This is an NSF Postdoctoral Research Fellowship in Biology, under the program Broadening Participation of Groups Under-represented in Biology. The fellow, Robert Habig, is conducting research and receiving training that is increasing the participation of groups underrepresented in biology. The fellow is being mentored by David Lahti at Queens College, City University of New York. The goal of the fellow's project is to perform a comparative evolutionary analysis of nest construction in the weaverbirds (Ploceus spp.). The evolutionary history of behavior can be nearly intractable and resistant to quantitative analysis. One strategy for illuminating our understanding of behavioral evolution is to conduct comparative studies of animal architectures, such as nests. Unlike behaviors themselves, nests persist through time, and have structures that can be disassociated into several quantitative features, which permits easy and comparable measurements and allows scientists to address questions about evolutionary history and functional relevance. The fellow's research addresses two major questions: (1) How do patterns of nest construction vary within and between species? (2) How do interrelated evolutionary processes shape variation in nest structure? This project is important for advancing foundational scientific knowledge, and will be the first study of weavers incorporating both molecular data and nest morphology to better understand the evolutionary underpinnings of a complex behavioral process. The fellow is also broadening participation in science by mentoring students underrepresented in biology.
The Fellow will reconstruct the evolution of nest construction in Ploceus weaverbirds incorporating advanced phylogenetic and morphological techniques including bioinformatics, computer modeling, X-ray computed tomography, and image processing. The Fellow will also conduct fieldwork in two hotspots of weaverbird diversity, the Awash Valley in Ethiopia and the Limpopo Province of South Africa, and collect behavioral data (e.g. rates of predation and brood parasitism; mating and parental behavior) and morphological data (e.g. nest structure) to test hypotheses of how distinct types of evolutionary selection shape the evolution of nest construction. The proposed comparative study can thus address questions such as how rapidly certain nest structural features evolve, which features are ancestral versus derived, which tend to exhibit phylogenetic signal, and which evolve in response to environmental features. The Fellow is receiving training in three-dimensional morphological analyses, phylogenetic tree construction, bioinformatics, computer modeling, and mentoring skills. The plan to broaden participation includes (1) recruitment, training, and mentoring of Queens College students from underrepresented groups in biology; (2) designing an evolutionary biology curriculum that ties in the research of the fellowship; (3) teaching an evolutionary biology class to underrepresented middle and high school students at the American Museum of Natural History; and (4) facilitating a research team for middle school and high school students.
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
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.
This project will examine the characteristics and outcomes of a large sample of environmental education field trip programs for youth to elucidate program characteristics that most powerfully influence 21st century learning outcomes. Environmental education programs for youth, particularly day-long school trip programs, are popular and reside at the intersection of formal and informal STEM education. Such field trips provide opportunities for diverse audiences to participate in shared learning experiences, but current understanding of what leads to success in these programs is limited. This large-scale study will address this gap in knowledge by investigating the linkages between program characteristics and participant outcomes for at least 800 single-day environmental education field trip programs for youth in grades 5-8, particularly programs for diverse and underserved audiences. This study will result in the identification of evidence-based practices that will inform future program design for a wide variety of settings, including nature centers, national parks, zoos, museums, aquaria, and other locations providing informal environmental education programs.
This Research in Service to Practice study is guided by two research questions: 1) What program characteristics (context, design, and delivery) most powerfully influence learner self-determination and learner outcomes? And 2) Do the most influential program characteristics differ across diverse and underserved audiences (e.g. African American, Hispanic/Latino, economically disadvantaged) and contexts (e.g. rural versus urban)? This project will examine a wide range of program-related factors, including pedagogical approaches and contextual characteristics. A valid and reliable protocol for observing 78 program characteristics hypothesized to influence learner outcomes developed by a previous project will be used to systematically sample and observe 500 single-day environmental education field trip programs for youth in grades 5-8 distributed across at least 40 U.S. states and territories. Programs for diverse and underserved youth will be emphasized, and a diverse set of programs in terms of program type and context will be sought. Data from this sample will be combined with those of an existing sample of 334 programs provided by over 90 providers. The final combined sample of over 800 programs will provide sufficient statistical power to confidently identify which program components are most consistently linked with learning outcomes. This sample size will also enable stratification of the sample for examination of these relationships within relevant subpopulations. Principal component analyses will be used to reduce data in theoretically meaningful and statistically valid ways, and multilevel structural equation modeling will be employed to examine the influences of both participants' individual characteristics and program and context characteristics on participant outcomes. Since one research question focuses on whether program outcomes are the same across different audiences, the project will include at least 200 programs for each of three specific audiences to ensure sufficient statistical power for confidence in the results: primarily African American, primarily Hispanic/Latino, and primarily White.
