This is a Broad Implementation proposal. Our goal is to create a vibrant, sustained community of practice around the established Café Scientifique New Mexico model for engaging high school teens in science, technology, engineering and math; scale-up will be accomplished via a national network of committed partners. The adult Cafe Scientifique model for engaging citizens in science has proven very effective and has been implemented widely. The interaction in a social setting with a scientist-presenter around a hot science topic is the key to the model’s success. With ISE funding, the model has been adapted by Science Education Solutions for the high school teen audience. Cafe Scientifique New Mexico, now starting its fifth year, has had documented success in providing teens with increased STEM literacy and a more realistic picture of scientists as real people leading interesting lives. Teens come to better understand the nature of science and are more likely to see the relevance of science to their lives. Scientists express strong satisfaction with the nature of our coaching and the resulting quality of their science communication. The program has been continually evaluated and improved, and is now ready for broad implementation. Intellectual Merit: Teenagers are the adult citizens and workforce of tomorrow. Teens are reaching a critical life juncture and are making choices that affect their future life style, life-long learning behaviors, and careers. Yet they are increasingly dropping out of the STEM pipeline in school. Even teens interested in STEM often know little about science and engineering careers and the nature of scientific research. Teen Cafés can play an important role in addressing these challenges. We have two major objectives: 1. Implement the Café Scientifique model of Teen Cafés in a national network of sites committed to adopting and adapting the program and validating its impacts with diverse audiences; and 2. Create a vibrant and sustainable community of practice comprised of ISE and STEM professionals interested in engaging teens in STEM through Teen Cafés. We have formed a core network of six initial partners: Southern Illinois University Edwardsville, Center for STEM Research, Education, and Outreach; The Florida Teen SciCafé Partnership; North Carolina Museum of Natural Sciences, Raleigh; Science Discovery, University of Colorado; The Pacific Science Center in Seattle; and The Missouri AfterSchool Network (MASN) – Project LIFTOF. We will add two more core partners in Year 3. The core partners will join the Teen Cafe Network in a staged fashion in years 1 - 3. Each will reach sustainability over a three-year funding period. Each node has a local area network of partners consisting of organizations that will host local Cafes; scientific organizations with potential presenters; schools and other organizations for recruiting teens; and entities capable of contributing to financial sustainability. The network will provide a structure for a dynamic, growing, and sustainable community of practice to implement the Teen Café model, in which high school teens will gain skills in scientific discourse, thought, and exploration. STEM professionals will gain improved skills for communicating with public audiences and a new perspective on their research from a broader societal perspective. ISE professionals will gain capacity to adapt, implement, test, and further disseminate the Teen Café model and increased capability for preparing STEM experts to communicate effectively with teen audiences, along with tools, resources, and expertise to help them do so. Science Education Solutions will manage the project and provide the resources to support the community of practice, while continuing Cafe Scientifique New Mexico as a ninth network node. We will stimulate intensive ongoing communication of lessons learned across the network as partners start up their Cafe programs; external observers will be able to watch the program unfold. Broader Impacts: We will build capacity for serving teens and effective communication of science in the broad ISE and STEM communities by encouraging and nurturing others wishing to start a Cafe program and join the network. We have partnered with 10 large science and science education organizations, each with its own extensive network, which will allow us to further propagate the Teen Cafe Network. They are: National Ecological Observatory Network (NEON). Nanoscale Informal Science Education Network (NISE Net), The American Institute of Physics (AIP), Science Cafés.org (to include NOVA), Science Festival Alliance, Consortium of Universities for the Advancement of Hydrologic Science (CUAHSI), Informalscience.org, Project Liftoff: Elevating Science Afterschool, ITEST Learning Resource Center, and The Center for Multiscale Modeling of Atmospheric Processes (CMMAP). Each partner will also target underserved and diverse teen audiences for their programs.
The project will conduct a mapping study to describe the contexts, characteristics and practices of a national sample of science-focused Out-of-School Time (OST) programs. The study targets OST programs for middle- and high-school-aged youth, including after-school programs, camps, workshops, internships, and other models. While millions of dollars are invested in these programs, and tens of thousands of students participate , as a community, we have no truly comprehensive view of the wide variety of formats, audiences, and approaches that are represented by the many active programs. Where, when, and by whom are these science-rich programs conducted? What types of experiences do they offer to what kinds of students, with what goals? What organizational and experiential factors affect the outcomes for these youth? Ultimately, we wish to understand how these differences in program design are related to youth outcomes such as STEM learning, attitudes and interest, and their later career and educational choices. To answer these questions, we are gathering data through documents, interviews, and the online MOST-Science Questionnaire.
The Maryland Science Center (MSC) Astrobiology project includes an interactive exhibit and Davis Planetarium program for school and public museum visitors, exploring the search for life in our Solar System, the search for exoplanets and an understanding of extreme forms of Earthly life. Four day-long Educator Workshops have taken place during the project with a total of 179 teachers participating.
Baltimore’s MSC is the lead institution, with the project led by PI Van Reiner, MSC President and CEO and Co-PI Jim O’Leary, MSC Senior Scientist, and science advisors consisting of astronomers, biologists, a geologist and educators representing NASA Goddard Space Flight Center, Space Telescope Science Institute, Carnegie Institute of Washington, Johns Hopkins University and the University of Maryland and Maryland School for the Blind.
