NSTA account to view.)
Guided Session Notes and Resources

STRAND: Developing Scientific Literacy in the Science and STEM Classroom

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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)

Linking Literature and STEM in the PreK-8 Classroom

Thursday, July 21 • 8:20 AM - 9:20 AM

McCormick Place - W473


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Sponsoring Company: SAE International

Attendees will explore different methods and student & teacher resources for enhancing real-world STEM skills with meaning-making literature. Using AWIM's award-winning STEM curriculum and complementary comic & children's books as examples, teachers will engage in discussions and hands-on activities they can facilitate in their classrooms. This workshop will also address how diverse representation in storytelling can foster more accessible & impactful STEM learning for all students. Participants will receive a free AWIM book.

TAKEAWAYS:
Learn methods and resources for incorporating age-appropriate literature into hands-on STEM activities.

SPEAKERS:
Bonnie Thibodeau (SAE International: Warrendale, PA)

Let's DIVE-in to Engineering and the Engineering Design Process

Thursday, July 21 • 8:20 AM - 9:20 AM

McCormick Place - W470a



(Only registered attendees may view session materials. Please login with your NSTA account to view.)
STEMscopes-2022-July21-Dive-In-Engineering-NSTA.pdf

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Sponsoring Company: STEMscopes by Accelerate Learning

Students get engaged with practical and inquiry-based engineering experiences by using the DIVE-in method. This program was developed in partnership with the New York Hall of Science. Transform your classroom into an authentic makerspace with the DIVE process. Learn how to facilitate and use the design process through consensus.

TAKEAWAYS:
Learn how to create a stomp-rocket using the engineering design process.

SPEAKERS:
Leslie Spaeny (STEMscopes by Accelerate Learning: Houston, TX)

Engineering the Perfect Rube

Thursday, July 21 • 8:20 AM - 9:20 AM

McCormick Place - W192b


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Sponsoring Company: Fisher Science Education and Eisco Scientific

Participants will have the opportunity to build a Rube Goldberg machine and engineer an overly complicated process to accomplish a simple task. Put your engineering and creative skills to the test as you create your own Rube Goldberg machine out of cardboard, tape, rubber bands, a toy car and other everyday items. Attendees will be broken into teams of five and given a set of raw materials. They will then have approximately forty minutes to work as a group to create a complex series of steps to pop a balloon. Attendance will be limited to the first twenty-five people to register. This is a joint workshop presented by Fisher Science Education and Eisco Scientific. This workshop has a maximum capacity of 25 participants.

TAKEAWAYS:
Teachers will learn how to create a Rube Goldberg lab using excess materials and common laboratory items.

SPEAKERS:
Tom Wright (Thermo Fisher Scientific: Waltham, MA), Tim Montondo (Eisco Scientific LLC: Victor, NY)

Everything You Always Wanted to Know about NGSS, But Were Afraid to Ask

Thursday, July 21 • 8:20 AM - 9:20 AM

McCormick Place - W175a



(Only registered attendees may view session materials. Please login with your NSTA account to view.)
Everything you always wanted to know about NGSS_Handout.pdf
Everything you always wanted to know about NGSS_Presentation.pdf

STRAND: No Strand

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The NGSS is very complicated. The Institute for Quality Science Teaching at the Museum of Science and Industry provides professional learning opportunities for science teachers in Chicagoland and surrounding areas. Our approach is to ground everything we do in the NGSS and take a deep dive into all the elements of 3-dimensional learning. Professional learning programs at MSI are invested in helping teachers understand how to teach science effectively to meet these standards. Teachers in our programs learn science content in the context of 3-dimensional lessons, as instructors demonstrate instructional practices that enable NGSS-aligned teaching and learning. This presentation will review the basics of the NGSS, the 3 dimensions, how they’re combined in Performance Expectations, and the basics of enacting the NGSS in the classroom. If you need a refresher, just want a review, or still don’t have all those acronyms straight in your head, this is the presentation for you.

TAKEAWAYS:
Teachers will leave with a basic understanding of the structures of the Next Generation Science Standards and how they inform 3-dimensional standards and 3-dimensional science teaching.

