The LTER Network is an innovative platform for training the next generation of natural scientists in collaborative, integrative, long-term research in ecology. An important objective of the network is to share knowledge with other communities. The LTER Network Office addresses this objective by managing a Communication and Outreach program that targets key communities—scientists, policy makers, educators and students, and the mass media as a proxy of the rest of the non-specific audiences—and maintain strategic partnerships and collaborations that provide improved access to these communities.
The University of Arkansas Center for Math and Science Education (CMASE), one of eleven mathematics and science centers on university and college campuses around the state, provides quality resources and materials to the home, private and public education community. The Arkansas NASA Educator Resource Center, located within CMASE, is the state's dissemination point for education materials provided by NASA. Resources and school/classroom presentations are free of charge. The main objectives of both centers are to provide: (1) K-16 education outreach to the home, private and public Northwest Arkansas education community; (2) quality professional development for pre-service and in-service teachers at local, regional, state and national levels; (3) access points for dissemination of educational materials, resources and information; and (4) links to common education allies throughout the state and nation.
The National Science Foundation and other funding agencies are increasingly requiring broader impacts in grant applications to encourage US scientists to contribute to science education and society. Concurrently, national science education standards are using more inquiry-based learning (IBL) to increase students’ capacity for abstract, conceptual thinking applicable to real-world problems. Scientists are particularly well suited to engage in broader impacts via science inquiry outreach, because scientific research is inherently an inquiry-based process. We provide a practical guide to help
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TEAM MEMBERS:
Lisa KomoroskeSarah HameedAmber SzoboszlaiAmanda NewsomSusan Williams
The C-DEBI education program works with audiences at all levels (K-12, general public, undergraduate, graduate and beyond) in formal and informal settings (courses, public lectures, etc.). Sub-programs focus on community college research internships and professional development for graduate students and postdocs.
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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TEAM MEMBERS:
Saint Louis Science CenterCarey Tisdal
Connected learning is an educational approach designed to make learning relevant to students, creating a deeper form of learning and understanding that will help students become life-long learners who will grow and thrive in school, work and life. Afterschool programs have long been implementing this approach that ties together students interests, peer networks and academic pursuits. This report explores the benefits of using a connected learning approach, the variety of ways afterschool programs are offering connected learning opportunities to engage students in learning, and shares ideas on
There can be a mistaken impression that the new vision for K-12 science education is only relevant to classroom science instruction. But youth frequently engage in powerful science and engineering activities that take place after or outside-of-school. They learn STEM content, engage in STEM practices, and develop an understanding of how STEM is used in the world. To capitalize on those assets, educators and other stakeholders should learn about, leverage, and broker connections for youth across the STEM learning experiences available in and out of school.
Our Center works with students from kindergarten through graduate school and beyond. We work with teachers and scientists and combine our knowledge to inspire students to pursue careers in neural engineering and neuroscience. Program activities include summer research programs, curriculum development, school visits, teacher/student workshops, science festivals, and international student exchanges.
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TEAM MEMBERS:
University of WashingtonEric Chudler
This award-winning website includes a comprehensive collection of standards-based, space science education materials. Site visitors can explore a variety of resources such as A Hubble Gallery, Online Explorations, Tonight’s Sky, and Star Witness News science content readings. The “For Educators” side of site includes support materials such as science background information and overview pages that provide strategies for using Amazing Space activities in educational settings.
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TEAM MEMBERS:
Space Telescope Science InstituteBonnie Eisenhamer
The project will develop and study the impact of science simulations, referred to as sims, on middle school childrens' understanding of science and the scientific process. The project will investigate: 1) how characteristics of simulation design (e.g., interface design, visual representations, dynamic feedback, and the implicit scaffolding within the simulation) influence engagement and learning and how responses to these design features vary across grade-level and diverse populations; 2) how various models of instructional integration of a simulation affect how students interact with the simulation, what they learn, and their preparation for future learning; 3) how these interactions vary across grade-level and diverse populations; and 4) what critical instructional features, particularly in the type and level of scaffolding, are needed. Working with teachers, the team will select 25 existing sims for study. Teachers and students will be interviewed to test for usability, engagement, interpretation, and learning across content areas. The goal will be to identify successful design alternatives and to formulate generalized design guidelines. In parallel, pull-out and classroom-based studies will investigate a variety of use models and their impact on learning. Ten new simulations will then be developed to test these guidelines. Products will include the 35 sims with related support materials available for free from a website; new technologies to collect real-time data on student use of sims; and guidelines for the development of sims for this age population. The team will also publish research on how students learn from sims.
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TEAM MEMBERS:
Katherine PerkinsDaniel SchwartzMichael DubsonNoah Podolefsky
The “Being Me” program was developed to bring the educational process to life through hands-on learning that promotes children’s awareness of health issues and encourages scientific inquiry in an art-focused curriculum supporting National Science Content Standards (now Next Generation Science Standards, or NGSS). In 2009, the “Being Me” partnership – Children’s National Medical Center (CNMC), the National Children’s Museum (NCM), and George Washington University’s Graduate School of Education and Human Development (GW) – received a five-year National Institutes of Health Sciences Education
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Children’s Research InstituteJohn Fraser
Media Arts within primary and secondary education is a relatively new avenue of research. Within the context of the arts classroom, rarely is learning to program emphasized despite its importance for creative expression in a digital medium. We present outcomes from an extensive field study at a digital studio where youth accessed programming environments emphasizing graphic, music and video. Learning the language of creative coding is essential to expression in a digital medium — one with increasing importance for youth and society at large. Here, we argue that it’s not just in the viewing or