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2022 Chicago National Conference - Sessions

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Thursday, July 21
8:20 AM - 9:20 AM
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Using tools to sense and interact with the environment

McCormick Place - W193a

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)

Presenter Materials for this Session:
(Please login with your NSTA account to view the materials)

Using tools to sense and interact with the environment.pdf

Thursday, July 21
1:00 PM - 2:00 PM
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Maximize the Benefits and Minimize the Challenges Associated with Embedding Engineering into the Science Curriculum using Argument-Driven Engineering

McCormick Place - W178b

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)

Thursday, July 21
1:00 PM - 2:00 PM
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Crash Science: When Physics Meets Biology

McCormick Place - W185b-c

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)

Thursday, July 21
1:00 PM - 2:00 PM
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Chickenology: Food Delivery Challenge

McCormick Place - W179b

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 (Education Projects, LLC: Columbus, OH)

Presenter Materials for this Session:
(Please login with your NSTA account to view the materials)

Chickenology Food Delivery Challenge Lesson
Chickenology Student Rubric
Chickenology Food Delivery Challenge Slide Deck

Thursday, July 21
2:20 PM - 3:20 PM
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Using scientific data and data collection to make sense of real world phenomena!

McCormick Place - W176a

Using data collection , participants will learn how to actively engage students in a conversation about data and the phenomena that it explains. Participants will learn how to create and/or modify old lessons, labs, and activities into opportunities for discussion , inquiry, and discovery using calculators, Nspire, and labquests.

Takeaways: Create a dynamic lesson for use in the science classroom using data collection.

Speakers

Chris Coker (Camden Fairview High School: Camden, AR)

Presenter Materials for this Session:
(Please login with your NSTA account to view the materials)

Chicago Packet.pdf
Copy of Opening (1).pptx

Thursday, July 21
2:20 PM - 3:20 PM
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Data, Tables, Graphs, Oh My! Strategies to Get All Students Doing & Speaking Science

McCormick Place - W176c

We are naturally curious, prone to ask why? How? What? Unfortunately, somewhere along the way students lose the trust in their voices to ask questions of and from data. But data are what we use to do science and it permeates all aspects of society today. What should we do? Stop teaching the vocabulary of science and data first, and instead leverage classroom-ready strategies to empower students to lead with their innate curiosity to practice critical 21st century data literacy skills and master the science content. Join us to explore connections between our science content, inquiry-based activities, and data skills. We will experience research-based strategies and freely available resources for integrating phenomenon-based and local data into our science instruction to promote science literacy and student empowerment. We will participate in activities ourselves and reflect on approaches for how to bring these into our classrooms. Participants will leave more empowered to integrate data into their science content in purposeful ways to better help students do and communicate science. Working with and learning science from data fosters critical thinking skills, lifelong interests in science, and facilitates learners’ overall self-identity as a scientist. 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, how students can do a lot more with data than we often think or presume from their science vocabulary alone, and how to leverage existing strategies to authentically integrate data into 6-12 science instruction to teach their science content and increase literacy simultaneously.

Speakers

Kristin Hunter-Thomson (Dataspire Education & Evaluation, Rutgers University: Princeton, NJ)

Presenter Materials for this Session:
(Please login with your NSTA account to view the materials)

Access to Resource Document
Complete the Google Form to gain access to the Resource Document and slide deck from the workshop.

Thursday, July 21
4:25 PM - 4:55 PM
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Surviving the Zombie Apocalypse: A 5E Instructional Unit on the Human Body

McCormick Place - W185d

The provided instructional unit will elicit students’ prior knowledge, as well as foster their individual and collective understandings of the human body.

Takeaways: Attendees will be encouraged to utilize facet-based assessments and classroom argumentation throughout lessons framed with the 5E instructional model.

Speakers

Alicia Herrera (John C. Fremont Middle School: Las Vegas, NV)

Thursday, July 21
4:25 PM - 4:55 PM
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Formative Assessment and Developing Critical Thinking Skills

McCormick Place - W187c

This session is intended to discuss the importance of formative assessment as a tool for guiding students and helping all students to make progress. A variety of formative assessment tools will be explored. Most importantly, the use of individual feedback on formative assessments will be demonstrated and we will discuss how this leads to improved metacognition and critical thinking skills for students. Attendees will see sample student work on formative assessments and accompanying sample teacher feedback. They will practice making comments of there own, in addition to discussing logistical concerns with the practice of individualized feedback.

