Cognitive Science

A Practice-Based Online Learning Environment for Scientific Inquiry with Digitized Museum Collections in Middle School Classrooms

Principal Investigator:
Kirsten Butcher

EPIC Bioscience engages middle school students in authentic scientific practices via NGSS-aligned investigations of museum specimens. Students complete interactive activities to build prior knowledge and context, then use digitized specimens to collect and analyze relevant data. Findings are applied to pressing global issues such as biodiversity loss, geographic range changes in populations, and diminishing resources. Key challenges in the development of online, specimen-based science investigations are addressed using example interactions and analyses from EPIC investigations.

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Discipline/Topic:
Science
Cognitive Science
Educational Technology
Target Audience:
Middle School

Design and Development of Transmedia Narrative-based Curricula to Engage Children in Scientific Thinking and Engineering Design (Collaborative Research: Ellis and McGinnis-Cavanaugh)

Principal Investigator:
Glenn Ellis
Beth McGinnis-Cavanaugh
Transforming Engineering Education in Middle Schools (TEEMS) is an NGSS-aligned middle school curriculum that utilizes heroic stories to engage students in learning engineering and science concepts.
 
Our curriculum consists of multiweek units covering Principles of Engineering Design and Materials, Tools, and Manufacturing,  as well as six shorter integrated engineering/science lessons.
 
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Discipline/Topic:
Engineering
Science
Assessment
Broadening Participation
Cognitive Science
Curriculum
Disciplinary Content Knowledge
Professional Development
Target Audience:
Middle School

Design and Development of Transmedia Narrative-based Curricula to Engage Children in Scientific Thinking and Engineering Design (Collaborative Research: Ellis and McGinnis-Cavanaugh)

Principal Investigator:
Glenn Ellis
Beth McGinnis-Cavanaugh
Transforming Engineering Education in Middle Schools (TEEMS) is an NGSS-aligned middle school curriculum that utilizes heroic stories to engage students in learning engineering and science concepts.
 
Our curriculum consists of multiweek units covering Principles of Engineering Design and Materials, Tools, and Manufacturing,  as well as six shorter integrated engineering/science lessons.
 
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Discipline/Topic:
Engineering
Science
Assessment
Broadening Participation
Cognitive Science
Curriculum
Disciplinary Content Knowledge
Professional Development
Target Audience:
Middle School

Developing a Modeling Orientation to Science: Teaching and Learning Variability and Change in Ecosystems (Collaborative Research: Lehrer, Miller, and Peake)

Principal Investigator:
Richard Lehrer
Alison Miller
Leigh Peake

We are investigating the development of middle-schoolers' understandings and practices of modeling in the context of investigations of variability and change in ecosystems. We are studying how and to what extent students' participation in distinct forms of modeling informs their classroom-based citizen science investigations.

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Discipline/Topic:
Science
Cognitive Science
Curriculum
Disciplinary Content Knowledge
Professional Development
Target Audience:
Middle School

Developing a Modeling Orientation to Science: Teaching and Learning Variability and Change in Ecosystems (Collaborative Research: Lehrer, Miller, and Peake)

Principal Investigator:
Richard Lehrer
Alison Miller
Leigh Peake

We are investigating the development of middle-schoolers' understandings and practices of modeling in the context of investigations of variability and change in ecosystems. We are studying how and to what extent students' participation in distinct forms of modeling informs their classroom-based citizen science investigations.

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Discipline/Topic:
Science
Cognitive Science
Curriculum
Disciplinary Content Knowledge
Professional Development
Target Audience:
Middle School

Developing a Modeling Orientation to Science: Teaching and Learning Variability and Change in Ecosystems (Collaborative Research: Lehrer, Miller, and Peake)

Principal Investigator:
Richard Lehrer
Alison Miller
Leigh Peake

We are investigating the development of middle-schoolers' understandings and practices of modeling in the context of investigations of variability and change in ecosystems. We are studying how and to what extent students' participation in distinct forms of modeling informs their classroom-based citizen science investigations.

