2022 Chicago National Conference

July 21-23, 2022

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FILTERS APPLIED:6 - 8, Hands-On Workshop, Mathematics

 

Rooms and times subject to change.
10 results
Save up to 50 sessions in your agenda.

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

Show Details

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)

Broaden Science Participation: Unpack “Analyze & Interpret” to Teach Data As an Equalizer

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

McCormick Place - W179b



(Only registered attendees may view session materials. Please login with your NSTA account to view.)
Access to Resource Document
Complete this Google Form to access the Resource Document and a slide deck from the workshop.

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

Show Details

We live in a data-driven world, and our students will be working in a data-driven workforce. Therefore, it is critical that our Pre-K-12 students learn foundational data literacy skills. However, currently these skills are too often only taught in upper-level classes. All students need these skills and all students, down to our little Pre-Kers, can work with and make sense of science data. Let’s make sure data is an equalizer, rather than another divider in our educational system and society! Join us as we explore what perception and learning science tell us about how our brains process data. We will experience research-based strategies and freely available resources to build science knowledge and self-efficacy through data. Finally, we will explore ways to adapt our existing curriculum activities and data visualizations to help our students more equitably access science. Through hands-on activities and group discussions, participants will leave more empowered to leverage data and data visualizations into their science content in purposeful ways for all learners. Working with and learning science from data fosters critical thinking skills, lifelong interests in science, and facilitates learners’ overall 21st century skills. Let’s set all of our students up for success!

TAKEAWAYS:
Participants will identify how data literacy is a critical aspect of science literacy in the 21st century for all students and ways to adjust existing curriculum to leverage data as entry points into science inquiry, sensemaking, and knowledge for all learners to see themselves in STEM.

SPEAKERS:
Kristin Hunter-Thomson (Dataspire Education & Evaluation, LLC: No City, No State)

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

Show Details

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)

Science Teachers ARE Math Teachers: Integrating Mathematical Thinking into Sensemaking

Thursday, July 21 • 1:00 PM - 2:00 PM

McCormick Place - W185a


STRAND: Developing Scientific Literacy in the Science and STEM Classroom

Show Details

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)

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

Show Details

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)

Exploring Energy Forms and Transformations in the Real World

Thursday, July 21 • 2:20 PM - 3:20 PM

McCormick Place - W185a


STRAND: Developing Scientific Literacy in the Science and STEM Classroom

Show Details

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)

Problem Centered Teaching by Tomorrow

Saturday, July 23 • 8:00 AM - 9:00 AM

McCormick Place - W193a



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

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

Show Details

Problem centered instruction is a great way to engage students, integrate content, inspire learning, and naturally incorporate all three dimensions of the NRC Framework. However, true problem centered instruction requires a major shift in both teaching and learning, requiring the one thing teachers don't have: time--the last thing teachers need is another pedagogical strategy that disrupts their entire routine. Teachers will have the opportunity to voice their concerns and discuss some barriers of problem centered teaching and learning, while also addressing the benefits for both teachers and students. Considering the benefits, there are some immediate changes that teachers can use to help shift to a problem centered environment. Recalling that problem centered learning should be complex, meaningful, and open-ended, the four strategies are: 1) Make the Content Relatable, 2) Structure: Less is More, 3) Be a Resource, Not an Answer Key, and 4) Use a Problem to Introduce a Topic. Teachers will then have an opportunity to put the strategies to immediate use by picking a lesson or topic and work with others to transform it into a three-dimensional, problem centered lesson.

TAKEAWAYS:
Teachers will explore four strategies that promote three-dimensional learning through the process of problem centered instruction that is complex, meaningful, and open-ended. They will discuss benefits and barriers to the problem centered approach from the perspective of both the instructor and the learner. Teachers will have an opportunity to brainstorm and work collaboratively on transforming a lesson or topic of their choice into a problem centered, reality based scenario that seamlessly integrates the Science and Engineering Practices, Crosscutting Concepts, and Disciplinary Core Ideas.