Takeaways: This session is intended to discuss the importance of formative assessment as a tool for guiding students and helping all students to make progress.

Speakers

Jennifer Maguire (Virginia Tech: Blacksburg, VA)

Thursday, July 21
4:25 PM - 4:55 PM
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Integrating CS into Science Storylines

McCormick Place - W176c

Science teachers at Lindblom Math and Science Academy in Chicago Public Schools have worked with Northwestern University’s CT-STEM department to develop computational thinking in science units aligned with the Next Generation Science Standards. The goal is for students to understand and apply computational thinking practices in their science classrooms to help make sense of phenomena or problems, analyze data, use models and develop explanations. Units, built by teachers, are designed to cover core science concepts in physics, chemistry, and biology. This program allows teachers to work with CT-STEM members to develop new simulations or other CT activities that work best in the unit. This was developed based on teacher need, when simulations didn’t exist to address the big ideas. Integration of NetLogo models, SageModeler, NetTango, and other data analysis activities are used to help students make real world connections. These tools allow students to learn and apply basic computer science ideas and skills as well as the 3-D of NGSS. Developed unit topics include: stoichiometry, climate change, gas laws, and energy. These units are available for public use and can be easily modified on the CT-STEM platform for teachers to use.

Takeaways: Overview of how teachers integrated Computational Thinking into science units and how to access units for Biology, Chemistry, Physics, and Earth Science

Speakers

Carole Namowicz (Lindblom Math and Science Academy: Chicago, IL), Lauren Levites (Lindblom Math and Science Academy: Chicago, IL)

Friday, July 22
8:00 AM - 9:00 AM
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Unraveling the Mysteries of Color: Adding (and Subtracting) It All Up!

McCormick Place - W193b

Investigate how colors mix, by adding light sources or by removing colors from white light, and discover how cell phones and newspapers use these methods.

Takeaways: Color mixing has different outcomes when light sources are added than when dyes or inks subtract colors from a white background. Additive color systems are used in TVs and computer screens, while subtractive colors are found in photos and paintings.

Speakers

Gary Benenson (The City College of New York: New York, NY), Stephanie Codrington (Benjamin Banneker Magnet School of Architecture and Engineering: Brooklyn, NY), Kathy Gutierrez (P.S. 536: Bronx, NY), Gary Benenson (The City College of New York: New York, NY)

Friday, July 22
1:00 PM - 2:00 PM
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iHub Anchoring Phenomenon Routine Polar Ice Unit

McCormick Place - W196c

Attendees will experience the Anchoring Phenomenon Routine as students do in iHub’s Polar Ice unit. This routine engages students in asking questions about why people from around the Earth are being displaced from their homes as a starting point in a unit of study focused on how we can slow or stop polar ice from melting before the sea level rises too much. After experiencing the routine, attendees will analyze the routine through an equity lens.

Takeaways: Attendees will learn how the iHub curriculum supports teachers in eliciting and making use of students’ own questions and their experiences in instruction, which supports student motivation and agency (Harris, Phillips, & Penuel, 2011).

Speakers

Rachel Patton (Denver Public Schools: No City, No State), Kathryn Fleegal (Denver Public Schools: Denver, CO), Beth Vinson (Denver Public Schools: Denver, CO)

Presenter Materials for this Session:
(Please login with your NSTA account to view the materials)

Experiencing the iHub Anchoring Phenomenon Routine in the Polar Ice HS Chemistry

Friday, July 22
1:00 PM - 2:00 PM
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Creating K-6 STEM Classrooms That Embrace Science Inquiry: Helping Students Think and Work Like Scientists - Exploring, Asking Questions, and Seeking Sense-Making of Scientific Phenomena

McCormick Place - W178a

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: Overland Park, KS)

Friday, July 22
1:00 PM - 2:00 PM
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NSTA/ISTA Session- Bridging the Gap: Connecting STEM/Science Learning in CTE

McCormick Place - Skyline W375b

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)

Presenter Materials for this Session:
(Please login with your NSTA account to view the materials)

Bridging the GAP

Saturday, July 23
9:20 AM - 10:20 AM
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Engaging Young Children in Everyday Sensemaking through Project-Based Learning

McCormick Place - W179a

Participants will learn how to engage young children in STEM-focused project-based learning that encourages them to make sense of everyday phenomena. Through an inquiry-based interdisciplinary approach, even our youngest learners can pose their own questions, develop models, and plan their own investigations. During this presentation, participants will view an example early childhood STEM-focused project-based learning experience where young children are engaging in sensemaking of an everyday phenomenon. They will also explore the elements of project-based learning including how to launch a unit, engage young children in research using a variety of mediums and through field work, and organize a public exhibit of learning with their school community. Participants will brainstorm potential everyday phenomena for projects and plan activities where young children can engage in hands-on sensemaking. All attendees will leave this session with the tools they need to confidently lead an inquiry-based, STEM project that is developmentally-appropriate for young children.

