The American Museum of Natural History (AMNH), in collaboration with New York University's Institute for Education and Social Policy and the University of Southern Maine Center for Evaluation and Policy, will develop and evaluate a new teacher education program model to prepare science teachers through a partnership between a world class science museum and high need schools in metropolitan New York City (NYC). This innovative pilot residency model was approved by the New York State (NYS) Board of Regents as part of the state’s Race To The Top award. The program will prepare a total of 50 candidates in two cohorts (2012 and 2013) to earn a Board of Regents-awarded Masters of Arts in Teaching (MAT) degree with a specialization in Earth Science for grades 7-12. The program focuses on Earth Science both because it is one of the greatest areas of science teacher shortages in urban areas and because AMNH has the ability to leverage the required scientific and educational resources in Earth Science and allied disciplines, including paleontology and astrophysics.
The proposed 15-month, 36-credit residency program is followed by two additional years of mentoring for new teachers. In addition to a full academic year of residency in high-needs public schools, teacher candidates will undertake two AMNH-based clinical summer residencies; a Museum Teaching Residency prior to entering their host schools, and a Museum Science Residency prior to entering the teaching profession. All courses will be taught by teams of doctoral-level educators and scientists.
The project’s research and evaluation components will examine the factors and outcomes of a program offered through a science museum working with the formal teacher preparation system in high need schools. Formative and summative evaluations will document all aspects of the program. In light of the NYS requirement that the pilot program be implemented in high-need, low-performing schools, this project has the potential to engage, motivate and improve the Earth Science achievement and interest in STEM careers of thousands of students from traditionally underrepresented populations including English language learners, special education students, and racial minority groups. In addition, this project will gather meaningful data on the role science museums can play in preparing well-qualified Earth Science teachers. The research component will examine the impact of this new teacher preparation model on student achievement in metropolitan NYC schools. More specifically, this project asks, "How do Earth Science students taught by first year AMNH MAT Earth Science teachers perform academically in comparison with students taught by first year Earth Science teachers not prepared in the AMNH program?.”
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TEAM MEMBERS:
Maritza MacdonaldMeryle WeinsteinRosamond KinzlerMordecai-Mark Mac LowEdmond MathezDavid Silvernail
My Sky is a NASA funded project, which developed a traveling exhibition on astronomy. Boston Children’s Museum (BCM) created the exhibition in collaboration with the Smithsonian Astrophysical Observatory (SAO). Formative and remedial evaluations were conducted at BCM while the summative evaluation took place at the first two venues following BCM: Stepping Stones Museum for Children (Stepping Stones) in Norwalk, CT and The Providence Children’s Museum (PCM) in Providence, RI. Formative evaluation of the My Sky exhibit was conducted between April 2013 and June 2014 to ensure that the components
The University of Chicago's Yerkes Observatory, the National Radio Astronomy Observatory, the University of North Carolina, the Astronomical Society of the Pacific, and 4-H are collaborating to provide professional development to 180 4-H leaders and other informal science educators, and engage 1,400 middle school youth in using research-grade robotic telescopes and data analysis tools to explore the Universe. Youth participating in 4H-based out-of-school programs in Wisconsin, West Virginia and North Carolina are learning about the universe and preparing for STEM careers by conducting authentic astronomy research, completing astronomy-related hands-on modeling activities, interacting with astronomers and other professionals who are part of the Skynet Robotic Telescope Network, and interacting with other youth who part of the Skynet Junior Scholars virtual community. The project is innovative because it is providing a diverse community of 4-H youth (including sight- and hearing-challenged youth and those from underrepresented groups) with opportunities to use high-quality, remotely located, Internet-controlled telescopes to explore the heavens by surveying galaxies, tracking asteroids, monitoring variable stars, and learn about the nature and methods of science. Deliverables include (1) online access to optical and radio telescopes, data analysis tools, and professional astronomers, (2) an age-appropriate web-based interface for controlling remote telescopes, (3) inquiry-based standards-aligned instructional modules, (4) face-to-face and online professional development for 4-H leaders and informal science educators, (5) programming for youth in out-of-school clubs and clubs, (6) evaluation findings on the impacts of program activities on participants, and (7) research findings on how web-based interactions between youth and scientists can promote student interest in and preparedness for STEM careers. The evaluation plan is measuring the effectiveness of program activities in (1) increasing youths' knowledge, skills, interest, self-efficacy, and identity in science, including youth who are sight- and hearing-impaired, (2) increasing educators' competency in implementing inquiry-based instruction and their ability to interact with scientists, and (3) increasing the number of Skynet scientists who are involved in education and public outreach.
