In late 2012, COMPASS received NSF grant number 1255633, “A Workshop to Explore Building Systemic Communication Capacity for Next Generation Scientists.” Known in shorthand and on twitter as #GradSciComm, the work comprises three major components, culminating in this report: (1) To assess the current landscape of science communication workshops, courses, and trainings available to graduate students in the STEM disciplines; (2) To convene a workshop of science communication trainers, scholars, science society leaders, funders, administrators, and graduate students; and (3) To provide concrete
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Liz NeeleyErica GoldmanBrooke SmithNancy BaronSarah Sunu
Science communications proficiency is an important skill for STEM graduate students but is not a typical part of STEM graduate education nationally. At the institutions that do offer such science communications training, instructional approaches are highly variable, reflecting an absence of standards and evaluation metrics. The workshop will 1) inventory science communications training for STEM graduate students nationally, (2) identify high effective practices in science communications training with attention to curriculum, approaches, and evaluation, and (3) define a roadmap that gives concrete recommendations to university administrators and funding agencies for national implementation and scale-up of science communications training. The workshop will involve IGERT PIs, science communications trainers, science communications researchers, and individuals from national agencies and organizations with a high interest in STEM graduate student communications training. Products of the workshop will include a white paper to NSF that identifies best practices for science communications training and specifies a roadmap for national scale-up of effective practices; publications in the peer-reviewed literature and other media; and briefings of officials at organizations with capacity to foster changes in graduate education (e.g., NSF, Council of Graduate Schools, and AAAS).
Wyoming EPSCoR's education, outreach and diversity programs include undergraduate and graduate research and student achievement support, K-12 educational programs and teacher trainings, diversity programs targeted at increasing the representation of URGs in the sciences, and research infrastructural improvements on the community college level. Our current Track-1 Award through NSF EPSCoR is related to understanding the water balance through hydrology, ecology, and geophysics; and most of our programs include a heavy emphasis in that area.
The UMN MRSEC conducts an ambitious and multi-faceted education and outreach program to extend the impact of the Center beyond the university, providing undergraduates, college faculty, high school teachers, and K-12 students with opportunities that augment their traditional curriculum and increase their appreciation of materials science and engineering (MS&E). Our summer research program provides high-quality research and educational experiences in MS&E to students and faculty, drawn primarily from undergraduate institutions with limited research opportunities, while placing a strong emphasis on inclusion of women and members of underrepresented groups.
This document includes a series of six checklists—one for each of the six types of research outlined in the Common Guidelines for Education Research and Development. The Guidelines, developed by the Institute of Education Sciences at the U.S. Department of Education and the National Science Foundation, explains those agencies’ shared expectations for education research and development. The checklists, created by EvaluATE, are distillations of key points from the Guidelines. The checklists are intended to support use of the Guidelines, enabling users to quickly reference a type of research and
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Evaluation Resource Center for Advanced Technological Evaluation (EvaluATE)Lori Wingate
If we truly wish to promote science or STEM education, then it would seem that the joining of resources and expertise from the communities of formal schooling and informal science education institutions or ISEIs (museums, aquariums, and the like) would be an important early step. Yet creating such connections between teacher and museum remain a challenge for both teachers and informal educators. This study employs a communities of practice lens (Wenger, 1998) to provide a deeper explanation for the challenges inherent in those programs and experiences (field trips, outreach programs, teacher
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.
Education and Community Engagement is one of three program directorates in the UNAVCO. Our primary areas of focus include: (1) Professional development/training: We broaden the community using UNAVCO-supported tools, data, and instrumentation through technical training and online resources, (2) educational materials: we facilitate the development and dissemination of geodesy-focused educational materials, (3) community communications: we facilitate greater communication, collaboration, access and dissemination of UNAVCO science and education to both the UNAVCO and broader community, and (4) geo-workforce development: we facilitate the development of a robust, well-trained and diverse geoscience workforce with the knowledge, skills, and abilities to tackle emerging scientific and societal issues.
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.
"Ongoing collaboration-wide IceCube Neutrino Observatory Education and Outreach efforts include: (1) Reaching motivated high school students and teachers through IceCube Masterclasses; (2) Providing intensive research experiences for teachers (in collaboration with PolarTREC) and for undergraduate students (NSF science grants, International Research Experience for Students (IRES), and Research Experiences for Undergraduates (REU) funding); and (3) Supporting the IceCube Collaboration’s communications needs through social media, science news, web resources, webcasts, print materials, and displays (icecube.wisc.edu). The 2014 pilot IceCube Masterclass had 100 participating students in total at five institutions. Students met researchers, learned about IceCube hardware, software, and science, and reproduced the analysis that led to the discovery of the first high-energy astrophysical neutrinos. Ten IceCube institutions will participate in the 2015 Masterclass. PolarTREC teacher Armando Caussade, who deployed to the South Pole with IceCube in January 2015, kept journals and did webcasts in English and Spanish. NSF IRES funding was approved in 2014, enabling us to send 18 US undergraduates for 10-week research experiences over the next three years to work with European IceCube collaborators. An additional NSF REU grant will provide support for 18 more students to do astrophysics research over the next three summers. At least one-third of the participants for both programs will be from two-year colleges and/or underrepresented groups. "
Xraise provides experiences that empower individuals by making science familiar and accessible. Immersed with scientists themselves, we facilitate hands-on, minds-on activities that involve the direct exploration of physics phenomena. Our relationship with K12 students, educators and community partners provides us with a platform for exploring personal intuitions, developing understandings and fostering excitement in science.
This essay seeks to explain what the “science of science communication” is by *doing* it. Surveying studies of cultural cognition and related dynamics, it demonstrates how the form of disciplined observation, measurement, and inference distinctive of scientific inquiry can be used to test rival hypotheses on the nature of persistent public conflict over societal risks; indeed, it argues that satisfactory insight into this phenomenon can be achieved only by these means, as opposed to the ad hoc story-telling dominant in popular and even some forms of scholarly discourse. Synthesizing the