The Montana Natural History Center, in collaboration with the University of Montana, will develop an exhibit to showcase a selection of the university's extensive fossil collection. This new exhibit will help create inclusive, inquiry-based, educational opportunities for preschoolers through adults. University faculty will guide specimen interpretation and story development. The exhibit will explore modern research into evolution in a time of climate change, sharing ongoing university research and highlighting STEM careers and citizen science work. The project is based on interests identified through surveys, museum visitor recommendations, and a member focus group.
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TEAM MEMBERS:
Drew Lefebvre
resourceresearchProfessional Development, Conferences, and Networks
As science communication programs grow worldwide, effective evaluation and assessment metrics lag. While there is no consensus on evaluation protocols specifically for science communication training, there is agreement on elements of effective training: listening, empathy, and knowing your audience — core tenets of improvisation. We designed an evaluation protocol, tested over three years, based on validated and newly developed scales for an improvisation-based communication training at the Alan Alda Center for Communicating Science. Initial results suggest that ‘knowing your audience’ should
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TEAM MEMBERS:
Christine O’ConnellMerryn McKinnonJordan Labouff
Many studies have examined the impression that the general public has of science and how this can prevent girls from choosing science fields. Using an online questionnaire, we investigated whether the public perception of several academic fields was gender-biased in Japan. First, we found the gender-bias gap in public perceptions was largest in nursing and mechanical engineering. Second, people who have a low level of egalitarian attitudes toward gender roles perceived that nursing was suitable for women. Third, people who have a low level of egalitarian attitudes perceived that many STEM
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TEAM MEMBERS:
Yuko IkkataiAzusa MinamizakiKei KanoAtsushi InoueEuan McKayHiromi M. Yokoyama
Background
Mentorship has been well-established in the literature as fostering scientific identity and career pathways for underrepresented minority students in science, technology, engineering, and mathematics (STEM) fields. Mentorship is prioritized by programs that aim to increase diversity and support future leadership in STEM fields, but in-depth understanding of mentorship in these contexts remains limited. Drawing on qualitative interview data, we sought to understand the relationship between mentoring and scientific identity among a diverse sample of 24 students in one such program
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TEAM MEMBERS:
Kaitlyn AtkinsBryan DouganMichelle Dromgold-SermenHannah PotterViji SathyA.T. Panter
Final External Evaluation Report for Informal STEM Learning at Biological Field Stations, an NSF AISL Exploratory Pathways project, which studied the pedagogical and andragogical characteristics of informal educational outreach activities at field stations. This report summarizes the project team’s major research activities and the contextual factors that supported that work.
Appendix includes interview protocol.
Diversity in the STEM workforce is essential for expanding the talent pool and bringing new ideas to bear in solving societal problems, yet entrenched gaps remain. In STEM higher education, students from certain racial and ethnic groups continue to be underrepresented in STEM majors and fields. Colleges and universities have responded by offering precollege STEM programs to high school students from predominantly underrepresented groups. These programs have been shown to positively affect students' analytical and critical thinking skills, STEM content knowledge and exposure, and self-efficacy through STEM-focused enrichment and research experiences. In fact, salient research suggests that out-of-school-time, precollege STEM experiences are key influencers in students' pursuit of STEM majors and careers, and underscore the value of precollege STEM programs in their ability to prepare students in STEM. This NSF INCLUDES Alliance: STEM PUSH - Pathways for Underrepresented Students to Higher Education Network - will form a national network of precollege STEM programs to actualize their value through the creation, spread and scale of an equitable, evidence-based pathway for university admissions - precollege STEM program accreditation. Building on several successful NSF INCLUDES Design and Development Launch Pilots, this Alliance will use a networked improvement community approach to transform college admissions by establishing an accreditation process for precollege STEM programs in which standards-based credentials serve as indicators of program quality that are recognized by colleges and universities as rigorous and worthy of favorable consideration during undergraduate admissions processes. Given the high enrollment of students from underrepresented groups in precollege STEM programs, the Alliance endeavors to broaden participation in STEM by maximizing college access and STEM outcomes in higher education and beyond.