Brigham Young University and the University of Maryland, in partnership with the Smithsonian Institution, the Computer History Museum, and NASA, plus leading game designers, educators, scientists, and researchers, will conduct research on the design and development of two large-scale Alternate Reality Games (ARGs) based on deep-time science in astrobiology, astrophysics, and interplanetary space travel. The project will iteratively design and test two distinct types of ARGs (closed- and open-ended) to study the effects of these ARGs on STEM learning. The ARGs will be based upon the Next Generation Science Standards (NGSS), affording learners with intensive, self-driven, and scaffolded scientific learning and will be aimed at attracting girls and other groups historically underrepresented in science and technology. Each ARG will be designed by NASA scientists, educators and education researchers, and game-based learning experts and will be highly interactive: engaging learners in collaborative investigations in real and virtual worlds to collect scientific data, conduct data analysis, and contribute scientific evidence that will help solve scientific questions within a science-based narrative derived from real world problems that will develop learners' computational thinking skills in a collaborative, participatory virtual learning environment. Combining data from web and social media analytics, player interviews, surveys, and user-generated content, researchers, and evaluation experts at UXR who will provide an outcomes-based evaluation, including front-end, formative, remedial, and summative evaluations, will establish the properties of ARGs that most effectively advance informal STEM learning outcomes. By comparing open-ended and closed-ended ARGs, the PIs will be able to assess the relative strengths and weaknesses of two distinct approaches to Alternate Reality Game design. The project team will test the hypothesis that open-ended, user-generated content will support inquiry-based learning, peer-to-peer learning, and life-wide and life-deep learning, while close-ended, narrative-rich ARGs will support specific transfer of STEM knowledge, collaboration, and problem solving. To help ensure that the games appeal to their target audiences, the project team will adopt co-design methods, enlisting the creative input of participating teens at each stage of the design process. Supplementary materials and lesson plans developed in close consultation with teachers, librarians, teens, and external stakeholders will enable the ARGs to be widely and effectively used as a model in museums, classrooms, libraries, and after-school programs. The proposed ARGs represent a unique environment to test learning principles that enable players to bridge their learning through transmedia across multiple contexts and test the effects of collaboration with massive numbers of concurrent players. As a result, the project should yield insights on how learning principles can be adopted and re-appropriated for emerging learning environments, including those that that might be crowd-sourced. The research is well grounded in the literature and the PIs do an excellent job of mapping ARG design principles to the pertinent learning science research, providing a clear sense of the particular affordances of the genre that should lead to new understandings. The approach has profound implications for the way we might teach the next generation of students. The ability to mix problem solving and learning in virtual spaces with experiences and data derived from the physical world could dramatically change how we understand the role of technology in education.