Takeaways: Participants will learn how to utilize use everyday phenomena as the focus for STEM-focused project-based learning.

Speakers

Ryan Kurada (Sonoma County Office of Education: Santa Rosa, CA)

Saturday, July 23
10:40 AM - 11:40 AM
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Engaging All Students Using Culturally Relevant Inquiry Based Teaching Practices

McCormick Place - W181a

Present culturally relevant inquiry-based teaching practices to engage all students in science learning. The interactive session will define what it means to be a culturally relevant practitioner, and how to use inquiry-based teaching practices in their science classroom. The participants will be engaged using scenarios and identification lessons that are culturally relevant inquiry-based.

Takeaways: Participants will be able to define inquiry-based learning as culturally responsive/relevant teaching and identify characteristics of cultural competency in science teachers.

Speakers

Rochelle Darville (West St. John High School: Edgard, LA)

Saturday, July 23
1:00 PM - 2:00 PM
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Programming Simple Tools to Facilitate Science Inquiry Investigations

McCormick Place - W184d

Participants will learn about the framework for computational thinking and then learn to apply it to science inquiry investigations using Block Coding (used with students in elementary and middle school in many jurisdictions) and how it can be used to improve the conduct of science investigations (and be more like the investigations conducted by scientists).   Participants will apply the computational thinking framework to creating/modifying/using simple programs (either using a free online programming tool OR with a simple, inexpensive microcontroller that will be loaned by the presenters) that can be used in science inquiry investigations either for conducting the investigation (e.g., a random number generator) or for collecting data (e.g., a counter and a timer). Investigations where these can be used will be discussed and demonstrated. The use of the microcontrollers and/or a free online programming tool to develop a simple measurement tool provides participants (and their students) an opportunity to experience a simulated situation a scientist or engineer would face as they use computing tools to develop automated measuring responses.   Finally, as an example of what is known as “physical computing”, participants will learn to build (and will build if time allows) a physical interface (to use with a computer or Chromebook) that allows them to interact with a program they have either written or downloaded.   Participants will be provided printed copies of example lesson plans and instruction sheets on how to engage students with using the Scratch program and the microcontrollers). Note that no knowledge of coding or any equipment is necessary to participate in this workshop. 

Takeaways: Attendees will learn how computational thinking (applied to simple block coding examples and simple micro-controllers) can be used in science classrooms to help students conduct better inquiry investigations and better experience “authentic” science practices.

Speakers

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

Presenter Materials for this Session:
(Please login with your NSTA account to view the materials)

Programming Simple Tools to Facilitate Science Inquiry Investigations.pdf

Saturday, July 23
2:20 PM - 3:20 PM
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Lab Journals 2.0- Rethinking student-centered instructional practices

McCormick Place - W181a

Expectations on deeper learning and more rigor in our curriculums have led to increased demands on our students. As we collectively shifted from paper to digital, our access to tools improved but has our instruction kept pace? How do we prevent our curriculum from becoming simply a digital pencil with disconnected simulations and activities that fail to embrace high-quality scientific practices? In this session, we will examine how digital science journals can be used as a means for evidence collection and reflection on student learning. Together, we will focus on how students collect and analyze evidence in a variety of meaningful ways. Examples of primary sources will showcase how students can observe and categorize similarities to help answer a driving question. We will also examine best practices around using simulations to drive student inquiry. An emphasis on exploring data, from organization to manipulation will also be highlighted. Finally, we will showcase how AR and VR can be effectively used in the classroom to allow students to think and act like real scientists along with open-sourced 3D prints. Join me for an engaging session!

Takeaways: Attendees will be able to design educational opportunities focused on evidence collection and reflection to provide scientific arguments and explanations to a phenomenon.

