How do afterschool programs view their local public libraries? Are they working with them, and in what ways? These are the questions that the Afterschool Alliance, along with its partners at the Space Science Institute’s National Center for Interactive Learning (NCIL) and the American Library Association, wanted to answer. Overall, our goal is to build bridges between the afterschool and library fields, so that both can share knowledge and resources to better serve our youth. While our work together has primarily focused on science, technology, engineering, and math (STEM) education through
As part of its overall effort to enhance learning in informal environments, the Advancing Informal STEM Learning (AISL) program, seeks to advance new approaches to, and evidence-based understanding of, the design and development of science, technology, engineering, and mathematics (STEM) learning in informal environments. This includes providing multiple pathways for broadening access to and engagement in STEM learning experiences, advancing innovative research on and assessment of STEM learning in informal environments, and developing understandings of deeper learning by participants. In alignment with these aims, the University of Washington will design and pilot an innovative leadership development program, NextGen Broadening Participation in ISE Professional Learning Program, to develop the leadership capacity of mid-career professionals, primarily from underrepresented groups in STEM, whose work focuses on broadening participation in informal STEM education (ISE). Unlike most existing ISE leadership models, this pathways project will employ a bottom-up, iterative design approach to engage program participants and garner new insights. Formative data and analysis will be used to better understand the broadening participation context, inform the model, and develop strategies and resources necessary to best support a more diversified next generation of ISE leaders. This pilot study is timely and significant. There is currently a substantial dearth of literature on the intersection between broadening participation and mid-level professional leadership development. Likewise, there are few comparable models in the current AISL portfolio. As such, the findings from this pilot will address critical gaps in the AISL portfolio and in the field, at large. It has the potential to markedly transform the capacity and impact of next generation ISE leaders. Over an eighteen-month period, this feasibility study will design, implement and test key aspects of the model to determine its potential for short and long term success. Using a competitive application process, twenty ISE mid-career professionals, who work primarily within broadening participation in STEM contexts, will be recruited to participate in the NextGen Broadening Participation in ISE Professional Learning Program. The year-long program includes four core components: (a) 4-day workshop, (b) four online webinars, (c) pilot projects carried out in participants' home institutions, and (d) poster presentations of projects at a national conference. A small cohort of faculty-mentors -- leaders from both research and practice in ISE broadening participation efforts -- will serve as participant mentors and play an integral role in the design and implementation of the program. Evaluative efforts will focus on documenting the efficacy of the design strategies (ex., recruitment, mentorship, social networking), the interests, needs, and professional growth of participants and the implications for broadening participation in STEM. The evaluation will be informed by data collected via interviews, surveys, focus groups, observations, content analyses of discourse, and participant deliverables. Formative and summative external evaluations will be conducted by the Garibay Group.
Informal science educators, researchers, and evaluators are interested in directly engaging with the challenges and opportunities of increasing diversity and meaningful intersectionality. The annual meetings of organizations like the American Alliance of Museums (AAM), the Association of Science and Technology Centers (ASTC), and the Visitors Studies Association (VSA) have consistently featured sessions relevant to these topics. NSF's goal of broadening participation means there are also project specific efforts currently underway to directly address methods and strategies for increasing diversity and inclusion in STEM. The Connected Audience Conference will provide an opportunity to engage in an international conversation that directly leverages this momentum and has the potential to motivate focused collective action among participants producing a greater impact on the field. This travel award supports an enhanced U.S. presence at the Connected Audience International Conference to be held in Vienna, Austria September 14-16, 2017. The premise of the meeting is that the role of museums and other cultural institutions in society is rapidly changing as these institutions strive to become more vital resources and partners in initiatives designed to support science learning, social development and growth in an increasingly science and technology-driven world. The goal for U.S. participation is to support established researchers in this area as well as mid-career professionals. The meeting is comprised of: thought leaders, case study presenters, poster presenters and general participants. Thought leaders will highlight theoretical and practical approaches to broadening participation designed to be provocative and stimulate discussion in the breakout sessions. Case study presenters will be paired to illustrate similarities and/or differences in project design, implementation, or outcomes. Structuring the case studies in this way supports conversations focused on cross-country and cross-institution synergies. The poster session presenters were selected and grouped to encourage productive and comparisons specifically exploring the potential for cross-cutting methods to more effectively engage with audiences. U.S. attendees supported under this travel grant represent those who are engaged in this work actively and positioned to continue making important contributions to the field. International participants represent a range of cultural institutions with the largest proportion attending from science centers and children's museums; however, all participants come because of their interest, concerns and expertise in issues related to equity and