2022 Chicago National Conference

July 21-23, 2022

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FILTERS APPLIED:9 - 12, Presentation, Using Inquiry-Based STEM to Facilitate Learning for ALL, Engineering

 

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

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)
Playpump lesson
Product archaeology lesson
Robot arm lesson (with materials list)
Shoe sole sketch and design lesson

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)

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

Show Details

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)

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

Show Details

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)

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)

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)

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)

Data and Storylines: The key to helping all students become STEM literate

Thursday, July 21 • 3:40 PM - 4:10 PM

McCormick Place - W176c



(Only registered attendees may view session materials. Please login with your NSTA account to view.)
Data and Storylines
Resources for Teachers
Resource Folder
Resource Folder

STRAND: Developing Scientific Literacy in the Science and STEM Classroom

Show Details

News bulletins on social media and news sites contain topics that students need to understand now so that they can make informed decisions for their world today and tomorrow. STEM literacy is crucial to learners struggling to understand the multitude of information bombarding them through television, social media and the internet. Students in K-12 must become STEM literate so that they can identify, understand and solve problems in the world around them. STEM Literacy promotes innovative thinking and creativity as well as collaboration, problem solving, and most importantly, critical thinking. Today’s challenges need answers from our students but first they need to understand issues including climate change, space travel, robotics. By using real-world applications of scientific data and storylines, students become critical consumers, problem-solvers, and change-makers. Students who are STEM literate will be able to think critically and act responsibly about issues that impact them. In this session, lessons and strategies will be shared with teachers to inspire and to support their students as they develop STEM literacy skills. These lessons will encourage students to explore, explain and develop solutions to real phenomena and solve real problems.

TAKEAWAYS:
Three Takeaways: 1) Teachers will become familiar with technology, literacy and adaptive learning for middle school and high school students. 2) Teachers will be introduced to the free materials available that align with NGSS standards. 3) Teachers will be given ideas on how to incorporate these lessons in class

SPEAKERS:
Diane Ripollone (Cardinal Gibbons High School: No City, No State), Kathy Biernat (Zanilu Educational Services, LLC: No City, No State)

Studying the Wright Brothers and Testing Airfoils: Bringing STEM into the History Classroom

Thursday, July 21 • 3:40 PM - 4:10 PM

McCormick Place - W184a


STRAND: Developing Scientific Literacy in the Science and STEM Classroom

Show Details

As a high school Engineering teacher, I'm passionate about the effects project-based learning can have on students' ability to engage with classroom material. I don't believe that hands-on STEM work needs to be limited to the science classroom and want to share a project that has been done in a freshman History class and could be adapted to incorporate other topics. Using online 3D modeling software, a 3D printer, and a wind generator, students studying the Wright brothers drew their own historically significant airfoils (like The Spirit of St. Louis and the Enola Gay), 3D printed them, and tested them. Students learned airfoil terminology, like camber and chord, and used airfoil ratios to create their scale models. While testing, we discussed the variations of the wings and why engineers might value payload capacity over speed based on the plane's use. My hope is that this presentation can encourage teachers to bring STEM concepts into other curricular departments as a way to demonstrate the types of connections students can make when they're working hands-on. This presentation will detail the steps of the project, materials needed, and highlight the challenges and lessons we've learned over the four years we've run this unit.

TAKEAWAYS:
Attendees will see an example of how a STEM teacher brought project based learning into a freshman History class and how that project has evolved and expanded over four years. We will present the curriculum and materials needed for this week-long project for others to employ at their own schools.

SPEAKERS:
Abigail Mills (Woodberry Forest School: Woodberry Forest, VA)

Planning More Accessible Science Lessons with Universal Design for Learning (UDL)

Thursday, July 21 • 4:25 PM - 4:55 PM

McCormick Place - W184d



(Only registered attendees may view session materials. Please login with your NSTA account to view.)
Claims and evidence.jpg
Debate.jpg
Final Planning Science Lessons For ALL- NSTA Chicago.pptx
Planning Science Lessons For ALL- NSTA Chicago.pdf
Speaking like a scientist.pdf - Inv. Part 1.pdf

STRAND: No Strand

Show Details

In this presentation we will start with an existing basic physical science lesson that uses disciplinary core ideas on electricity, the engineering practice of making a model by constructing a basic electrical circuit, and the cross-cutting concept of cause and effect (closing the circuit starts current flow and turns on the light). We will then modify it using Universal Design for Learning (UDL) so it is more accessible, especially for students with disabilities. UDL encourages multiple means of representation, expression, and engagement for presenting and receiving content and information related to the lesson and gives students several ways to acquire the lesson knowledge, Multiple means of expression allows the students several choices in how they can “show what they know” and multiple means of engagement offers learners offers appropriate challenges to get students interested and motivated. Planning or modifying lessons using UDL not only makes lessons more accessible, but it also makes lessons more engaging for all students in inclusive classrooms.