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.
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TEAM MEMBERS:
Robert PowellMarc SternBrandon Frensley
This three-year research and implementation project empowers middle school LatinX youth to employ their own assets and funds of knowledge to solve community problems through engineering. Only 7% of adults in the STEM job cluster are of Hispanic/Latino origin. There is a continuing need for filling engineering jobs in our current and future economy. This project will significantly broaden participation of LatinX youth in engineering activities at a critical point as they make career decisions. Design Squad Global LatinX expands on a tested model previously funded by NSF and shown to be successful. It will enable LatinX youth to view themselves as designers and engineers and to build from their strengths to expand their skills and participation in science and engineering. The project goals are to: 1) develop an innovative inclusive approach to informal engineering education for LatinX students that can broaden their engineering participation and that of other underrepresented groups, (2) to galvanize collaborations across diverse local, national, and international stakeholders to create a STEM learning ecosystem and (3) to advance knowledge about a STEM pedagogy that bridges personal-cultural identity and experience with engineering knowledge and skills. Project deliverables include a conceptual framework for a strength-based approach to engineering education for LatinX youth, a program model that is asset based, a collection of educational resources including a club guide for how to scaffold culturally responsive engineering challenge activities, an online training course for club leaders, and a mentoring strategy for university engineering students working with middle school youth. Project partners include the global education organization, iEARN, the Society of Women Engineers, and various University engineering programs.
The research study will employ an experimental study design to evaluate the impact on youth participating in the Design Squad LatinX programs. The key research questions are (1) Does participation increase students' positive perceptions of themselves and understanding of engineering and global perspectives? (2) To what extent do changes in understanding engineering vary by community (site) and by student characteristics (age, gender, ethnicity)? (3) Do educators and club leaders increase their positive perceptions of youths' funds of knowledge and their own understanding of engineering? and (4) Do university mentors increase their ability to lead informal engineering/STEM education with middle school youth? A sample from 72 local Design Squad LatinX clubs with an enrollment of 10-15 students will be drawn with half randomly assigned to the participant condition and half to the control condition. Methods used include pre and post surveys, implementation logs for checks on program implementation, site visits to carry out observations, focus groups with students and interviews with adult leaders. Data will be analyzed by estimating hierarchical linear models with observations. In addition, in-situ ethnographically-oriented observations as well as interviews at two sites will be used to develop qualitative case studies.
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.
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TEAM MEMBERS:
Mary Haggerty
resourceprojectProfessional Development, Conferences, and Networks
This project will advance evidence-based efforts to broaden informal STEM engagement via the 2019 Inclusive Science Communication (Inclusive SciComm) Symposium, to be held September 27-29, 2019, at the University of Rhode Island in Kingston, Rhode Island. Science communication, defined as any information exchange designed to engage targeted audiences in conversations or activities related to STEM topics, is a rapidly expanding area of research and practice with the potential to significantly increase public participation and sense of belonging in STEM fields. That said, there are few opportunities for its practitioners and scholars to convene around how to make their work both inclusive and equitable, which collectively acknowledge identity, cultural differences, and epistemologies as part of broadening participation. The 2019 symposium will address this gap through panels, workshops, and posters focused on three themes that represent critical and difficult aspects of inclusive science communication: (1) New Languages, Practices, Knowledge, and Research; (2) Changing Systems and Structures through Science Communication; and (3) Social Responsibility and Ethics. Within these themes, sessions will be organized to address major barriers of absence identified by participants in the 2018 Inclusive SciComm Symposium: skills, lessons learned, and knowledge gaps, especially with regard to facilitating difficult conversations across difference (critical dialogue). The symposium also will emphasize the need to integrate research and practice to advance inclusive, equitable, and intersectional approaches to science communication.