greater participation. The structure of the meeting will provide participants with significant time for iterative reflection and active discussion to make each session personally relevant and meaningful. This intentionally allows lots of room for pushback and even outright disagreement with any of the ideas proposed by the thought leaders, case study presenters, and poster session presenters. This award is funded by the Advancing Informal STEM Learning (AISL) program, which seeks to advance new approaches to, and evidence-based understanding of, the design and development of STEM learning in informal environments. This includes providing multiple pathways for broadening access to and engagement in STEM learning experiences. The Connected Audience conference is designed to significantly contribute to an international conversation about the future of informal science education institutions in the learning ecologies of 21st century citizens. Through exploration of new findings and international cross-pollination of best practices, conference participants will be able to develop improved strategies for increasing and diversifying who participates in informal science education experiences as well as how they participate. A white paper written by the U.S. participants will be used to share findings and insights with the broader informal education field.
The Water for Life project has been an effective, and in some cases an essential vehicle for addressing issues around water quality and retention in island settings where water security is an on-going challenge. The focus on local partnerships was a highly valued attribute of the WfL project, and the informal science and conservation education resources produced and disseminated by the project have had a significant impact on these populations
This report presents findings from a formative evaluation of Science Education for New Civic Engagements and Responsibilities-Informal Science Education (SENCER-ISE), a National Science Foundation and Noyce Foundation funded initiative to support partnerships between informal science and higher education institutions. This evaluation looked primarily at the collaborative infrastructure of SENCER-ISE, which included the web site, SENCER Summer Institute, and communications with project staff and/or the advisory board. This evaluation is the third evaluation that Randi Korn & Associates, Inc
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resourceevaluationProfessional Development, Conferences, and Networks
The National Center for Science and Civic Engagement (NCSCE) contracted Randi Korn & Associates, Inc. (RK&A) to conduct a summative evaluation of its SENCER-ISE project partnerships. SENCER-ISE is an initiative that brings partners from higher education (HE) together with partners from informal science education (ISE) to create projects that engage audiences in science using the lens of civic engagement. SENCER funded 10 partnerships over three years—six through the National Science Foundation (DRL #1001795) and four through the Noyce Foundation. Previously, RK&A conducted a formative
This report presents findings from an evaluation of the Maximizing Collective Impact Through Cross-Sector Partnerships planning meeting conducted by RK&A, Inc. for the National Center for Science and Civic Engagement (NCSCE). The meeting, which took place in March 2017, was funded through the National Science Foundation's Advancing Informal STEM Learning Program (NSF-AISL 1612376), brought together individuals from NCSCE's SENCER/SENCER-ISE network, NISE Net, and other networks to leverage the expertise and insights of participants and imagine and articulate ideas for cross-network projects.
The cyberlearning community in the United States brings computer scientists and learning scientists together to design and study innovative learning technologies. The Cyberlearning Community Report: The State of Cyberlearning and the Future of Learning With Technology highlights examples of the exciting work our community is engaged in as we integrate the latest innovations in learning science and computer science into new research designs and methods. This work is also driving the need for new learning sciences in areas such as embodied cognition, identity, and affect, and requires advances
Video has become a key tool for scientific communication because it increases the outreach and impact of projects, furthers scientific research within and across fields of study, and offers an accessible medium to engage the public in the understanding of science. This project supports the expansion of an interactive, online STEM Videohall where hundreds of NSF-funded researchers share their work through brief video narratives and interactive discussion. While the Videohall is accessible year-round, periodic annual Showcase events are used to drive visitors to the site where they can engage with one another, the project investigators and trained facilitators. The Videohall is a multiplier of NSF's investments in individual projects because it allows STEM education researchers to become aware of, and learn from, related work that is funded across NSF programs and directorates, and other federal agencies. In 3-minute video narratives, investigators share ideas, resources, data, evidence of impact, strategies and challenges. The Videohall platform supports open access and is designed to foster communication in ways that scale beyond traditional formats such as academic conferences. Moreover, because the online STEM Videohall is open to the public, it allows STEM investigators to share their work with multiple stakeholder communities including K-12 educators and school leaders, informal educators and community organizations, the STEM industry, education policy makers and families. Finally, because each video narrative is accompanied by a facilitated online discussion thread, investigators have a unique and valuable mechanism for receiving feedback from these various stakeholder communities. The STEM Videohall project is funded by the Discovery Research K-12 program (DRK-12), which seeks to significantly enhance the learning and teaching of science, technology, engineering and mathematics (STEM) by preK-12 students and teachers, through research and development of innovative resources, models and tools. Projects in the DRK-12 program build on fundamental research in STEM education and prior research and development efforts that provide theoretical and empirical justification for proposed projects.
