Informal learning environments offer a range of educational observations. Lately, many venues have adopted livestreaming and digital archiving, both as additional access for a wider offsite audience and as alternative ways to engage the onsite audience. Students can observe animals and plants from a different continent through a live camera feed, or they can watch an online recording of a science experiment even if they missed the live demonstration. However, livestreamed or archived observations remain a mostly passive experience, offering limited interactions beyond watching the videos. One way to create more active learning opportunities from these observations is to use sensors such as thermal cameras as additional streaming devices, which transmit real-time images and data that not only reveal more about what is being observed, but also allow the audience to ask deeper questions, find answers by interacting with the data, apply science knowledge in a relevant context, and become an active participant in scientific inquiry.
This project has created Telelab, a cloud platform for livestreaming and archiving interactive observations to promote citizen science. Powered by the Internet of things (IoT), Telelab allows informal science educators to present exhibits, living organisms or ecosystems through the use of sensors and actuators. Audiences both onsite and offsite can visualize biological processes in situ, such as thermoregulation, thermogenesis, metabolism, etc., or they can investigate physics and chemistry experiments by analyzing experimental data in combination with the video stream.
This work is funded by The Advancing Informal STEM Learning (AISL) program, which seeks to advance new approaches to and evidence-based understanding of the design and development of STEM learning opportunities for the public in informal environments; provide multiple pathways for broadening access to and engagement in STEM learning experiences; advance innovative research on and assessment of STEM learning in informal environments; and engage the public of all ages in learning STEM in informal environments.
"Making and Tinkering" links science, technology, engineering and mathematics learning (STEM) to the do-it-yourself "maker" movement, where people of all ages "create and share things in both the digital and physical world" (Resnick & Rosenbaum, 2013). This paper examines designing what Resnick and Rosenbaum (2013) call "contexts for tinkerability" within the social design experiment of El Pueblo Mágico (EPM) -- a design approach organized around a cultural historical view of learning and development. We argue that this theoretical perspective reorganizes normative approaches to STEM education
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TEAM MEMBERS:
Lisa SchwartzDaniela DigiacomoKris Gutierrez
Using their imagination and creativity, inventors have made significant contributions to our world throughout the course of human history. In recent times, a growing community has responded to the need for more intensive research on Invention Education and within the last several years has begun organizing itself around collaborative action that will accelerate the uptake and practice of Invention Education. The purpose of this document is to provide a comprehensive community-driven framework and set of principles for Invention Education that can support its growth within formal and informal
The Researching Invention Education white paper compiles contributions from a community of individuals and organizations working in Invention Education (IvE) in the United States. IvE is a term that refers to the practice of teaching students how to problem-solve and think like inventors in order to become positive change-makers in the world. The paper was written by researchers interested in IvE who attended the 2018 InventEd convening hosted by The Lemelson Foundation. The group worked together for a year to publish their findings that were then uncovered at the 2019 InventEd convening in
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TEAM MEMBERS:
Audra SkukauskaiteStephanie CouchLeslie Flynn
IMPACT NC is a collaboration between the North Carolina science centers and museums and NC State University (NCSU) to build and foster a Community of Practice (CoP) for collective evaluation among the 54 partner organizations across the state of North Carolina. Funded by IMLS Museum Leadership Grant (MG-70-19-0019-19).
The goals of IMPACT NC are:
Identification of a set of shared goals for informal science education across the state.
Development of metrics to assess these goals.
Enhanced capacity of the Community of Practice of science museums to conduct evaluation centered on these collective evaluation goals and metrics.
Improved cohesion among science museums and other partners in NC (e.g. university collaborators, non-profit organizations) as they collectively work toward shared goals.
Development of a system for reporting program outcomes using shared metrics that is integrated into annual reporting or grant proposal processes across NC, thereby informing decision making.
We characterize the factors that determine who becomes an inventor in the United States, focusing on the role of inventive ability (“nature”) vs. environment (“nurture”). Using deidentified data on 1.2 million inventors from patent records linked to tax records, we first show that children’s chances of becoming inventors vary sharply with characteristics at birth, such as their race, gender, and parents’ socioeconomic class. For example, children from high-income (top 1%) families are ten times as likely to become inventors as those from below-median income families. These gaps persist even
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TEAM MEMBERS:
Alex BellRaj ChettyXavier JaravelNeviana PetkovaJohn Van Reenen
In November 2020, President-elect Joe Biden identified four priority areas for the incoming administration: COVID-19; climate change, economic recovery, and racial equity. These crucial areas of national interest will be the focus of media attention, policy debates, funding initiatives, and community discussions over the next four years. Will museums be part of these important conversations and initiatives? Are there opportunities for museums to affirm or to reposition their roles within the difficult public deliberations ahead? Addressing Societal Challenges through STEM (ASCs) is a research
Maker Education scholarship is accumulating increasingly complex understandings of the kinds of learning associated with maker practices along with principles and pedagogies that support such learning. However, even as large investments are being made to spread maker education, there is little understanding of how organizations that are intended targets of such investments learn to develop new maker related educational programs. Using the framework of Expansive Learning, focusing on organizational learning processes resulting in new and unfolding forms of activity, this paper begins to fill
Pulsar: A Science Podcast is a science and technology podcast produced by the Museum of Science, Boston. The podcast has grown and expanded in recent months as the museum turned its attention to developing online resources during the coronavirus pandemic. This evaluation seeks to understand the ways the Pulsar team may improve their product in order to better suit listeners’ preferences and to expand the podcast’s reach.
This evaluation is grounded in two primary objectives: (1) describing the podcast’s current audience and (2) understanding factors that impact listeners’ engagement with
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TEAM MEMBERS:
Alia QatarnehAbigail FeldmanMason Hill
This paper describes the methodology and the development of the instruments for collecting and analyzing data to better understand 1) what people bring with them to their visit, 2) what people do during a visit, and 3) what people take away from a visit. Elements of what they bring intersect with Knology’s work, and what they do and what they take away intersect with Oregon State University’s work on WZAM3.
COSI’s Center for Research and Evaluation (CRE) led a study was conducted in four phases with three study components. These phases serve to organize the remainder of this report::
To better understand STEM interest development during adolescence in an urban community, we examined how “STEM Interested” youth differed from disinterested youth and how interest changed over time from age 11/12 to 12/13. We surveyed youth to measure interest in four components of STEM, used cluster analysis to categorize youth based on STEM interest, and examined how interest profiles and pathways differed for several explanatory factors (e.g., parental support, gender). Three STEM interest profiles emerged from the analysis: Stem Interested, Math Disinterested, and STEM Disinterested. Only
In this paper, we examine the relationship between participants’ childhood science, technology, engineering, and mathematics (STEM) related experiences, their STEM identity (i.e., seeing oneself as a STEM person), and their college career intentions. Whereas some evidence supports the importance of childhood (i.e., K‐4) informal STEM education experiences, like participating in science camps, existing research does not adequately address their relationship to STEM career intention later in life. Grounding our work in identity research, we tested the predictive power of STEM identity on career