SciGirls and Citizen Science: Real Data, Real Kids, Real Discoveries SciGirls is showcasing Citizen Science! From their own backyards to a NASA research center, the bright, relatable, real girls featured on the groundbreaking PBS series are seriously into science, technology, engineering and math, or STEM. And Season Three of SciGirls finds these STEM adventurers tracking toads, counting clouds and much more, all in the name of citizen science. The brand-new season of the Emmy-winning show, featuring six stand-out episodes, debuted April 2015 on PBS KIDS (check local listings) and online at http://pbskids.org/scigirls. Citizen science is the newest STEM frontier that engages the general public –and kids – in real science. Scientists worldwide invite ordinary people—like the SciGirls—to observe and record data about everything from birds to beaches, monarch butterflies to maple trees. The data is then shared with scientists, who use it to generate new scientific knowledge. In six exciting new episodes, middle school girls and their female STEM professional mentors hit the great outdoors, cataloging frog calls, tracking the changing seasons, verifying satellite imagery of clouds, monitoring fragile butterfly populations, improving urban bird habitats, and advocating for healthy oceans. In addition, animated characters Izzie and Jake are back and finding themselves in sticky situations that can only be solved by STEM—and the SciGirls. When the SciGirls share their data with professional scientists, they save the day for Izzie and Jake and help save the environment! The new mobile-friendly website at http://pbskids.org/scigirls lets kids play new games, watch episodes and videos, and connect with fellow STEM explorers anywhere, anytime. “Collaboration is the key to successful citizen science,” said SciGirls executive producer Richard Hudson. “Since SciGirls’ beginning, working together—making discoveries, mistakes and friends—is one of the important research-based methods we use to engage girls around STEM. This new season underscores the importance of collaboration within the scientific research community and workforce. SciGirls is fortunate to have powerful partners advising us about citizen science, including the Cornell Lab of Ornithology, NASA and SciStarter.” The SciGirls creative team is headed by Twin Cities Public Television’s Director of Science Content Richard Hudson, Executive Producer of the long-running PBS children’s science series Newton's Apple and creator of DragonflyTV and the SciGirls initiative. Animation is created by Soup2Nuts, producers of PBS’ WordGirl. Strategic partners for the new series are the Cornell Lab of Ornithology, Rick Bonney co-PI, and the National Girls Collaborative Project, co-PI Karen Peterson. SciGirls is made possible by a major grant from the National Science Foundation. Additional funding is provided by INFOR, Northrop Grumman Foundation, and PPG Industries Foundation.
The conference, Indigenous Worldviews in Informal Science Education, is designed to advance research on the integration of Native and Western science in relation to informal science learning. The goals of the conference are to integrate and synthesize research and theory, formulate a research agenda, and share the results with the STEM education community. The conference is organized around six strands: Collaboration, Policy, Holistic Education, Next Generation Youth, and Evaluation. A six-week preconference online discussion of conference issues leads into the two-day conference, held at Imiloa Astronomy Center in Hilo, Hawaii. The meeting brings together sixty participants including educators, research scientists, learning researchers, policymakers, and Native youth. The conference includes keynotes, workshops and synthesis discussion groups, which will be synthesized and presented at a policy outcome meeting held in Washington, DC that follows the conference. Conference results will be further disseminated at relevant conferences, in publications, and through online discussions. A full evaluation process will inform the detailed planning of the conference and will evaluate the effectiveness of the conference, based on responses from conference participants.
As a part of the strategy to reach the NASA Science Mission Directorate (SMD) Science Education and Public Outreach Forum Objective 1.2: Provide resources and opportunities to enable sharing of best practices relevant to SMD education and public outreach (E/PO), the Informal Education Working Group members designed a nationally-distributed online survey to answer the following questions: 1. How, when, where, and for how long do informal educators prefer to receive science, mathematics, engineering, and/or technology content professional development? 2. What are the professional development and
Intuitive Company researchers and evaluators assessed four components of the DUST Alternate Reality Game for potential reusability: 1) QTE Environment during Collapse, 2) Brain/Health Scanner Mobile App, 3) Microbe Web App, 4) Star Map Web App. We assessed reusability based on five variables (facilitation, user identification, digital access, player type, and timing) along a continuum of informal to formal learning contexts, from museums to after school programs to formal classroom settings. Our assessment revealed that the: 1. QTE Environment during the Collapse is most replayable in its
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Brigham Young University, University of MarylandJes KoepflerNidhi JalwalVictor Yocco
The Saint Louis Science Center (SLSC) project Bridging Earth and Mars (BEAM) will engage the general public and children from schools and community groups with the National Aeronautical and Space Administration’s (NASA’s) exploration of Mars through exhibits simulating control of robotic rovers on the surface of Mars as well as related educational programming. This front-end evaluation for BEAM youth programs provides information to the BEAM project team about the levels of knowledge, attitudes, and skills among low-income and minority young people who are part of the field trip workshop
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Saint Louis Science CenterCarey Tisdal
This report presents the results of a front-end evaluation with Saint Louis Science Center visitors on the topics of Mars, Mars exploration, engineering, and robotics. This work was conducted by the Research & Evaluation Department of the Saint Louis Science Center. This front-end study was designed to inform the content development of the Bridging Earth and Mars (BEAM) exhibition, which is being developed by the Saint Louis Science Center with the support of funding from NASA. The main objective of the evaluation was to gather information from Science Center visitors about their familiarity