This project brings together seven NSF-funded resource centers who work with their respective communities to encourage Principal Investigators to share video narratives of their work through annual NSF STEM Showcase events. Each annual Showcase event presents videos created by 150-230 projects; many of the projects are affiliated with one of the seven resource centers, but others are from projects across NSF directorates and beyond. During a one-week period, Principal Investigators, their project staff, as well as the public at large, are invited to engage in interactive discourse, providing queries, comments, and feedback. Participants also vote for favorite presentations through "Presenters' Choice," "Public Choice," and "Facilitators' Choice," processes. This participant voting system serves to increase engagement and enhances outreach of the event through social media. After the one-week Showcase event concludes, all of the videos along with the related discourse remain available to the public online, who continue to access the Showcase throughout the year. Based on prior pilot work, it is estimated that over the course of a year, over 30,000 visitors, from over 150 countries, will engage with each annual Showcase. Videos from annual showcase events will be shared, reused, and repurposed to create new products with new constituencies. The project includes technical development efforts to iteratively improve its interactive platform, outreach efforts before each annual Showcase event, facilitation of the week-long event, and intensive dissemination efforts. A research component examines the extent of participation on various constituencies, the benefit of participation to projects, and the success of the events in terms of dissemination nationally and internationally.
This longitudinal research study will contribute to a broader understanding of the pathways of STEM-interested high school students from underrepresented groups who plan to pursue or complete science studies in their post-high school endeavors. The project will investigate the ways that formative authentic science experiences may support youth's persistence in STEM. The study focuses on approximately 900 urban youth who are high interest, high potential STEM students who participate in, or are alumni of, the Science Research Mentoring Program. This program provides intensive mentoring for high school youth from groups underrepresented in STEM careers. It takes place at 17 sites around New York City, including American Museum of Natural History, which is the original program site. Identifying key supports and obstacles in the pathways of high-interest, under-represented youth towards STEM careers can help practitioners design more inclusive and equitable STEM learning experiences and supports. In this way, the project will capitalize on student interest so that students with potential continue to persist.
In order to understand better the factors that influence these students, this research combines longitudinal social network and survey data with interviews and case studies, as well as an analysis of matched student data from New York City Public Schools' records. The research questions in the study are a) how do youths' social networks develop through their participation in scientists' communities of practice? b) what is the relationship between features of the communities of practice and youths' social networks, measures of academic achievement, and youths' pursuit of a STEM major? and c) what are the variations in youth pathways in relationship to learner characteristics, composition of social networks, and features of the community of practice? The research design allows for a rich, layered perspective of student pathways. In particular, by employing social network analysis, this study will reveal relational features of persistence that may be particularly critical for underrepresented youth, for whom STEM role models and cultural brokers provide an otherwise unavailable sense of belonging and identity in STEM. The study will also access a New York City Public Schools data set comprised of student-level records containing biographical and demographic variables, secondary and postsecondary course enrollment and grades, exam scores, persistence/graduation indicators, linked responses to post-secondary surveys, and post-education employment records and wages. These data enable examination of inter-relationships between in-school achievement and out-of-school STEM experiences through comparison of program participants to similar non-participant peers. This project is supported by NSF's EHR Core Research (ECR) program. The ECR program emphasizes fundamental STEM education research that generates foundational knowledge in the field.