The project provides visitors with a sense of the Milky Way Galaxy’s size and composition, the galaxy’s number of stars and potential planets, and the number of other galaxies in the Universe. The exhibit explores Earthly extremophiles, what their survival signifies for life elsewhere in the Solar System, and examines possibilities for life on Mars and moons of the Solar System, explores techniques used to detect exoplanets and NASA’s missions searching for exoplanets and Earth-like worlds. The project looks to provide a sense of the vast number of potential planets that exist, the hardiness of Earthly life, the possibilities for life on nearby planets and moons, and the techniques used to search for exoplanets.
The exhibit and Planetarium program premiered November 2, 2012, and both remain as long-term Science Center offerings. Since opening, MSC has hosted nearly a million visitors, and with the Life Beyond Earth exhibit located in a highly trafficked area near the Davis Planetarium and Science On a Sphere, the great majority of visitors have experienced the exhibit. The We Are Aliens program in the Davis Planetarium has been seen by more than 26,000 visitors since opening.
Ascent to Orbit: An Educator Professional Development Program Investigating STEM Concepts for Space Shuttle Missions and Beyond trains upper elementary and middle school teachers to deliver inquiry-based, hands-on activities exploring STEM concepts involved in the evolution of human space exploration. The California Science Center Foundation will engage a total of 100 teachers from the Greater Los Angeles Area, 50 per year for two years. The curriculum will be organized around the Pre-Shuttle Era, Shuttle/International Space Station Era and Future of Human Spaceflight. This coursework will be developed in consultation with Dr. Ken Phillips, the California Science Center's Curator of Aerospace Science to be interdisciplinary and correlate with the newly adopted Next Generation Science Standards. As part of the 16-hour, two-day training session, teachers will view Space Shuttle Endeavour as well as other significant artifacts of human space exploration in the Science Center's singular Air and Space collection, including the Mercury-Redstone 2, Gemini 11 Capsule and Apollo-Soyuz Command Module. The goal is to engage teachers and their students with a core set of STEM concepts that stimulate critical thinking about science and engineering principles. As a result of the professional development, teachers will gain a deeper understanding of core STEM concepts, be motivated to embed STEM and space related concepts into their curriculum, and foster in students an interest in space travel that begins with a trip to see Space Shuttle Endeavour and journeys to the future of human space exploration.
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TEAM MEMBERS:
Jeffrey RudolphRobin GoseKen Phillips
resourceresearchProfessional Development, Conferences, and Networks
Funding for informal science education in the United States is shifting. Federal funds once dedicated exclusively to the informal science education field are decreasing; competition for those funds is increasing. And there is a growing anti-science movement that threatens to drown out the field’s financial concerns. These reverberations are felt in everything from the specific rejection of the science behind climate change to the general elimination of science reporting in U.S. news outlets. Overall, these changes signal an urgent need for the field of informal science education to position
The purpose of this toolkit is to provide library professionals and library workers who work with and for tweens and teens with materials and resources for professional development, outreach, collections, and programs to successfully integrate Science Technology, Engineering, and Mathematics (STEM) into programs and services.
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Young Adult Library Services Association (YASLA)Erica Compton
The National Science Foundation (NSF) has funded a number of informal STEM programs that provide funding for media producers, including public television (TV) stations, to provide children’s STEM programming in out-of-school-time (OST) settings. These projects typically include a children's TV series (animated or not) aired on the Public Broadcasting Service (PBS), plus resources such as hands-on activity guides, educator toolkits, and other materials that can be used to support STEM learning in OST settings. This paper explores the lessons learned from seven such programs and their respective
This paper describes initial findings from the Mapping Out-of-School Time Science (MOST-Science) study. The study examines the characteristics of out-of-school time programs and their home organizations, including aspects of program design, structure, funding, staffing, and youth audience. We then discuss how organization types differ in these program aspects and draw out implications for practice.
This article focuses on three approaches to STEM in out-of-school time that would be instructive for any organization seeking to develop STEM opportunities for teen girls. While Techbridge and Queens Community House focused on reaching populations most underrepresented in STEM—girls of color and those from immigrant and low-income families—the strategies they used could be applied to any population of adolescent girls.
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TEAM MEMBERS:
Harriet MosatcheSusan Matloff-NievesLinda KekelisElizabeth Lawner
Recognizing that schools can’t boost STEM performance alone, policy makers and educators have called for “all hands on deck” to boost STEM achievement, ignite passions in science, and expose students to STEM career possibilities.
This article provides findings from the TERC-based program Math off the Shelf (MotS). The first phase involved working with library-based informal educators to create interdisciplinary mathematics resources, and the second phase made the resources available to a wider group of library educators.
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Marlene KlimanNuria Jaumot-PascualValerie Martin
This article reflects on the author's experience leading the 21st Century Community Learning Center (21st CCLC) program, which aimed to create a "culture of STEM" for both participants and staff. The author describes the experience of the children, the training of staff, and places for improvement.