InterLACE: Interactive Learning and Collaboration Environment

This project designs, constructs, and field-tests a web-based, online collaborative environment for supporting the teaching and learning of inquiry-based high school physics. Based on an interactive digital workbook environment, the team is customizing the platform to include scaffolds and other supports for learning physics, fostering interaction and collaboration within the classroom, and facilitating a design-based approach to scientific experiments.

Full Description

This project, under the Tufts University Center for Engineering Education and Outreach (CEEO) designs, constructs, and field-tests a web-based, online collaborative environment for supporting the teaching and learning of inquiry-based high school physics. Based on prior NSF-funded work on RoboBooks, an interactive digital workbook environment, the team is customizing the platform to include scaffolds and other supports for learning physics, fostering interaction and collaboration within the classroom, and facilitating a design-based approach to scientific experiments. The InterLACE team hypothesizes that technology seamlessly integrating physics content and process skills within a classroom learning activity will provide a wide variety of student benefits, ranging from improved learning outcomes and increased content knowledge to gains in attitudinal and social displays as well.

The hypothesis for this work is based on research that indicates teachers believe proper implementation of design-based, inquiry projects are time consuming and can be difficult to manage and facilitate in classrooms without great scaffolding or other supports. Using design-based research with a small number of teachers and students, the PIs iteratively develop the system and supporting materials and generate a web-based implementation that supports students through the various stages of design inquiry. A quasi-experimental trial in the final years of the project is used to determine the usability of the technology and efficacy of the system in enhancing teaching and learning. Through the tools and activities developed, the researchers anticipate showing increases in effective inquiry learning and enhanced accessibility to meet the needs of diverse learners and teachers, leading to changes in classroom practice.

Through this project the PIs (1) gain insights that will enable them to refine the InterLACE platform so it can be implemented and brought to scale in the near terms as a support for design-based inquiry science projects, and (2) advance theory, design and practice to support the design of technology-based learning environments, and (3) understand how connecting students? hypotheses, ideas, and data impacts their learning of physics content and scientific inquiry skills.

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