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Discipline/Topic:
Science
Cognitive Science
Curriculum
Disciplinary Content Knowledge
Professional Development
Target Audience:
Middle School

Learning Trajectories as a Complete Early Mathematics Intervention: Achieving Efficacies of Economies at Scale

Principal Investigator:
Douglas Clements
The ULTIMATE (Understanding Learning Trajectories In Math: Advancing Teacher Education) project will evaluate Learning Trajectories as a complete early mathematics intervention by supporting teachers in deepening their understanding of how children learn mathematics and how to incorporate this understanding. Drs. Clements and Sarama have built a professional development tool, called Learning and Teaching with Learning Trajectories, or [LT]2. The team will investigate the positive impacts both in supporting teachers and on students' learning of mathematics.
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Discipline/Topic:
Mathematics
Broadening Participation
Classroom Practice
Cognitive Science
Curriculum
Educational Technology
Pedagogical Content Knowledge
Professional Development
Target Audience:
Pre-Kindergarten

Developing Transmedia Engineering Curricula Using Cognitive Tools to Impact Learning and the Development of STEM Identity

Engineering
Science
Assessment
Broadening Participation
Classroom Practice
Cognitive Science
Curriculum
Disciplinary Content Knowledge
Equity
Evaluation
Implementation
Pedagogy
Research
Standards
Student Attitudes/Beliefs
Middle

This paper examines the use of Imaginative Education (IE) to create an NGSS-aligned middle school engineering curriculum that supports transfer and the development of STEM identity. In IE, cognitive tools—such as developmentally appropriate narratives, mysteries and fantasies—are used to design learning environments that both engage learners and help them organize knowledge productively. We have combined IE with transmedia storytelling to develop two multi-week engineering units and six shorter engineering lessons.

Access Link
https://peer.asee.org/34438
Author/Presenter

Glenn W. Ellis

Jeremiah Pina

Rebecca Mazur

Al Rudnitsky

Beth McGinnis-Cavanaugh

Isabel Huff

Sonia Ellis

Crystal M. Ford

Kate Lytton

Kaia Claire Cormier

Lead Organization(s)
Smith College
Springfield Technical Community College (STCC)
Year
2020
Short Description

This paper examines the use of Imaginative Education (IE) to create an NGSS-aligned middle school engineering curriculum that supports transfer and the development of STEM identity.

Resource(s)
Smith et al 2021.pdf

Developing Transmedia Engineering Curricula Using Cognitive Tools to Impact Learning and the Development of STEM Identity

Engineering
Science
Assessment
Broadening Participation
Classroom Practice
Cognitive Science
Curriculum
Disciplinary Content Knowledge
Equity
Evaluation
Implementation
Pedagogy
Research
Standards
Student Attitudes/Beliefs
Middle

This paper examines the use of Imaginative Education (IE) to create an NGSS-aligned middle school engineering curriculum that supports transfer and the development of STEM identity. In IE, cognitive tools—such as developmentally appropriate narratives, mysteries and fantasies—are used to design learning environments that both engage learners and help them organize knowledge productively. We have combined IE with transmedia storytelling to develop two multi-week engineering units and six shorter engineering lessons.

Access Link
https://peer.asee.org/34438
Author/Presenter

Glenn W. Ellis

Jeremiah Pina

Rebecca Mazur

Al Rudnitsky

Beth McGinnis-Cavanaugh

Isabel Huff

Sonia Ellis

Crystal M. Ford

Kate Lytton

Kaia Claire Cormier

Lead Organization(s)
Smith College
Springfield Technical Community College (STCC)
Year
2020
Short Description

This paper examines the use of Imaginative Education (IE) to create an NGSS-aligned middle school engineering curriculum that supports transfer and the development of STEM identity.

Resource(s)
Smith et al 2021.pdf

Empowering Students with Specific Learning Disabilities: Jim’s Concept of Unit Fraction

Mathematics
Broadening Participation
Cognitive Science
Pedagogy
Elementary

Cognitive differences have historically led to deficit assumptions concerning the mathematical experiences that children with learning disabilities (LD) can access. We argue that the problem can be located not within children but instead as a mismatch between features of instruction and children’s unique learning abilities. In this paper, we investigate how one elementary school child, Jim, with specific visual motor integration differences constructed a unit fraction concept.

Access Link
https://www.sciencedirect.com/science/article/abs/pii/S0732312319300768
Author/Presenter

Jessica H. Hunt

Juanita Silva

Rachel Lambert

Lead Organization(s)
North Carolina State University (NCSU)
Year
2019
Short Description

This paper investigates how one elementary school child with specific visual motor integration differences constructed a unit fraction concept.

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