SPEAKERS:
Lauren Slanker (Museum of Science and Industry: Chicago, IL), Karin Klein (Museum of Science and Industry: Chicago, IL)

Engineering for Us All: Exploring the "Why," "What," and "Who" of Engineering

Thursday, July 21 • 9:40 AM - 10:40 AM

McCormick Place - W194a



(Only registered attendees may view session materials. Please login with your NSTA account to view.)
Baseball card lesson
Baseball card lesson (complete)
More information on e4usa
Playpump lesson
Product archaeology lesson
Robot arm lesson (with materials list)
Shoe sole sketch and design lesson
Slides from presentation

STRAND: Using Inquiry-Based STEM to Facilitate Learning for ALL

Show Details

“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)

Engineering Severe Weather Solutions

Thursday, July 21 • 9:40 AM - 10:40 AM

McCormick Place - W176c



(Only registered attendees may view session materials. Please login with your NSTA account to view.)
Sever Weather Slide Deck

STRAND: No Strand

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Human activities have caused changes in global temperature and weather patterns. This generation of students will need to understand climate science in order to adapt to this changing environment. In this session, participants will explore a project in which students incorporate engineering and basic coding - no experience necessary. We will use micro:bit technology to connect basic coding commands to collect authentic data using embedded sensors. Participants will use this collected data to modify design solutions based on human vulnerabilities to severe weather. Participants will find ways to expose their students to the engineering capabilities needed to solve problems. This project allows students to compare design solutions to identify which is best for the problem at hand and experience the interactive process of evaluating solutions. This project allows for the authentic integration of technology, mathematics, crosscutting concepts, science practices, and easy implementation of the Next Generation Science Standards.

TAKEAWAYS:
Use technology to expose students to coding and engineering design solutions for severe weather.

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

STEM for All! Benefits of STEM Integration for Struggling to Gifted Learners, and Everyone in Between

Thursday, July 21 • 9:40 AM - 10:40 AM

McCormick Place - W187b



(Only registered attendees may view session materials. Please login with your NSTA account to view.)
NSTA_STEMforALL.pdf

STRAND: Using Inquiry-Based STEM to Facilitate Learning for ALL

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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: No City, No State)

Science + Engineering + Math = Parachute STEM Activity

Thursday, July 21 • 9:40 AM - 10:40 AM

McCormick Place - W181a


STRAND: No Strand

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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: West Lafayette, IN)

How to Design a STEM Engineering Challenge

Thursday, July 21 • 9:40 AM - 10:40 AM

McCormick Place - W474b


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Sponsoring Company: PASCO scientific

Give your students a real-world engineering challenge! In this PASCO workshop, you will explore the relationship between momentum and impact forces with real-time measurement of collisions. You will design your own crash barrier to minimize the maximum collision force of a moving cart colliding into your barrier. Next, you will analyze your results to iterate and improve on your original design.  Attend for a chance to win equipment for your school!

TAKEAWAYS:
Learn how to design a crash cushion to minimize the collision force of a moving cart and analyze the results to iterate and improve on your design.

SPEAKERS:
Jonathan Hanna (PASCO Scientific: Roseville, CA)

Matter and Energy Learning Progressions in OpenSciEd High School Chemistry

Thursday, July 21 • 9:40 AM - 10:40 AM

McCormick Place - W196c



(Only registered attendees may view session materials. Please login with your NSTA account to view.)
NSTA Chicago 2022 Chemistry Progressions.pdf

STRAND: Developing Scientific Literacy in the Science and STEM Classroom

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The forthcoming OpenSciEd High School chemistry course combines physical science and Earth and space science NGSS performance expectations as a way to engage students in developing understandings around energy and matter. Learn about the focus of the five units that make up this course and their associated performance expectation bundles to see how the three dimensions are used as a way to authentically engage students in making sense of both physical science and earth and space science related phenomena and design solutions. In the session, we will highlight how anchoring phenomena of the first unit, typically associated with earth and space science, helps students make sense of the particulate nature of matter, energy transfers in earth systems, feedback loops, and human interactions with their environment. An in-depth examination of the performance expectation bundles for the following four units will help illustrate the learning progressions students will follow to develop progressively more complex models of the particle nature of matter, its properties, and its interactions using the lenses of all crosscutting concepts, in particular, patterns, energy and matter, structure and function, and stability and change.