Speakers

Mike Jones (Illinois State University: Normal, IL)

Saturday, July 23
2:20 PM - 3:20 PM
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Phenomenon-based Instruction - Unpacking the 3-D NGSS

McCormick Place - W180

Unpacking the 3-D NGSS while at the same time making science instruction engaging to students is a challenge faced by science teachers across the nation. With skillful use of phenomena-based instruction, science teachers engage students by converting what the teacher planned to teach into what the students want to learn. Culturally relevant, intellectually accessible and thought-provoking phenomena enable students to make engaging connections between the required curricula content and real-life scenarios and applications. Rather than recalling discrete facts, students apply new information and use transferable problem-solving skills to explain a natural or man-made phenomenon. Phenomenon-based science encourages students to ask questions, discover connections, and design models to make sense of what they observe. This session provides participating teachers opportunities to experience lessons in the same manner as students will. They examine a phenomenon and then ask questions, collaborate with partners and design models, and discuss digital tools that can be used to engage students in phenomenon-based learning. Teachers learn how to use questioning techniques and academic dialogue to spike discontent in the students' understanding of the phenomena, thereby, driving students to use science practices to further explore their curiosities

Takeaways: Help teachers to develop and deploy thought-provoking phenomena that will promote student engagement, comprehension, and achievement in the sciences by transforming what the teacher planned to teach into what the students are eager to learn.

Speakers

Chidi Duru (Prince George's County Public Schools: Upper Marlboro, MD)

Saturday, July 23
2:20 PM - 3:20 PM
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Facilitating Inquiry for Growth in Science and Engineering Practices: Exploring Surface Heating

McCormick Place - W178a

Learning through place-based, student-centered, teacher-facilitated STEM inquiry increases student engagement in and ownership of learning and promotes student growth in science and engineering practices, disciplinary core ideas, and crosscutting concepts. Using a unit plan I developed for exploring local microclimates, participants will engage in activities and discussion of techniques for cultivating students as collaborators in the learning process. The unit is designed to encourage growth in asking questions, designing and conducting investigations, collecting data, making sense of data, communicating findings, and identifying local problems and designing solutions to a student-identified problem. Participants will use NASA infrared images of surface temperatures captured during an ISS mission to observe the urban heat island phenomenon. They will explore Google Earth to spark questions about surface heating that can be answered through investigation of the local neighborhood or school campus. Given a list of equipment that students used during the unit, participants will collaboratively design an investigation to collect place-based data. Discussion includes extension activities that facilitate student understanding of surface heating and cooling. Discussion also includes how revision and reflection can be used to monitor individual student growth and promote ownership of learning by students. Emphasis is on facilitation techniques.

Takeaways: Learning through place-based, student-centered, teacher-facilitated STEM inquiry increases student engagement in and ownership of learning and promotes student growth in science and engineering practices, disciplinary core ideas, and crosscutting concepts.

Speakers

Loris Chen (Science Education Consultant: Fair Lawn, NJ)

Presenter Materials for this Session:
(Please login with your NSTA account to view the materials)

Exploring Surface Heating.pdf
UHI Observations.pdf

Saturday, July 23
2:20 PM - 3:20 PM
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Object-Based Inquiry in the Multilingual Classroom

McCormick Place - W179b

In this workshop, Field Museum educators and Chicago Public School teachers will share their experience using object-based learning in the classroom and how it sparks curiosity and language development in multilingual students. Field Museum educators will give an overview of the tenets of object-based inquiry and how it lends itself to giving equitable access to content for all students. Chicago Public School teachers will explain the practical application and benefits of using object-based learning in their multilingual classrooms and highlight how science ideas and language development occurs naturally through discussion, question-asking, and scientific drawing. During the hands-on workshop, participants will act as a learner in a guided object-based inquiry lesson that focuses on including everyday phenomena. Following the hands-on experience, they will have the opportunity to share how they would integrate object-based learning in their own curriculum. Participants will create their own collection of learning objects to use in their classroom.

Takeaways: Educators will learn how to merge science ideas with student ideas in their classroom using object-based phenomena to deepen students' questioning and observation skills. Educators will learn how to use object-based learning in their ELL or bilingual classrooms to promote language and content acquisition. Educators will learn how to use objects as hands-on learning tools to provide equitable learning opportunities for all.

Speakers

Mireya Becker (The Field Museum: Chicago, IL), Damaris Cami (Dual Language Teacher: Chicago, IL), Eleanor Sweeney (Educator: Chicago, IL), Andrea McGehee (Educator: Chicago, IL)

Presenter Materials for this Session:
(Please login with your NSTA account to view the materials)

Object-Based Inquiry for the Multilingual Classroom.pptx