The Challenger Reach 2 U program will reach over 6,500 fourth-grade students in 261 missions from underserved communities throughout southwest Colorado and northwestern New Mexico, including primarily rural, lower socio-economic status, Hispanic and Native American districts that seldom have such STEM educational opportunities. The Colorado Consortium for Earth and Space Science Education (CCESSE) will show that increasing the quality of science, technology, engineering, and mathematics (STEM) education is not only a NASA goal set at the national level and a state and local priority, but is the underlying core competency of our organization as well. As an integral part of our Challenger Reach 2 U proposal to motivate interest in STEM curriculum and to strengthen the Nation's future workforce, we will thoroughly train teachers of these students to be more comfortable with technology and more prepared to deliver motivational STEM lessons, leaving an educational legacy that will greatly outlive the life of this grant. We will provide these students with cross-curricular preparatory lessons which will culminate with an exciting simulated space mission delivered in their own classrooms and moderated by a "NASA" mission director at our Center. With the help of the NASA grant, all of these services will be provided at no cost to the schools.
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 Aviation Adventure Center with Traveling Flight Science Lab is a three-year project developed by the Hiller Aviation Museum in San Carlos, California with the intention to deliver immersive STEM programming focused on aeronautics, physical science, weather and general aviation subjects for a general museum audience and K-12 school groups. The lead institution is the Hiller Aviation Museum with additional museum partners including Evergreen Aviation Museum in McMinnville, Oregon, Pueblo Weisbrod Aircraft Museum, in Pueblo, Colorado, Frontiers of Flight Museum in Dallas, Texas, and New England Air Museum in Windsor Locks, Connecticut. The two goals of the project are 1) to create an in-house laboratory-style program area, called Aviation Adventure Center, permanently located within the exhibition gallery of the Hiller Aviation Museum and 2) to create a traveling flight simulation program/exhibit, called Traveling Flight Science Lab, that toured four aviation museums, listed above. During three years of the project a total of 48,530 participants were served in 4,476 programs. The project concluded in June, 2012. The Aviation Adventure Center continues as a centerpiece of Hiller Aviation Museum programming to this day.
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.
An intensive intervention including project-based learning and case management services keeps at-risk ninth-and tenth-graders engaged and helps them overcome barriers to school success.
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TEAM MEMBERS:
Tracey HartmannDeborah GoodKimberly Edmunds
Youth Action Crews map the youth development programs and places in their neighborhoods in order to raise public awareness of the opportunities—and of where such opportunities don’t exist.
This is a review of Jrene Rahm's 2010 book "Science in the making at the margin: A multisited ethnography of learning and becoming in an afterschool program, a garden, and a math and science Upward Bound program." Rahm's research focuses on the nature of how science and meaning making are achieved through these programs.
Field notes from a study of a family support program for African immigrants reveal some of the challenges faced by these parents and their adolescent children.
English learners are a diverse group with diverse experiences and needs. While schools focus on teaching them English, afterschool programs can build on their strengths to address their social and emotional needs.
A three-day art project in an afterschool program with no specific arts component illustrates the potential—and the challenges—of engaging children in creating art using recycled materials.
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TEAM MEMBERS:
Angela EckhoffAmy HallenbeckMindy Spearman
Out-of-school time (OST) programs can benefit the growing population of English learners in U.S. public schools by giving them the gift of time in which to learn both English and subject matter content.
Self-assessment can be a powerful tool for evaluating program quality, yet the available self-assessment instruments do not comprehensively address practices that promote academic enrichment.