TAKEAWAYS:
Incorporation of earth and space science NGSS performance expectations within a chemistry curriculum supports student engagement in and sensemaking of chemistry concepts around properties and interactions of matter and energy.

SPEAKERS:
Nicole Vick (Northwestern University), Dan Voss (Northwestern University: Evanston, IL), Michael Novak (Northwestern University: Evanston, IL), Tara McGill (Northwestern University: Evanston, IL)

Hexagonal Thinking in the Science Classroom

Thursday, July 21 • 9:40 AM - 10:40 AM

McCormick Place - W185d


STRAND: Developing Scientific Literacy in the Science and STEM Classroom

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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)

Making A Career In Science Education In 2022

Thursday, July 21 • 9:40 AM - 10:40 AM

McCormick Place - Skyline W375b


STRAND: Learn and Lead: Developing a Community for Expanded Participation in Science and STEM

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Confused about what to do post COVID? Thinking about switching careers? Learn about the experiences, challenges, and mistakes made by several esteemed science education leaders in this engaging and interactive panel discussion. This panel will feature current and former teachers, school leaders, district leaders, consultants, academics, national STEM education leaders.

TAKEAWAYS:
Participants will learn about the increasing number of opportunities available for educators both inside and outside of the classroom.

SPEAKERS:
Michael Lach (Township High School District 113)

The NSTA Atlas of the Three Dimensions

Thursday, July 21 • 1:00 PM - 2:00 PM

McCormick Place - Skyline W375c


STRAND: No Strand

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One of the key features of the NGSS and other standards based on the Framework for K-12 Science Education is the idea that a “a progression of knowledge occurs from grade band to grade band that gives students the opportunity to learn more complex material, leading to an overall understanding of science by the end of high school.” (NGSS Appendix A, p. 2) The NSTA Atlas of the Three Dimensions has a set of 62 maps that illustrate the how the elements of the three dimensions build on each other and connect to one another. Each map focuses on a particular topic and shows the progression students are expected to make in that topic from one grade-span to the next. Arrows connecting individual elements on a map indicate that competency in one element is useful in learning to achieve the other element. Educators can use maps to deepen their understanding of the standards to plan or improve curriculum, instruction, and assessment. This session will provide participants guidance on how to read the maps in the Atlas and use this powerful tool to deepen their understanding of elements of the standards.

TAKEAWAYS:
A careful review of the connections between elements of the three dimensions can provide a clearer understanding of science standards and important guidance in planning instructional sequences to support three-dimensional teaching and learning.

SPEAKERS:
Ted Willard (Discovery Education: Silver Spring, MD)

Maximize the Benefits and Minimize the Challenges Associated with Embedding Engineering into the Science Curriculum using Argument-Driven Engineering

Thursday, July 21 • 1:00 PM - 2:00 PM

McCormick Place - W178b


STRAND: Using Inquiry-Based STEM to Facilitate Learning for ALL

Show Details

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: Del Valle, TX)

Crash Science: When Physics Meets Biology

Thursday, July 21 • 1:00 PM - 2:00 PM

McCormick Place - W185b-c


STRAND: Using Inquiry-Based STEM to Facilitate Learning for ALL

Show Details

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), Pini Kalnite (Insurance Institute for Highway Safety Highway Loss Data Institute: Arlington, VA)

Engineer Physical Science Excitement with a Carolina STEM Challenge®

Thursday, July 21 • 1:00 PM - 2:00 PM

McCormick Place - W471a


Show Details

Sponsoring Company: Carolina Biological Supply Co.

Apply creative problem-solving skills and engineering practices to chemistry and physical science challenges with race cars and rockets. Experience how Carolina makes it easy to incorporate STEM into your classroom.

TAKEAWAYS:
Teachers will take away hands-on experience in designing, making, and testing balloon race cars and reaction rockets.