TAKEAWAYS:
1) Universal Design for Learning (UDL) encourages multiple means of representation, expression, and engagement for presenting and receiving content and information related to the lesson. Use of UDL makes lessons more engaging for all students. 2) Applying UDL (Universal Design for Learning) will make the lesson more accessible, especially for students with special needs. 3) You may start with a lesson you already have. It is not necessary to develop a lesson from scratch when using UDL.

SPEAKERS:
Mary O'Donnell (Penn State University), Gargi Adhikari (Holland Brook School/Readington Township Schools: Whitehouse Station, NJ)

Using GeoSpatial Data to Teach Climate Justice

Thursday, July 21 • 4:25 PM - 4:55 PM

McCormick Place - W176a



(Only registered attendees may view session materials. Please login with your NSTA account to view.)
Link to Schools for Climate Action Campaign
Free resources for student advocacy for climate justice on local, state and federal level.
Presentation
Resources, curriculum, lesson plans, sample case studies of student advocacy

STRAND: Students and Sensemaking: Promoting Science and STEM Teaching Strategies That Place Equity at the Center of Learning

Show Details

Let's discuss the expansion and availability of geospatial data (arcGIS, EJScreen, CalAdapt) to examine environmental justice issues in their own community and create climate resilience action plans for an authentic audience (city council, school district, state lawmakers).

TAKEAWAYS:
Attendees will explore strategies for using geospatial data to examine, interpret, and act on place-based environmental justice issues in their communities.

SPEAKERS:
Nancy Metzger-Carter (Sonoma Academy: Santa Rosa, CA)

Providing actionable feedback to build students’ self-reflection skills

Thursday, July 21 • 4:25 PM - 4:55 PM

McCormick Place - W181a


STRAND: No Strand

Show Details

How many teacher comments on student work are left unread? Or, even if they are read, how useful are they to the student? Can the student positively internalize the feedback and use it to improve their work? Chances are the answer is no! But it doesn’t have to be this way! During this session, participants will learn more effective strategies for giving actionable feedback and methods to help their students utilize feedback to improve their work. First we’ll learn how to ask questions in student feedback and how differently questions are internalized by the student. For example, consider the difference between, “I don’t understand what you mean here,” and “Can you explain in more detail what you meant in this statement?” Then we’ll discover how to make sure teachers' feedback is read and used by students to improve their work. By making self reflection a formalized step in the learning process, teachers provide students opportunities to practice this important skill! Participants will receive a worksheet with feedback tips and tricks.

TAKEAWAYS:
Several methods that can be applied immediately in the classroom, providing feedback encouraging students to be self reflective of their own work.

SPEAKERS:
Regina Borriello (Clifton High School/Awkward Octopus Productions: No City, No State)

Phenomena to Questions: Practical Engagement Strategies for Student Sensemaking

Friday, July 22 • 8:00 AM - 9:00 AM

McCormick Place - Skyline W375b


STRAND: Students and Sensemaking: Promoting Science and STEM Teaching Strategies That Place Equity at the Center of Learning

Show Details

Explore how to use phenomena to generate student questions that allow for further investigation to support student sensemaking.

TAKEAWAYS:
Attendees will learn how to effectively use phenomena to allow for authentic student questioning and how to use those questions to increase student engagement and sensemaking.

SPEAKERS:
Nicole Vick (Northwestern University)

NSTA/ISTA Session- Bridging the Gap: Connecting STEM/Science Learning in CTE

Friday, July 22 • 1:00 PM - 2:00 PM

McCormick Place - Skyline W375b



(Only registered attendees may view session materials. Please login with your NSTA account to view.)
Bridging the GAP

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

Show Details

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)

STEM + Empathy in Use in the Design of an Improved Bionic Arm

Friday, July 22 • 1:00 PM - 2:00 PM

McCormick Place - W185d



(Only registered attendees may view session materials. Please login with your NSTA account to view.)
Slides
Session slides with links to all resources and contact information

STRAND: Developing Scientific Literacy in the Science and STEM Classroom

Show Details

Empathic engineering design can help develop students’ cultural competence as well as inform the design of more useful innovations for people with limb differences.

TAKEAWAYS:
School-based activities that are oriented toward improving community members’ lives can simultaneously support the development of students’ cultural competence and integrated STEM literacy.