In order to improve science, technology, mathematics, and engineering (STEM) learning, it is crucial to better understand the informal experiences that young children have that prepare them for formal science education. Young children are naturally curious about the world around them, and research in developmental psychology shows that families often support children in exploring and seeking explanations for scientific phenomena. It is less clear how to link children's natural curiosity and everyday parent-child interaction with more formal STEM learning. This collaborative project will team researchers from the University of California, Santa Cruz, the University of Texas, and Brown University with informal learning practitioners at the Children's Discovery Museum, The Thinkery, and the Providence Children's Museum in order to investigate how family interaction relates to children's causal learning, as well as how modifications to museum exhibit design and facilitation by museum staff influence families' styles of interaction and increase children's causal learning. This project is funded by the Research on Education and Learning (REAL) program which supports fundamental research by investigators from a range of disciplines in order to deepen what is known about STEM learning.
The project team will examine how ethnically and linguistically diverse samples of parents and children engage in collaborative scientific learning in three children's museums across the U.S. The research will combine observational studies of parent-child interaction in a real-world setting with experimental measures of children's causal learning. The investigators will examine how children explore and derive explanations for museum exhibits about mechanical gear function and fluid dynamics. In this way, the researchers will investigate the relation between styles of parent-child interaction and children's causal learning. The team will also investigate novel ways of presenting material within the exhibits to facilitate exploration and explanation. They will explore how signage, conversations with museum staff, parents' attitudes towards learning in museum settings, and parents' own prior knowledge about the exhibits can influence the parent-child interaction and subsequent causal learning. The project will advance the basic research goal of advancing what is known about what affects children's science content learning. It will also advance the practice-oriented goal of developing new strategies for the design of science museum exhibits and make recommendations for how parents can better talk to their children about scientific phenomena.
Education stakeholders from advocates to developers are increasingly recognizing the potential of science games in advancing student academic motivation for and interest in science and science careers. To maximize this potential, the project will use science games (e.g. Land Science, River City, and EcoMUVE), shown to be enjoyable to students and proven to promote student learning in science at the middle school level. Through a two-phase process, games will be used as vehicles for learning about ways to change how students think about science and potentially STEM careers. The goal of the intervention is to explore which processes and design features of science games will actually help students move beyond a temporary identity of being a scientist or engineer (as portrayed while playing the game) to one where students began to see themselves in real STEM careers. Students' participation will be guided by teams of teachers, faculty members, and graduate students from Drexel University and a local school. All science students attending the local inner city middle school in Philadelphia, PA, will participate in the intervention.
Using an exploratory mixed-method design, the first two years of the project will focus on exploring, characterizing, coding, and analyzing data sets from three large games designed to help students think about possible careers in science. During year 3, the project will integrate lessons learned from the first two years into the existing middle school science curriculum to engage students in a one-year intervention using PCaRD (Play Curricular activity Reflection Discussion). During the intervention, the PI will work with experts from Drexel University and a local school to collect data on the design features of Land Science to capture identity change in the science identity of the participating students. Throughout the course of year 3, the PI will observe, video, interview, survey, and use written tasks to uncover if the Land Science game is influencing students' identity in any way (from a temporary to a long-term perspective about being a scientist or engineer). Data collected during three specified waves during the intervention will be compared to analyses of existing logged data through collaborations with researchers at Harvard University and the University of Wisconsin-Madison. These comparisons will focus on similar middle-aged science students who used the same gaming environments as the students involved in this study. However, the researcher will intentionally look for characteristics related to motivation, science knowledge, and science identity change.
This project will integrate research and education to investigate learning as a process of change in student science identity within situated environmental contexts of digital science gameplay around curricular and learning activities. This integrated approach will allow the researcher to explore how gaming is inextricably linked to the student as an individual while involved in the learning of domain specific content in science. The collaboration among major university and school partners; the expertise of the researcher in educational psychology, educational technology, and science games; and the project's advisory board makes this a real-life opportunity for the researcher to use information that naturally exists in games to advance knowledge in the field about the value of gaming to changing students' science identities. It also responds to reports by the National Research Council committee on science learning and computer games, which identifies games as having the potential to catalyze new approaches to science learning.