Science

Technology-based Innovative Assessment

This section presents an overview of critical developments in technology-driven, classroom-based innovative assessment practices. It uses a framework organized around cognitive constructs, assessment functionality, and automaticity to review the technological developments of innovative assessments and identify how they have been advanced to meet researcher and practitioner needs.

Author/Presenter

Xiaoming Zhai

Eric Wiebe

Year
2023
Short Description

This section presents an overview of critical developments in technology-driven, classroom-based innovative assessment practices. It uses a framework organized around cognitive constructs, assessment functionality, and automaticity to review the technological developments of innovative assessments and identify how they have been advanced to meet researcher and practitioner needs.

Technology-based Innovative Assessment

This section presents an overview of critical developments in technology-driven, classroom-based innovative assessment practices. It uses a framework organized around cognitive constructs, assessment functionality, and automaticity to review the technological developments of innovative assessments and identify how they have been advanced to meet researcher and practitioner needs.

Author/Presenter

Xiaoming Zhai

Eric Wiebe

Year
2023
Short Description

This section presents an overview of critical developments in technology-driven, classroom-based innovative assessment practices. It uses a framework organized around cognitive constructs, assessment functionality, and automaticity to review the technological developments of innovative assessments and identify how they have been advanced to meet researcher and practitioner needs.

Technology-based Innovative Assessment

This section presents an overview of critical developments in technology-driven, classroom-based innovative assessment practices. It uses a framework organized around cognitive constructs, assessment functionality, and automaticity to review the technological developments of innovative assessments and identify how they have been advanced to meet researcher and practitioner needs.

Author/Presenter

Xiaoming Zhai

Eric Wiebe

Year
2023
Short Description

This section presents an overview of critical developments in technology-driven, classroom-based innovative assessment practices. It uses a framework organized around cognitive constructs, assessment functionality, and automaticity to review the technological developments of innovative assessments and identify how they have been advanced to meet researcher and practitioner needs.

Technology-based Innovative Assessment

This section presents an overview of critical developments in technology-driven, classroom-based innovative assessment practices. It uses a framework organized around cognitive constructs, assessment functionality, and automaticity to review the technological developments of innovative assessments and identify how they have been advanced to meet researcher and practitioner needs.

Author/Presenter

Xiaoming Zhai

Eric Wiebe

Year
2023
Short Description

This section presents an overview of critical developments in technology-driven, classroom-based innovative assessment practices. It uses a framework organized around cognitive constructs, assessment functionality, and automaticity to review the technological developments of innovative assessments and identify how they have been advanced to meet researcher and practitioner needs.

Justice-Centered STEM Education with Multilingual Learners: Conceptual Framework and Initial Inquiry into Pre-service Teachers’ Sense-Making

When pressing societal challenges (e.g., COVID-19, access to clean water) are sidelined in science classrooms, science education fails to leverage the knowledge and experiences of minoritized students in school, thus reproducing injustices in society. Our conceptual framework for justice-centered STEM education engages all students in multiple STEM subjects, including data science and computer science, to explain and design solutions to pressing societal challenges and their disproportionate impact on minoritized groups.

Author/Presenter

Scott E. Grapin

Alison Haas

N’Dyah McCoy

Okhee Lee

Year
2023
Short Description

Our conceptual framework for justice-centered STEM education engages all students in multiple STEM subjects, including data science and computer science, to explain and design solutions to pressing societal challenges and their disproportionate impact on minoritized groups. In the first part of this article, we extend our conceptual framework by articulating the affordances of justice-centered STEM education for one minoritized student group that has been traditionally denied meaningful STEM learning experiences: multilingual learners (MLs). In the second part of the article, we report on an initial inquiry into how 14 undergraduate pre-service teachers made sense of our conceptual framework after participating in lessons from our COVID-19 instructional unit.

Energy and Your Environment (EYE): Place-based Curriculum Unit to Foster Students’ Energy Literacy

This chapter describes our middle school energy literacy project to develop, implement, and test curriculum materials for a unit titled Energy and Your Environment (EYE). EYE fosters place-based education by using the school building to enhance systems thinking about energy consumption and flow between the building and surrounding environment. Within the curriculum unit, students first consider the carbon footprint of buildings.