SPEAKERS:
Cassandra Armstrong (Illinois Mathematics and Science Academy: Aurora, IL)

Artemis Mission Activities: Landing Humans on the Moon

Saturday, July 23 • 9:20 AM - 10:20 AM

McCormick Place - W184d


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

Show Details

Learn about NASA’s Next Gen STEM educator resources and how to join our first online community of practice for STEM educators (CONNECTS).

TAKEAWAYS:
Educators will learn about future opportunities with NASA for student participation while completing a lunar lander design challenge.

SPEAKERS:
Lynn Dotson (NASA Office of STEM Engagement-GoH: Kennedy Space Center, FL)

Artemis: NASA's Missions to the Moon & Mars

Saturday, July 23 • 1:00 PM - 2:00 PM

McCormick Place - W186c


STRAND: No Strand

Show Details

Attendees will be provided with a high-level overview of NASA’s Artemis Missions to the Moon and Mars, Next Generation Science Standards, and gain insights on how Engineering Design fits within the NGSS. This session highlights an activity from NASA’s Next Gen STEM - Moon to Mars Educator Guide titled, "Landing Humans on the Moon" (https://www.nasa.gov/stem-ed-resources/landing-humans-on-the-moon.html) which is part of a series of standards-aligned educator guides designed to help students reach their potential to join the next-generation STEM workforce and learn about sending humans to the Moon, Mars, and beyond. The focus of the “Safe Landing on the Lunar Surface” activity engages participants to understand how a spacecraft’s engines can provide downward thrust to counteract the force of gravity not only at launch, but also during a landing to slow its descent. Utilizing the engineering design process attendees will use household materials to better understand the difficulties in landing a lander on the surface of a terrestrial body that does not have an atmosphere (no atmospheric braking, no use of parachutes, and no aerodynamic control surfaces). Participants will design, build, and improve a model of a lunar lander that can slow its descent using the downward thrust of a balloon; graph the speed with respect to elevation of a model lunar lander.

TAKEAWAYS:
1. Attendee will explore NASA STEM Educator Guides that are standards-aligned and provide detailed information and resources on how to implement STEM engagement learning experiences in the classroom to help students learn about sending humans to the Moon, Mars, and beyond. 2. Attendees will gain hand on minds on experience with implementing NASA STEM engagement activities in their classroom. Then, using engineering design principles, attendees will mirror the process that NASA engineers follow to brainstorm a human lander design, ultimately building an actual model that they will test. 3. Participants will gain insights into the difficulties in landing a lander on the surface of a terrestrial body that does not have an atmosphere (no atmospheric braking, no use of parachutes, and no aerodynamic control surfaces).

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

NASA STEM: Computational Thinking: Crew Transportation with Orion

Saturday, July 23 • 2:20 PM - 3:20 PM

McCormick Place - W175a


STRAND: No Strand

Show Details

The free NASA STEM lesson plans introduce the practice of computational thinking and include elements of a real NASA mission. NASA’s Artemis program will return humans to the lunar surface for the first time since 1972, the year of the agency's last Apollo moon landing. This Educator Guide provides four standards-aligned activities to help students learn about NASA's Orion spacecraft that will take astronauts to the Moon and beyond. In this session, we will design and build a crew module model that will secure two 2-cm astronaut figures during a drop test. The PowerPoint will be available to all participants. The PowerPoint will include the videos and activities including the tips and pointers. Session Outline: 5 min - Welcome and Introduction to NASA Artemis Mission 10 min- STEM Engagement strategies and culturally relevant teaching 10 min- Introducing the Engineering Design Challenge 20 min- Teams Design a Crew Vehicle 10 min- Testing the Crew Vehicle 5 min- Reviewing the Resources and Q and A https://www.nasa.gov/sites/default/files/atoms/files/np-2020-02-2805-hq.pdf

TAKEAWAYS:
NASA provides free educational resources that include educator guides with standards-aligned activities to help students use computational thinking while including elements of real NASA missions.

SPEAKERS:
Susan Kohler (NASA Glenn Research Center: Cleveland, OH)

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