There is an urgent need to question assumptions and examine evidence regarding how science communicators and scholars approach efforts to broaden participation, but insufficient data exist on the inputs and outputs of inclusive and equitable practice. Critical dialogue about potentially uncomfortable topics such as privilege, power, or marginalization is an essential tool for inclusive practice and pedagogy. Finding from the 2018 Inclusive SciComm Symposium indicated that many educators and practitioners lack the language, skills, or confidence to initiate this type of dialogue. This project supports the knowledge-building component of the 2019 Inclusive SciComm Symposium to inform future science communication training, practice, and scholarship, by building on preliminary data collected during the 2018 symposium and responding to the need for more robust evaluation of science communication activities. Applying the Theory of Planned Behavior, the project will employ pre/post symposium surveys to investigate how 2019 symposium activities affected knowledge, attitudes, subjective norms, and efficacy (the variables of the Theory of Planned Behavior) of attendees with regard to critical dialogue. Focus groups at the symposium will be used to identify priority research areas related to inclusion, generally, and critical dialogue, specifically, that could advance inclusive science communication practice and beneficial outcomes. The project also will evaluate symposium impacts with regard to 1) attendees' opinions on utility of symposium components for advancing inclusive science communication and 2) how attendees' experience and response orientations inform their approaches to difficult science communication conversations. Qualitative data from the surveys and focus groups will be thematically coded using constant comparison.
This project will have strategic impact for inclusive science communication practice and, therefore, for informal learning and public engagement with STEM topics. Increasing awareness and effective implementation of critical dialogue by science communicators and trainers should enhance both for ethical engagement of traditionally under-represented and marginalized groups and should foster diverse types of public participation in societal debates about scientific issues. The outcomes of this research will benefit and link the complementary, but often siloed, fields of informal science learning and science communication. A final report will summarize research findings and offer specific next steps to advance inclusive science communication practice and research, especially with regard to fostering critical dialogue. The report will be posted on inclusivescicomm.org and distributed via a national network of partners working in informal science education, science communication, and public engagement.
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.
Recognizing that race can influence African American youths' perception of which academic disciplines and careers are available to them, this pilot study will explore how African American youths' physical and social communities can be leveraged to support the evolution of their STEM identity and their ability to recognize their potential as scientists. Unfortunately, many of these youths live in communities that are void of critical resources that research has demonstrated time and time again are critical for success in STEM disciplines and careers. This lived reality for many African American youth is the direct result of long-standing disparities in access and opportunities, fueled by racial socialization and biased institutional structures. This pilot will empower youth to recognize these disparities and use science to provide solutions. One perilous societal disparity experienced in many predominately African American communities is the lack of access to fresh produce and healthy food. As a mechanism for potential resolution, this project will consider the utility of community gardens to address this important community need and as a strategy to engage youth in STEM content and skill development. While this notion is not novel to NSF, the intent to utilize an augmented reality (AR) storytelling platform for data collection and project experiences is innovative. This technology will also provide a space for participants to share their work with each other and their broader communities. To our knowledge, this pioneering approach has not been previously piloted in this context. In addition, the pilot will engage multiple youth serving community-based organizations such as park and recreation centers and faith-based organizations in this work, which is also innovative. This is significant, as youth serving community-based organizations are often play important role in the social, educational, and cultural lives of youth and their families in communities. These organizations are often at the heart of the community, figuratively and literally. If successful, this pilot could be transformative and provide a strong basis to support similar work in other communities.