Author/Presenter

Suzy Otto

Laura B. Cole

Rebekah Snyder

R. Tanner Oertli

Sepideh Fallahhosseini 

Lead Organization(s)
Year
2023
Short Description

This chapter describes our middle school energy literacy project to develop, implement, and test curriculum materials for a unit titled Energy and Your Environment (EYE). EYE fosters place-based education by using the school building to enhance systems thinking about energy consumption and flow between the building and surrounding environment.

Scaling STEM-ID—Research Strategies to Inform Initial Scaling of Middle School Engineering Curricula

This work-in-progress paper discusses ****, a three-year middle school Engineering and Technology course sequence that integrates foundational mathematics and science in an engineering context through challenges that introduce students to advanced manufacturing tools such as computer aided design (CAD) and 3D printing and incorporate engineering concepts such as pneumatics, aeronautics, and robotics. The paper will describe research strategies informing the initial scaling of the **** curricula following its iterative development over several years in a previous large-scale project.

Author/Presenter

Dyanne Baptiste Porter

Jessica D Gale

Meltem Alemdar

Sunni Haag Newton

Abeera P. Rehmat

Talia Capozzoli

Jeffrey H Rosen

Jasmine Choi

Roxanne Moore

Year
2023
Short Description

This work-in-progress paper discusses a three-year middle school Engineering and Technology course sequence that integrates foundational mathematics and science in an engineering context through challenges that introduce students to advanced manufacturing tools such as computer aided design (CAD) and 3D printing and incorporate engineering concepts such as pneumatics, aeronautics, and robotics.

Connecting Classroom Assessment with Learning Goals and Instruction Through Theories of Learning

In this report section, we discuss the importance of aligning classroom assessments with learning goals and instructional practices to both shape and evaluate students’ learning opportunities. We describe a plausible solution for improving alignment by integrating theories of learning in the design of classroom assessments. We discuss ways in which the specification of theories of learning as learning progressions can improve alignment between classroom assessments and instruction by focusing on the content, task design, and data generated from classroom assessments.

Author/Presenter

Leanne R. Ketterlin-Geller

Christopher J. Harris

Year
2023
Short Description

In this report section, we discuss the importance of aligning classroom assessments with learning goals and instructional practices to both shape and evaluate students’ learning opportunities.

Designing Educative Tools for Scientific Argumentation: A Case Study of DBR Before and During the Pandemic

Design-based research is uniquely positioned to adapt instructional resources quickly to meet the needs of teachers and students. This chapter explores how researchers adapted and improved two educative tools over the course of two academic years. The educative tools were designed to support scientific argumentation through supporting students to develop task models of NGSS storyline routines. Both educative tools were developed, field-tested, and improved in the context of two different middle school science curricula in the city of Chicago.

Author/Presenter

Steven McGee

Randi McGee-Tekula

Anne Britt

Kathryn E. Rupp

Karyn Higgs 

Lead Organization(s)
Year
2023
Short Description

Design-based research is uniquely positioned to adapt instructional resources quickly to meet the needs of teachers and students. This chapter explores how researchers adapted and improved two educative tools over the course of two academic years. The educative tools were designed to support scientific argumentation through supporting students to develop task models of NGSS storyline routines.

Scientific Communities of Practice: K–12 Outreach Model Around Organism Responses to Repeated Hurricane Disturbances

Collaboration between ecologists and learning scientists can give rise to powerful models for scientific outreach within ecology. This paper presents a process by which learning scientists and ecologists codesigned a science curriculum that invites students to join an ecological community of practice. In the Journey to El Yunque middle school science curriculum, students engage with simulation models generated from data gathered by Luquillo Long Term Ecological Research (LUQ LTER) scientists.

Author/Presenter

Kathleen M. Easley

Jess K. Zimmerman

Steven McGee

Randi McGee-Tekula

Lead Organization(s)
Year
2023
Short Description

Collaboration between ecologists and learning scientists can give rise to powerful models for scientific outreach within ecology. This paper presents a process by which learning scientists and ecologists codesigned a science curriculum that invites students to join an ecological community of practice.