SPEAKERS:
Susan Meabh Kelly (University of Connecticut: Storrs Mansfield, CT), Brittany Klimowicz (NYC iSchool: New York, NY)

Toshiba America Foundation wants to work together with teachers who are looking for a better way of doing the right thing

Friday, July 22 • 2:20 PM - 3:20 PM

McCormick Place - W175c


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

Show Details

Toshiba America Foundation wants to work together with teachers who are looking for a better way to engage the community in STEM. Participants will hear from educators that have won money for their school and communities to implement STEM action projects.

TAKEAWAYS:
Participants will learn how they can receive cash awards and acknowledge for STEM action projects.

SPEAKERS:
John Anderson (Toshiba America Foundation: Irvine, CA)

Getting Carried Away: The UpLab

Friday, July 22 • 2:20 PM - 3:20 PM

McCormick Place - W176a


STRAND: Students and Sensemaking: Promoting Science and STEM Teaching Strategies That Place Equity at the Center of Learning

Show Details

Using the Dual Range Force Sensor, participants will determine how many helium balloons are needed to lift themselves and the house from Disney’s film Up.

TAKEAWAYS:
1. Using the phenomenon of the helium balloon lifted house from the movie "Up," attendees will leave with a lab using the Dual Range Force Sensor to determine the amount of balloons needed to lift themselves and the house; and 2. the session will show how this can be used for any level of student, and as a bonus will also incorporate how the data collection and analysis can be collected using Python coding.

SPEAKERS:
Todd Graba (Crystal Lake South High School: Crystal Lake, IL), Brad Posnanski (Comsewogue High School: Port Jefferson Station, NY)

Engaging with Your STEM Ecosystem Through After-School Programs: Lessons from Science Olympiad

Friday, July 22 • 2:20 PM - 3:20 PM

McCormick Place - W179b


STRAND: No Strand

Show Details

A challenge that STEM education presents to educators is how to stay current in an ever-evolving field to accurately represent and engage their students with new topics, activities, and careers. Too often STEM teachers become locked-in on a set of topics, activities, and careers because of the resources and opportunities to which they have access. After-school programs, and their ability to foster partnerships within a school’s larger STEM ecosystem, are one mechanism to open up STEM programs within schools to new topics, activities, and careers while offering avenues for professional growth and learning for the classroom teacher. By introducing the Science Olympiad program and the strategies used by our school participants for over three decades to build partnerships, connect to their STEM ecosystem, and expand learning we intend to help attendees draw parallels to their STEM ecosystems and their after-school programs. Building off of this information, attendees will analyze and discuss ways their STEM ecosystem can contribute to their STEM program, develop approaches for asking ecosystem members for support, and recognize opportunities to grow their STEM program through after-school programs. The session will close with a discussion of attendees’ specific challenges and issues ensuring attendees leave with actionable solutions.

TAKEAWAYS:
The big takeaway from this session will attendees examining their STEM ecosystem to identify potential partners who align with their programming and can support student learning.

SPEAKERS:
John Loehr (Science Olympiad: Oakbrook Terrace, IL)

Science Education in an Age of Misinformation

Friday, July 22 • 2:20 PM - 3:20 PM

McCormick Place - W184d


STRAND: Developing Scientific Literacy in the Science and STEM Classroom

Show Details

We are living in an Age of Misinformation. Developing the capabilities to evaluate scientific information is a key goal of scientific literacy. Moreover, “obtaining, evaluating and communicating information” is a core practice of NGSS. The NGSS standards, however, were developed a decade ago before misinformation became so pervasive and were not developed to address this threat. Much of this misinformation is scientific. Therefore, this session will present a set of ideas and materials about how to address this challenge. These have emerged from a report developed at Stanford University drawing on the expertise of an international group of science educators, scientists and psychologists entitled “Science Education in an Age of Misinformation”. In this session, we will present the main arguments and recommendations of the report. Using a set of practical, web-based classroom examples, participants will work in small groups to trial and discuss the suggested teaching approaches and materials we have developed. Opportunities will be provided for feedback, questions and discussion in a final plenary. What we will present will empower teachers of science with ways they can support their students to avoid being misled by the purveyors of misinformation.

TAKEAWAYS:
Participants will learn what are the challenges posed by misinformation and what they can do to help science education address this challenge using practical examples of exercises and ionnovative teaching materials.