Over the two-year project duration, eighty African American youth ages 11 -14 will participate in the year-long program, across three youth-serving, community-based organizations at four sites. They will be exposed to relevant agricultural, geological, engineering and technological content through a newly developed curriculum called "Cultivating My Curriculum." Community mentors and undergraduate role models will facilitate the instruction and hands-on experiences in the garden and with the AR platform. A capstone event will be a held for the participants and community to convene to learn more about the results of the pilot and share recommendations with community leaders for improving the disparities identified during the pilot. The research component will focus on: (a) the impact of the sociocultural theoretical framework grounding the work on youths' STEM identities, (b) the integration of the AR tool, and (c) mentorship. Formative and summative evaluation will take place through focus groups, surveys, journals, and youth storytelling. Ultimately, the project endeavors to advance the narrative that African Americans are scientists and that science can be used to improve the lives of African Americans and other groups challenged by structural and racial disparities.
This pilot study 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, advancing innovative research on and assessment of STEM learning in informal environments, and developing understandings of deeper learning by participants.
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.
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TEAM MEMBERS:
Harrison PinckneyDavid BoyerBarry GarstDilrukshi Thavarajah
resourceprojectProfessional Development, Conferences, and Networks
STEAM, the use of art as a context and tool for science education, is currently a hot topic in the science education field. In almost all instances of study and practice, it involves the use of science-themed or science-informed art in science education. As such, it does not take advantage of the majority of artistic output that does not have an obvious connection to science. The National Academies of Sciences, Engineering and Medicine recently called for more research to expand the "limited but promising" evidence that integrating arts and humanities with science education leads to better learning. The goal of this 2.5-day conference is to bring together representatives of both art and science groups to have a shared discussion around how non-scientific art can influence science education in theory, and how we can apply empirical results to the theory. For purposes of this conference, "non-science art" is defined as art that was not inspired by science. Conference attendees will include researchers (art and science education researchers) and practitioners (artists, art museum interpreters, and science educators). The conference will take place during the 2020 Black Creativity exhibition at the Museum of Science and Industry, Chicago. It is anticipated that by holding the conference at that time the audience for the conference and its impact will be informed by more diverse attendance.
The conference will be implemented starting with a pre-conference reading. Attendees will be sent a copy of the white paper from the Art as a Way of Knowing report for background reading and also asked to contribute to a Google Document that describes their various contexts. Each day of the conference will focus on a theme -- state of the field and possibilities and research -- and be comprised of large and small group interactions. Attendees will be invited from the ranks of practitioners, researchers and educators in the art and science education fields; several slots will be available for open (non-invited) participants. Key outcomes include: (a) a summary of all the research that has been conducted on using non-science art in science education, (b) starting points for building a theory on why non-science art can be used in science education; and (c) a list of specific research topics that would help inform, advance, and test the theory. In addition to assessing satisfaction with the conference, evaluation will also include a one-year post conference survey to investigate impact of participation in the conference.
This conference will generate products that will give guidance to both researchers and practitioners who want to use art in science education. These products include a white paper synthesizing the discussion and appendices that include raw transcripts and a bibliography of resources. Another product is a roadmap to create interventions that can be studied, which should lead to a stronger, more rigorous theory of practice about how art can be integrated into science education.
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.
Many of the Hispanic children and families who live in the Rio Grande Valley lack opportunities to engage in inspirational and educational experiences introducing Science, Technology, Engineering and Mathematics (STEM) concepts and related careers. The University of Texas, Rio Grande Valley (UTRGV) will adapt and research the "Energy and U Show," which will introduce thousands of children and families to an exciting and dramatic that shows interconverting different forms of energy. The show will meld the excitement of chemical demonstrations and the natural connection between energy and STEM education in a fully produced, on-stage science extravaganza. A foundational philosophy of the show is that there is additional real value in getting children and youth onto a college campus. For many of its participants, this is their first time sitting in a seat at a university, the first opportunity for them to envision themselves in this environment. In partnership with the University of Minnesota, which originally developed the show, UTRGV will adapt the show, now presented in English, to a bilingual, culturally accessible format that is designed to Hispanic family audiences and student groups in learning about energy and related careers. Evaluation results demonstrate that the show has effectively engaged thousands of Minnesota students. The target audience will be upper elementary (4th-5th grade), middle school students, and their parents. This project will be led by UTRGV, nation's second-largest Hispanic Serving Institution, with a student enrollment of 28,000, of which over 90% are Hispanic and more than 60% are first-generation college students). In addition to the show, the project will include: (1) a manual to guide implementation of the program and related resources at different national or international venues; (2) educational resources for parents, teachers and school counselors introducing STEM careers and specific STEM college majors; (3) mentoring of UTRGV faculty in outreach activities; and (4) dissemination of the show to other campuses and venues.