SPEAKERS:
Patti Kopkau (Retired Educator: National City, MI)

Advancing Science Instruction with the Engineering Design Process

Thursday, July 21 • 1:00 PM - 2:00 PM

McCormick Place - W475a


Show Details

Sponsoring Company: Great Minds

Dive into a PhD Science® module to explore the six steps of the Engineering Design Process and test a solution to a real-world problem.

TAKEAWAYS:
PhD Science provides students with the opportunity for hands-on experiences that require the practical application of scientific processes.

SPEAKERS:
Ranell Blue (Great Minds: Washington, DC), Isaac Stauffer (Great Minds: Washington, DC)

Including Teachers in Developing Large-Scale Assessments for Science

Thursday, July 21 • 1:00 PM - 2:00 PM

McCormick Place - Skyline W375b


STRAND: No Strand

Show Details

Learn about the novel approach taken by Illinois to include teacher voice in developing a statewide three-dimensional science assessment.

TAKEAWAYS:
Participants will learn about the process of developing a state-wide assessment written by local educators.

SPEAKERS:
Kristin Rademaker (NSTA: Arlington, VA), Harvey Henson (Southern Illinois University Carbondale: Carbondale, IL), ANGELA BOX (Southern Illinois University Carbondale: CARTERVILLE, IL)

Chickenology: Food Delivery Challenge

Thursday, July 21 • 1:00 PM - 2:00 PM

McCormick Place - W179b



(Only registered attendees may view session materials. Please login with your NSTA account to view.)
Chickenology Food Delivery Challenge Lesson
Chickenology Food Delivery Challenge Slide Deck
Chickenology Student Rubric

STRAND: Using Inquiry-Based STEM to Facilitate Learning for ALL

Show Details

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: Columbus, OH)

Installation Science Exhibits as Assessment Options

Thursday, July 21 • 2:20 PM - 3:20 PM

McCormick Place - W187c


STRAND: Developing Scientific Literacy in the Science and STEM Classroom

Show Details

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)

Geometric String Art: Something for Everyone!

Thursday, July 21 • 2:20 PM - 3:20 PM

McCormick Place - W180



(Only registered attendees may view session materials. Please login with your NSTA account to view.)
Geometric String Art.pdf

STRAND: Strategies for Creating Inclusive Science and STEM Learning Environments

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During this session, I will provide participants with black card stock, needles, string, graph paper and tape. We will start by creating the artwork as this will fuel the discussion later. I will walk participants through the steps using a guided slideshow with pictures. They will be given multiple options and allowed to experiment with their selections. I will give them time to work at their tables to create their art and walk around to help. The discussion portion will happen after the art creation. I will ask the groups to share their art with their table. The valuable portion of the session is when we will brainstorm the modifications that can be done to help all students access this activity. I will ask groups to discuss and share out as I create a list. I will add any modifications not already mentioned. Next, I would like the groups to discuss how this can be used in their classes, including the modifications they would need to suit their students. As a take away, participants will have a note taking sheet, access to the slideshow (includes examples and instructions), list of supplies needed and where to purchase, their beautiful artwork, and valuable discussions.

TAKEAWAYS:
In addition to the art work, participants will leave with ideas, templates and modifications for a variety of students.

SPEAKERS:
Terri Serey (Orange Grove Middle School: Hacienda Heights, CA)

The STEM of PBL

Thursday, July 21 • 2:20 PM - 3:20 PM

McCormick Place - W179b



(Only registered attendees may view session materials. Please login with your NSTA account to view.)
_Main_Course.pdf
http://bit.ly/STEMPBLQA
https://drive.google.com/file/d/1c38TeuqPSC-vS8GLiVXQH9GzI7g0sjbx/view?usp=sharing
STEM PBL in action
https://www.youtube.com/watch?v=2HyFVEpZyEY
STEM PBL in action
https://www.youtube.com/watch?v=a487rcwqsLc
Guiding questions
https://www.youtube.com/watch?v=a487rcwqsLc
The Engineering Design Process/Journal Reflections
Projects VS PBL.docx
What Is PBL_ARTICLE.pdf
Why Is PBL Important_ARTICLE.pdf

STRAND: Using Inquiry-Based STEM to Facilitate Learning for ALL

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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 (Fulton County Public Schools)