Researchers from Ideum and XPRIZE Foundation recently completed a multi-site study of the way people use an innovative experience on health technologies. Funded by the Qualcomm Foundation, the team traveled to three US science centers to see how museum visitors interacted with and learned from the exhibit, which Ideum and XPRIZE designed and developed in 2018.
The exhibit was funded by XPRIZE after 2017’s Qualcomm Tricorder XPRIZE competition, in which teams developed ideas for new kinds of portable medical devices. Running on a custom 65” Ideum Platform multitouch table, the experience
Today’s digital and online media demand an approach to learning keyed to a networked and interconnected world. The growth of online communities, social and online media, open educational resources, ubiquitous computing, big data, and digital production tools means young people are coming of age with a growing abundance of access to knowledge, information, and social connection. These shifts are tied to a host of new opportunities for interest-driven learning, creative expression, and diverse forms of contribution to civic, political, and economic life. Even learning of traditional academic
The Saint Louis Science Center (SLSC) project Bridging Earth and Mars (BEAM), based upon work supported by NASA under grant award NNX14AD08G, engages the general public and children from schools and community groups. Visitors learn of NASA’s exploration of Mars through exhibits simulating control of robotic rovers on the surface of Mars, as well as related educational programming. Two public exhibition galleries opened on November 21, 2015: (1) Mission: Mars Control, located on the second floor of the SLSC Main Building; and (2) Mission: Mars Base, located in the SLSC Planetarium Building
In this article we explore how activity design and learning contexts can influence youth failure mindsets through a case study of five youth who described failure as sometimes a good thing and sometimes a bad thing (a perspective we characterize as Failure as Mosaic, described in the article). These youth and their descriptions of failure-positive and failure-negative experiences offer a unique opportunity to identify how experiences can be designed to support learning and persistence. In order to understand differing views of failure among youth, we researched the following questions:
How can creators of STEM learning media reach underserved parents and children, and support the kinds of playful STEM interactions that are foundational for future STEM learning?
This research report summarizes findings from a pilot study of Cyberchase: Mobile Adventures in STEM, a program that uses mobile text messaging and short videos to encourage hands-on family learning among low-income Latino families.
In the study, 95 mostly Latino families received weekly text messages with video clips from the popular children's series Cyberchase, and fun activities to do with their
It’s a simple idea. Introduce a kid to a scientist, and let the child ask questions—whatever they wonder about. Then ask the child to reflect a little on the conversation when it’s over by drawing a picture or writing a few words. This is the gist of Science Storytellers, a program founded by freelance science writer Jennifer Cutraro. At the ACS national meeting in Boston last month, C&EN partnered with Science Storytellers to bring this program to the ACS Kids Zone event held at the Boston Children’s Museum. Modeled after the approach professional journlists use in their work, Science
RUFF FAMILY SCIENCE is a project funded by the National Science Foundation (NSF) that aims to foster joint media engagement and hands-on science exploration among diverse, low-income parents and their 4- to 8-year-old children. The project is using a research and design process to create an implementation model and prototype resources (digital media, hands-on activities, and supports for educators) to build new knowledge about the potential for digital media to inspire and support intergenerational science learning among vulnerable families.
WGBH and Education Development Center, Inc. (EDC)
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TEAM MEMBERS:
Mary HaggertyHeather LavigneJessica AndrewsAlexia RaynalMarion GoldsteinJaime Gutierrez
Tinkering creates a bridging point between a learner’s personal interests and experiences and a broad range of possible learning outcomes. It offers valuable opportunities to engage all students in STEM and fosters a more inclusive STEM education. In this way, it is very much aligned with a Science Capital Teaching Approach: fundamentally, it is a highly personalised pedagogy, which allows the learner to follow their own interests and set their own goals.
This resource has been designed to help teachers integrate the Tinkering approach and the Science Capital framework in their practice
In 2018, the Croucher Foundation conducted its third annual mapping exercise for the out-of-school STEM learning ecosystem in Hong Kong.
The study reveals a rich and vibrant ecosystem for out-of-school STEM in Hong Kong with over 3,000 discrete activities covering a very wide range of science disciplines. This third report indicates extremely rapid growth in available out-of-school STEM activities compared to 2016 and an even larger increase in the number of organisations offering out-of-school STEM activities in Hong Kong.
STEM educators are eager to foster long term collaboration with
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TEAM MEMBERS:
Siu Po LeeDavid FosterThe Croucher Foundation
This paper describes a follow‐up focus group study for the larger Exhibit Designs for Girls' Engagement (EDGE) project. Grounded in Culturally Responsive Pedagogical theory (CRP), the project aimed to understand the relationship between female responsive designs and girls' engagement at STEM exhibits. After developing a Female‐Responsive Design (FRD) Framework and conducting a large‐scale study to determine the most important design attributes for engaging girls at exhibits, the final step involved a qualitative investigation into those design attributes. Four focus groups with 22 girls aged 8
We examined the conversational reflections of 248 families with 6–11‐year‐old children shortly after they visited a tinkering exhibit. Our aim was to understand the conditions of tinkering and conversational reflection that can enhance STEM learning opportunities for young children. We discuss implications for the design of tinkering and reflection activities that can both reveal and advance STEM learning.
BioEYES is a K-12 science outreach program that develops self-sustaining teachers as a replication strategy to address high demand for the program while promoting long-term school partnerships. This paper explores the practices of “model teachers” from multiple grades, who are empowered over a three-year period to deliver BioEYES’ hands-on science content autonomously, as compared to the program’s standard co-teaching model (BioEYES educator + classroom teacher). The authors found that BioEYES’ professional development (PD) workshop, classroom co-teaching experience, and refresher trainings