The project will conduct ongoing research and evaluation guiding the adaptation of the show and investigation of factors contributing to positive educational impacts of the project, which will be carried out by a bilingual/bicultural researcher. Project research instruments will measure student level of engagement, interest and learning, as well as college interest, in surveys and analysis of data pre and post demonstration. The project will specifically investigate the impact of language on student impacts. Each component of this project will be studied to determine program intervention effectiveness (the scientific demonstration and language of the demonstration). To determine program effectiveness, a baseline of data before program implementation will be established concerning Hispanic students, their persistence, and perceptions of the environment. The project will measure parent perceptions of STEM careers for their children through pre and post demonstration surveys and focus groups. Student and parent research participants will be able to use surveys or respond to other research activities in the language of their choice. Project findings will contribute to the knowledge base concerning how linguistically and culturally adapted science shows and related resources adapted into can have positive impacts regarding the STEM knowledge and careers of students and parents from low-income and Hispanic communities.
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.
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TEAM MEMBERS:
Karen LozanoArturo FuentesAaron MassariBrian Warren
Informal learning institutions, such as science centers and museums, are well-positioned to broaden participation in engineering pathways by providing children from underrepresented groups with motivational, self-directed engineering design experiences. Though many informal learning institutions offer opportunities for young visitors to engage in engineering activities, little is known about the specific features of these activities that support children's motivation in engineering design processes such as problem scoping, testing, and iteration. This project will address this gap and advance foundational knowledge by identifying features of engineering design activities, as implemented within an informal setting, which support underrepresented children's engineering motivation and persistence in engineering tasks. Researchers at New York Hall of Science (NYSCI) will observe children interacting with families and museum educators as they engage in different engineering design activities in NYSCI's Design Lab, an exhibition space devoted to hands-on exploration of engineering design. They will also survey and interview the children and their caregivers about these experiences. Analyses of these data sources will result in a description of features of design activities foster motivation and task persistence in engineering design. Findings will be disseminated nationally to other informal learning institutions, which in turn can use the knowledge generated from this project to create motivational, research-based, field-tested engineering design experiences for young visitors, especially for children from underrepresented groups. The experiences may encourage children to further pursue engineering pathways, resulting in a diversified engineering workforce with the potential to drive and sustain national innovation and global technological leadership.
This project uses the framework of goal orientation, defined as learners' self-reflection of why and how they engage in tasks, to understand whether, how, and why underrepresented 7-12-year-olds engage in engineering design activities in an informal learning institution. Though previous research has suggested that goal orientation is strongly, positively related to learning and motivation in formal settings such as schools, research in informal settings has not robustly accounted for the role of goal orientation in participants' engagement with learning tasks in these unique learning environments. To better understand how children's goal orientations contribute to their motivation in engineering in informal learning institutions, researchers will answer the following research questions: (1) What are underrepresented children's goals and goal orientations while participating in engineering design activities in an informal setting? (2) What contextual factors--including facilitation strategies, materials, task relevance, and social interactions with family members--may support or discourage the adoption of different goal orientations? (3) How do goal orientations relate to children's learning experience in the engineering design activities and the likelihood that they will test and iterate their solutions? These questions will be answered through a mixed-method research study conducted with approximately 200 families, with children aged 7-12, recruited from underrepresented groups. Semi-structured clinical interviews, conducted with 20% of the children and their caregivers, as well as observations and surveys gathered from all families, will provide information on the children's goal orientation and engagement as they relate to specific engineering design activities. Qualitative content analyses and multilevel structural equation modeling will result in findings that will be disseminated widely to other institutions of informal learning. Ultimately, this project will generate new empirical knowledge regarding the features of engineering design activities in informal learning environments that increase engineering engagement and motivation among underrepresented children, thereby broadening participation in engineering pathways.
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.