The STEM PUSH Network is a national alliance of precollege STEM programs, STEM and culturally responsive pedagogy experts, formal and informal education practitioners, college admissions professionals, the accreditation sector, and other higher education representatives. The Alliance will establish a formidable collaborative improvement space using the networked improvement community model and a "next generation" accreditation model that will serve as a mechanism for communicating the power of precollege programs to admissions offices. Framing this work is the notion that the accreditation of precollege STEM programs is an equitable supplemental admissions criterion to the current, often cited as a culturally biased, standardized test score-based system. To achieve its shared vision and goals, the Alliance has four key objectives: (1) establish and support a national precollege STEM program networked community, (2) develop a standards-based precollege STEM program accreditation system to broaden participation in STEM, (3) test and validate the model within the networked improvement community, and (4) spread, scale, and sustain the model through its backbone organization, the STEM Learning Ecosystem Community of Practice. Each objective will be closely monitored and evaluated by an external evaluator. In addition, the data infrastructure developed through this Alliance will provide an unprecedented opportunity to advance scholarship in the fields of networked improvement community design and development, the efficacy of STEM precollege programs, and effective practices for broadening participation pathways from high school to higher education. By the end of five years, the STEM PUSH Network will transform ten urban ecosystems across the country into communities where students from underrepresented groups have increased college access and therefore, entree to STEM opportunities and majors in higher education. The model has the potential to be replicated by another 80 STEM ecosystems that will have access to Alliance materials and strategies through the backbone organization.
This NSF INCLUDES Alliance is funded by NSF Inclusion across the Nation of Communities of Learners of Underrepresented Discoverers in Engineering and Science (NSF INCLUDES), a comprehensive national initiative to enhance U.S. leadership in discoveries and innovations by focusing on diversity, inclusion and broadening participation in STEM at scale. It is also co-funded by the NSF Innovative Technology Experiences for Students and Teachers program and the Advancing Informal STEM Learning Program.
This award reflects NSF's statutory mission and has been deemed worthy of support through evaluation using the Foundation's intellectual merit and broader impacts review criteria.
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TEAM MEMBERS:
Alison Slinskey LeggJan MorrisonJennifer IritiAlaine AllenDavid Boone
Science outreach represents a strategy that helps to connect scientists with non-specialized audiences in culturally relevant ways, with the overarching goal of bridging science and society. The concept of science outreach dates back to the beginning of modern science research, but in more recent times, science outreach is increasingly seen as a necessary component of the scientific enterprise, particularly in the context of promoting access, equity, and inclusivity. Yet, challenges exist with regard to scaling and sustaining science outreach efforts. As the field of science outreach moves towards professionalization, it is important to understand how science outreach programs and activities are currently viewed among members of the scientific community. The goal of this project is uncover how science outreach is valued among scientific researchers, learn what motivates scientists to participate in science outreach related initiatives, and examine how gender and race influences participation. The results of this project have the potential to raise awareness about the importance of science outreach and ultimately support increased, effective, and sustainable public engagement with science.
The aims of this project will be accomplished through the creation, dissemination, and analysis of a nationwide survey instrument which will be developed with collaborative input from representative members of the growing national science outreach community. The survey instrument will be tailored to query three distinct groups of respondents that exist within the scientific community: 1) Respondents who do not conduct science outreach; 2) Respondents who participate in science outreach with varying frequency; 3) Respondents who practice science outreach as their profession. A large-scale survey will be conducted and the responses will be analyzed and shared with the broad scientific community through peer-reviewed publication, alongside complementary write-ups and future recommendations, which will be shared on free and publicly accessible web platforms.
The employment demands in STEM fields grew twice as fast as employment in non-STEM fields in the last decade, making it a matter of national importance to educate the next generation about science, engineering and the scientific process. The need to educate students about STEM is particularly pronounced in low-income, rural communities where: i) students may perceive that STEM learning has little relevance to their lives; ii) there are little, if any, STEM-related resources and infrastructure available at their schools or in their immediate areas; and iii) STEM teachers, usually one per school, often teach out of their area expertise, and lack a network from which they can learn and with which they can share experiences. Through the proposed project, middle school teachers in low-income, rural communities will partner with Dartmouth faculty and graduate students and professional science educators at the Montshire Museum of Science to develop sustainable STEM curricular units for their schools. These crosscutting units will include a series of hands-on, investigative, active learning, and standards-aligned lessons based in part on engineering design principles that may be used annually for the betterment of student learning. Once developed and tested in a classroom setting in our four pilot schools, the units will be made available to other partner schools in NH and VT and finally to any school wishing to adopt them. In addition, A STEM rural educator network, through which crosscutting units may be disseminated and teachers may share and support each other, will be created to enhance the teachers’ ability to network, seek advice, share information, etc.
