Brookfield Zoo will develop a model for formal and informal early childhood educators in the Chicago metropolitan area to promote children and family learning (nature play, exploration, and scientific inquiry) within urban environments. In collaboration with the Forest Preserve District of Cook County and the Mary Crane and El Valor Head Start centers in Chicago, Brookfield Zoo will train 80 early childhood educators in its established nature play curriculum; facilitate networking opportunities between participants and organizations; and host a two-day symposium for 150 early childhood educators at the end of the project. This partnership has built-in capacity for expansion within Chicago and throughout the region, and can serve as a replicable model for zoos, nature preserves, and Head Start programs throughout the country to increase opportunities children have to play, explore, and learn in nature as a basis for developing lifelong environmental stewardship.
These resources are designed to identify opportunities to improve training for educators and researchers during implementation of the Living Laboratory model. The Data Collection Guidelines provide general instructions and tips for conducting evaluation through observations of (and/or interviews with) visitors. Two versions of each instrument (Researcher-Caregiver Conversations Instrument and Research Toy Interactions Instrument) are included: one can be modified and printed for data collection; the second is an annotated version, which includes more detailed instructions for each item in the
This pathways project will study how audiences in public spaces, in this case those in a museum setting, relate to and make sense of large data displays. The project is preliminary to development of a traveling, hands-on exhibition enabling users to create and utilize representations of big data displays such as maps and charts. As the test case, the project will use science maps that provide an overview of science generally and specific areas of STEM, charting and exploring the history and future of science and technology. The data collection portion of the project will take place at the New York Hall of Science, the Marian Koshland Science Museum, COSI in Columbus, Ohio, and WonderLab Museum in Bloomington, Indiana. The project will create a foundation for the design of museum exhibits and educational programs that teach museum visitors how to explore, engage and make better sense of big data. The project is potentially transformative because big data is becoming ubiquitous and making sense out of large data displays is necessary in order to understand big data sets.
The University of Southern California (USC) will build on prior work to test a robust model for assessing player content engagement and social interactions within an augmented reality game (ARG). In partnership with No Mimes Media, USC will use machine learning algorithms to make automated player inferences to customize game play. The content focus of the game will span a range of STEM disciplines, with a special emphasis on earth science content and scientific investigation & experimentation reasoning. High school youth from underserved communities in Los Angeles will be recruited to participate in the endeavor. This pathways project will use various "rabbit hole" techniques to attract freshmen and sophomore students from partner charter schools to the online game. The rabbit hole strategies may include cryptic posters, inquisitive signs, & SQR codes strategically placed in plain and open view of the target group. The game will be fully accessible to the target group online. During the ARG experience, youth players will encounter STEM concepts and scientific problems. Antagonistic characters will promulgate scientific misconceptions and nonscientific reasoning and challenge players to employ their scientific knowledge and skills to level-up, gain badges, and move through the game. As game play persists, machine learning algorithms will gather data on the players learning competencies and social interactions within the game. These data will be aggregated and analyzed to assess learning and interactions within the ARG environment. Additional analyses will be conducted by the mixed methods approach the external evaluation group, CRESST, will employ for the project formative and summative evaluations. Approximately 300 youth, within the target grade levels, are expected to participate in the gaming experience. However, given that access to the game and assessment tools will expand beyond the target group, the potential reach of the project could be much greater. Further, the stated aim of the project is not only to produce a scalable model for broad implementation but it also endeavors to provide puppetmasters with research and assessment tools to create more individualized experiences and improved learning outcomes for players within ARG environments.
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Yu-Han ChangJihie KimRajiv Maheswaran
Rockman et al (REA), a San Francisco-based research and evaluation firm, conducted the external evaluation for Youth Radio's DO IT! program, which was funded by the National Science Foundation. Building upon Youth Radio's previous Science and Technology Program, the DO IT! initiative consisted of three primary components that promoted STEM (science, technology, engineering, and mathematics) learning by training underserved youth in cutting-edge digital technologies: (1) Brains and Beakers: Young people hosted a line-up of investigators and inventors for demo-dialogues at Youth Radio's studios
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Rockman et al | Youth RadioKristin BassJulia Hazer
Bang, Warren, Rosebery, and Medin explore empirical work with students from non-dominant communities to support teaching science as a practice of inquiry and understanding, not as a “settled” set of ideas and skills to learn.
The adoption of the Next Generation Science Standards means that many educators who adhere to model-based reasoning styles of science will have to adapt their programs and curricula. In addition, all practitioners will have to teach modeling, and model-based reasoning is a useful way to do so. This brief offers perspectives drawn from Lehrer and Schauble, two early theorists in model-based reasoning.
What would it be like to increase the number of youth-serving volunteers who can competently lead science, technology, engineering, and math (STEM) activities? This question guided the Inquiry in the Community project, launched in 2008. Along with Girl Scout staff colleagues and volunteers, the project created a system for embedding inquiry-based science into a youth development organization.
This poster was presented at the 2014 AISL PI Meeting in Washington DC. It describes the CLUES project that provides STEM education opportunities to families.
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New Jersey Academy for Aquatic SciencesBarbara Kelly
This poster, presented at the 2014 AISL PI Meeting, shows the impact of an afterschool program that brought hands-on, inquiry-based science to ELL students in a low SES area of Southern California. Data sources included observation of lessons, interviews with students, and collection of student work Results demonstrate a shift in student thinking around students' internalization of becoming a scientist and who is capable of being a scientist.
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University of California, IrvineLauren Shea
This is a handout from the session "Making Space for Innovation: Sampling of Making and Tinkering" at the 2014 ASTC Conference held in Raleigh, NC. The session provided an overview of different makerspaces and tinkering programs, including the goals, opportunities, and challenges of the making movement.
This is a handout from the session "Introducing your preschool audiences to science and astronomy" at the 2014 ASTC Conference held in Raleigh, NC. The session discussed how the My Sky Tonight project supports informal science educators in engaging young children in the practices of science through astronomy.