SPEAKERS:
Daniel Pimentel (University of Alabama: No City, No State)

Cultural Competence Matters: Improving Cultural Competence through Effective Interpersonal Communication

Saturday, July 23 • 8:00 AM - 9:00 AM

McCormick Place - W185b-c


STRAND: Strategies for Creating Inclusive Science and STEM Learning Environments

Show Details

Culturally relevant pedagogy embodies a professional, political, cultural, ethnical, and ideological disposition that supersedes mundane teaching acts; it is centered in fundamental beliefs about teaching, learning, students, their families, and their communities, and an unyielding commitment to see student success become less rhetoric and more of a reality. This session will aid in building awareness and sensitivity to the culture-based genius that students bring to the classroom using science inquiry strategies. Emphasis will be placed on a model for the inclusion of culturally relevant content that accommodates student backgrounds and methods of learning. In this session, we will exhibit how to identify the key characteristics of culturally responsive lessons. Attendees will acquire lesson design methods that employ cultural competence and effective communication. Attendees will use collaborate boards during the presentation to respond and interact. Activities to exhibit how students identify with what they know in the classroom will be utilized to help educators make connections and apply this information when planning lessons.

TAKEAWAYS:
Building awareness and sensitivity to the culture-based genius that students bring to the classroom using science inquiry strategies. Emphasis will be placed on a model for the inclusion of culturally relevant content that accommodates student backgrounds and methods of learning.

SPEAKERS:
Kelly Haynes (Baker High School: Baker, LA), Jennifer Norwood (Instructional Support Specialist), Tara Hollins (Exceptional Student Services Educator: Zachary, LA)

The Science of Student Engagement- How stress and the brain affect learning

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

McCormick Place - W181c


STRAND: Strategies for Creating Inclusive Science and STEM Learning Environments

Show Details

Students find science difficult or non-stimulating particularly when teachers do not consider cognitive, physiological, and socio-emotional disparities in students. Research has shown that engaging the appropriate parts of the brain helps students make a long-lasting, personalized connection to scientific concepts and practices. Studies show that discipline and learning problems in our classrooms may be associated with a lack of student engagement. Engaged students are less likely to be disruptive and are more likely to retain information longer. The focus of this presentation is to equip teachers with the pedagogical skills and strategies needed to drive student engagement and achievement by recognizing and addressing physiological, cognitive, and socio-emotional disparities in students based on an understanding of how a learner’s brain works. Participating teachers will explore the impact of emotions, storytelling, culturally relevant and hands-on learning on the forebrain and consequently on student engagement and comprehension. Teachers will learn to correctly harness the learning power of the forebrain, particularly, those of the hippocampus and amygdala, by appropriately employing suitable learning strategies. These will enhance student engagement, improve learning outcomes and increase academic achievement in the sciences.

TAKEAWAYS:
Teachers will learn to correctly harness the learning power of the forebrain, particularly, those of the hippocampus and amygdala, by appropriately employing suitable learning strategies

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

Engaging Students in the Science and Engineering of Food

Saturday, July 23 • 2:20 PM - 3:20 PM

McCormick Place - W196a



(Only registered attendees may view session materials. Please login with your NSTA account to view.)
Engaging Students in the Science and Engineering of Food
A group of educators is working to develop a series of storylines on food. This is an overview of the first storyline on Producing the Perfect Apple.

STRAND: Students and Sensemaking: Promoting Science and STEM Teaching Strategies That Place Equity at the Center of Learning

Show Details

Obtaining food to meet our energy and matter needs is a basic requirement of humans and food also defines our culture. This presentation will share how to use elements of the three dimensions of the NGSS and Framework to engage students in making sense of phenomena and problems related to food. Strategies for how to use driving question boards, lesson level learning targets, and engage all learners will be shared. Specific attention will be given for how to align assessments that challenge students to apply their understandings. Participants will engage in a morsel of a storyline on producing the perfect apple. In this storyline, students notice and wonder about different varieties of apples and are challenged to explain why it took 30 years for the Honeycrisp apple to be available to consumers. Students ask questions for how perfect apples are mass produced, how nutrients and environmental factors affect the quality of fruit, and how to attain the right balance of sweet-tart flavor. This storyline weaves together scientific concepts such as meiosis and mitosis, pedigrees and probability, plant structure and function, nutrient cycles, the role of photosynthesis in producing food, and how plants use cellular respiration to survive the winter.

TAKEAWAYS:
Engage in conversations for how to use the three dimensions of the NGSS and the NRC Framework, storylines, driving questions, formative and summative assessments, and hands-on activities to learn science and engineering skills while making sense of one of our most basic needs – FOOD.

SPEAKERS:
Chris Embry Mohr (Olympia High School: Stanford, IL)

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