This application requests support to enable a team of experienced science educators and biomedical and behavioral health network scientists to develop and implement the Worlds of Connections curriculum. Most middle school students are familiar with patient care-related health careers (e.g., nurses, dentists, surgeons), but few know about emerging careers in network science that can be leveraged to improve population health. This innovative and research-based science program is strategically designed to increase awareness of, understanding of, and interest in the important role of network science for health. This project will design learning activities that incite interest in network science applications to biomedical and public health research. The long- term goal is to enhance the diversity of the bio-behavioral and biomedical workforce by increasing interest in network science among members of underrepresented minority communities and to promote public understanding of the benefits of NIH-funded research for public health. The goal of this application is to identify and create resources that will overcome barriers to network science uptake among underserved minority middle school youth. The central hypothesis is that the technology-rich field of network science will attract segments of today’s youth who remain uninterested in conventional, bio-centric health fields. Project activities are designed to improve understanding of how informal STEM experiences with network science in health research can increase STEM identities, STEM possible selves, and STEM career aspirations among youth from groups historically underrepresented in STEM disciplines at the center of health science research (Aim 1) and create emerging media resources via augmented reality technologies to stimulate broad interest in and understanding of the role of network science in biomedical and public health research (Aim 2). A team led by University of Nebraska-Lincoln sociologists will partner with the University of Nebraska at Omaha; state museums; centers for math, science, and emerging media arts; NIH-funded network scientists; educators; community learning centers at local public schools; learning researchers; undergraduates; software professionals; artists; augmented reality professionals; storytellers; and evaluation experts to accomplish these goals and ensure out of school learning will reinforce Next Generation Science Standards. The Worlds of Connections project is expected to impact 35,250 youth and 20,570 educators in Lincoln and Omaha, Nebraska by: adding network science modules to ongoing 6th-8th-grade afterschool STEM clubs in community learning centers; adding network science for health resources to a summer graduate course on “activating youth STEM identities” for sixth to twelfth grade STEM teachers; connecting teachers with local network scientists; creating free, downloadable, high-quality emerging media arts-enhanced stories; and publishing peer-reviewed research on the potential of network science to attract youth to health careers. Coupled with the dissemination plan, the project design and activities will be replicable, allowing this project to serve as a model to guide other projects in STEM communication.
PUBLIC HEALTH RELEVANCE:
The lack of public understanding about the role of network science in the basic biological and social health sciences limits career options and support for historically underrepresented groups whose diverse viewpoints and questions will be needed to solve the next generation of health problems. The Worlds of Connections project will combine network science, social science, learning research, biology, computer science, mathematics, emerging media arts, and informal science learning expertise to build a series of monitored and evaluated dissemination experiments for middle school science education in high poverty schools. Broad dissemination of the curriculum and project impacts will employ virtual reality technologies to bring new and younger publics into health-related STEM careers.
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TEAM MEMBERS:
Julia McquilanGrace Stallworth
resourceprojectProfessional Development, Conferences, and Networks
This broadening participation project will focus on a regional workshop aimed at increasing Historically Black Colleges and Universities' (HBCUs) capacity to develop high quality proposals for future competitions of various programs in the Division of Research on Learning. The proposed effort will occur through three specific steps involving a: (1) pre-workshop webinar to introduce and lay the foundation for the opportunity; (2) full two-day workshop to engage participants in a rigorous grant-writing exercise; and (3) post workshop follow-up to provide ongoing support and proposal development guidance. Through a theory-driven process, the goal is to establish some degree of conformity for maximizing grant productivity around strategies and ideas shown to be effective in retaining students in the STEM pipeline.
The multi-tiered workshop will establish a launching pad for increasing attendees' capacity to build on prior knowledge and use best practices to improve future grant writing efforts. Specialized activities will help prepare HBCUs to increase their contributions to diversifying the future STEM workforce, support innovation and creativity in STEM fields, expand networking strategies, and promote opportunities to learn. Central to this capacity-building effort will be a focus on understanding the current research context and expectations for competitive participation in funding opportunities offered by NSF. This, in turn, will align with the Foundation's strategic direction for broadening participation in STEM through meaningful cutting-edge STEM education research. Resources from the workshop will be made available online to facilitate broader dissemination of information beneficial to HBCUs and other education institutions engaging in broadening participation efforts.
This project is funded by the National Science Foundation's (NSF's) Advancing Informal STEM Learning (AISL) program, which supports innovative research, approaches, and resources for use in a variety of learning settings.
Mentoring is a widely accepted strategy for supporting positive socioemotional and cognitive development across a variety of sectors including education, workforce development, and the justice system. An estimated 2.5 million volunteer mentors support youth development in the United States each year. However, there is broad concern that practice has outpaced empirical testing, with significant gaps in the research literature on important modifiers of mentoring relationships and their impacts. This is especially true for mentoring youth ages 10-14 in STEM. Studying highly successful programs may be one way to better understand the role of mentoring and moderators of mentoring effectiveness. The Science Club, a community-based STEM mentoring program for middle-grade youth in the Chicago area, will provide multiple sites for a research study to examine three important issues for advancing theory and practice for STEM mentoring. These issues include (1) understanding STEM mentoring for youth in the middle grades, (2) identifying outcomes and motivations for scientist mentors to more fully participate in mentoring programs, and (3) examining a model of middle-school-focused STEM mentoring collaboration.
Through a series of three studies, the team will investigate which elements of the mentoring relationships are associated with the demonstrated STEM identity gains in youth participants. The work will also contribute much-needed data on the impact of STEM mentoring relationships on the mentors themselves. Study 1 is designed as a retrospective study of program alumni, both youth and mentors, about the nature and extent of each their STEM identity shifts during their time in Science Club. A purposeful sample of 160+ youth and 100+ mentor alumni will participate. Study 2 is a prospective study of three consecutive cohorts of active Science Club participants, built on data and findings from Study 1. In Study 2, the team will design and implement a new Identity-Focused Mentoring Observation Instrument specifically aimed at exploring the nature and quality of mentoring relationships and their role in science identity development longitudinally. Three independent cohorts of 40 youth and 20 mentors each will participate. Study 3 is retrospective, examining how participating individuals and organizations perceive and are impacted by mentoring. The three studies employ a mixed methods approach utilizing surveys, observations, individual interviews, and document review.
This proposal will fill critical gaps in the mentoring literature regarding the formative middle school years through novel, empirical research. Building on the current literature and practice, outcomes of the work will inform practice and enhance knowledge-building in the field on both mentoring relationships and the collective impact of university-school-OST partnerships.
This project is funded by the National Science Foundation's (NSF's) Advancing Informal STEM Learning (AISL) program, which supports innovative research, approaches, and resources for use in a variety of learning settings.
This Research Advanced by Interdisciplinary Science and Engineering (RAISE) project is supported by the Division of Research on Learning in the Education and Human Resources Directorate and by the Division of Computing and Communication Foundations in the Computer and Information Science and Engineering Directorate. This interdisciplinary project integrates historical insights from geometric design principles used to craft classical stringed instruments during the Renaissance era with modern insights drawn from computer science principles. The project applies abstract mathematical concepts toward the making and designing of furniture, buildings, paintings, and instruments through a specific example: the making and designing of classical stringed instruments. The research can help instrument makers employ customized software to facilitate a comparison of historical designs that draws on both geometrical proofs and evidence from art history. The project's impacts include the potential to shift in fundamental ways not only how makers think about design and the process of making but also how computer scientists use foundational concepts from programming languages to inform the representation of physical objects. Furthermore, this project develops an alternate teaching method to help students understand mathematics in creative ways and offers specific guidance to current luthiers in areas such as designing the physical structure of a stringed instrument to improve acoustical effect.
The project develops a domain-specific functional programming language based on straight-edge and compass constructions and applies it in three complementary directions. The first direction develops software tools (compilers) to inform the construction of classical stringed instruments based on geometric design principles applied during the Renaissance era. The second direction develops an analytical and computational understanding of the art history of these instruments and explores extensions to other maker domains. The third direction uses this domain-specific language to design an educational software tool. The tool uses a calculative and constructive method to teach Euclidean geometry at the pre-college level and complements the traditional algebraic, proof-based teaching method. The representation of instrument forms by high-level programming abstractions also facilitates their manufacture, with particular focus on the arching of the front and back carved plates --- of considerable acoustic significance --- through the use of computer numerically controlled (CNC) methods. The project's novelties include the domain-specific language itself, which is a programmable form of synthetic geometry, largely without numbers; its application within the contemporary process of violin making and in other maker domains; its use as a foundation for a computational art history, providing analytical insights into the evolution of classical stringed instrument design and its related material culture; and as a constructional, computational approach to teaching geometry.
This project is funded by the National Science Foundation's (NSF's) Advancing Informal STEM Learning (AISL) program, which supports innovative research, approaches, and resources for use in a variety of learning settings.