Hero Elementary is a transmedia educational initiative aimed at improving the school readiness and academic achievement in science and literacy of children grades K-2. With an emphasis on Latinx communities, English Language Learners, youth with disabilities, and children from low-income households, Hero Elementary celebrates kids and encourages them to make a difference in their own backyards and beyond by actively doing science and using their Superpowers of Science. The project embeds the expectations of K–2nd NGSS and CCSS-ELA standards into a series of activities, including interactive games, educational apps, non-fiction e-books, hands-on activities, and a digital science notebook. The activities are organized into playlists for educators and students to use in afterschool programs. Each playlist centers on a meaningful conceptual theme in K-2 science learning.
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TEAM MEMBERS:
Joan FreeseMomoko HayakawaBryce Becker
The goal of this project is to promote informal STEM education in polar research through a novel interactive learning display that uses virtual and augmented reality technology. A new display system will be developed that combines the successful techniques of touch-enabled tabletop displays with new low-cost, head-mounted display technology to deliver an immersive 3D learning experience for the IceCube Neutrino Detection system located at the South Pole. The system will provide new means for engaging the public in learning about the IceCube Neutrino Dectection system and the challenges of Antarctic research.
The proposal relies on collaboration between three groups on the University of Wisconsin- Madison campus, including the Living Environments Laboratory (LEL), the Wisconsin IceCube Particle Astrophysics Center (WIPAC), and the Games Learning Society (GLS). Once developed, the display system will be installed at the Wisconsin Institutes for Discovery Town Center, a public space that attracts close to 50,000 people per year. This proposal was submitted as an Exploratory Pathways proposal, meaning that it represents a chance to establish the basis for future research, design, and development of innovations or approaches. Outcomes from this project will inform the PIs of how best to extend the system to add more 3D environments for other research locations in Antarctica. The system will be implemented in an extensible fashion so that a user can select from one of several Antarctic research station locations, not just IceCube, from the main menu of the system and suddenly be immersed in a 3D world that seeks to teach users about polar research at that location. Contents of the interactive learning display will be translated into Spanish, and users will be able to choose which language they want to use. Evaluations of the system will also inform designers about how these museum-type systems impact learning outcomes for the general public.
This project was submitted to the Advancing Informal STEM Learning (AISL) program, but will be funded by the Division of Polar Programs. AISL 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.
In collaboration with a wide variety of non-profit organizations (Project SYNCERE, Little Village Environmental Justice Organization, Chicago Freedom School, Chicago Botanic Garden, Friends of the Chicago River, Institute for Latino Progress), the University of Chicago-Illinois seeks to prepare 30 new science teaching fellows (TFs) while building the capacity of 10 master teaching fellows (MTFs) to be leaders in urban science education. The project will address the professional development of all participants through a three-pronged mechanism which emphasizes (a) content-specific information that focuses on Next Generation Science Standards, (b) culturally relevant practices, and (c) teacher inquiry/research. The work will be performed in partnership with the Chicago Public Schools.
Recent graduates, career changers, and in-service Master Teachers will be provided with (a) a broad range of science concentrations including biology, chemistry, earth and space science, environmental science, and physics, (b) a unique urban perspective on science education that emphasizes diverse learning assets and equity, and (c) professional development opportunities within a community of faculty, teacher-leaders, and non-profit organizations. TFs will be prepared for licensure while earning a Master's in Instructional Leadership: Science Education, learning to teach and examine their practice as it relates to teaching, and learning within specific communities. MTFs will learn to conduct practitioner research and lead teacher inquiry groups examining essential and enduring challenges in STEM teacher practice and student learning. Formative and summative evaluation will focus on analysis of both qualitative and quantitative data related to degree and licensure attainment, the various teaching practice activities (lesson plans, participant surveys, etc.), and progress in meeting the overarching project goals. In doing so, the project will advance knowledge and understanding of the role played by community-based partnerships of university faculty, school teacher-leaders, and local non-profit entities in enhancing teacher education and development, and the circumstances that promote their success. The results of this work will be presented at national meetings of the American Educational Research Association and the American Association of Colleges of Teacher Education
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TEAM MEMBERS:
Maria VarelasChandra JamesCarole MitchenerAixa AlfonsoDaniel Morales-Doyle
This project will advance efforts of the Innovative Technology Experiences for Students and Teachers (ITEST) program to better understand and promote practices that increase students' motivations and capacities to pursue careers in fields of science, technology, engineering, or mathematics (STEM) by engaging in hands-on field experience, laboratory/project-based entrepreneurship tasks and mentorship experiences.
Twin Cities Public Television project on Gender Equitable Teaching Practices in Career and Technical Education Pathways for High School Girls is designed to help career and technical education educators and guidance counselors recruit and retain more high school girls from diverse backgrounds in science, technology, engineering and math (STEM) pathways, specifically in technology and engineering. The project's goals are: 1) To increase the number of high school girls, including ethnic minorities, recruited and retained in traditionally male -STEM pathways; 2) To enhance the teaching and coaching practices of Career and Technical Education educators, counselors and role models with gender equitable and culturally responsive strategies; 3) To research the impacts of strategies and role model experiences on girls' interest in STEM careers; 4) To evaluate the effectiveness of training in these strategies for educators, counselors and role models; and 5) To develop training that can easily be scaled up to reach a much larger audience. The research hypothesis is that girls will develop more positive STEM identities and interests when their educators employ research-based, gender-equitable and culturally responsive teaching practices enhanced with female STEM role models. Instructional modules and media-based online resources for Minnesota high school Career and Technical Education programs will be developed in the Twin Cities of Minneapolis and St. Paul and piloted in districts with strong community college and industry partnerships. Twin Cities Public Television will partner with STEM and gender equity researchers from St. Catherine University in St. Paul, the National Girls Collaborative, the University of Colorado-Boulder (CU-Boulder), the Minnesota Department of Education and the Minnesota State Colleges and Universities System.
The project will examine girls' personal experiences with equitable strategies embedded into classroom STEM content and complementary mentoring experiences, both live and video-based. It will explore how these experiences contribute to girls' STEM-related identity construction against gender-based stereotypes. It will also determine the extent girls' exposure to female STEM role models impact their Career and Technical Education studies and STEM career aspirations. The study will employ and examine short-form autobiographical videos created and shared by participating girls to gain insight into their STEM classroom and role model experiences. Empowering girls to respond to the ways their Career and Technical Education educators and guidance counselors guide them toward technology and engineering careers will provide a valuable perspective on educational practice and advance the STEM education field.
The maker movement has evoked interest for its role in breaking down barriers to STEM learning. However, few empirical studies document how youth are supported over time, in STEM-rich making projects or their outcomes. This longitudinal critical ethnographic study traces the development of 41 youth maker projects in two community-centered making programs. Building a conceptual argument for an equity-oriented culture of making, the authors discuss the ways in which making with and in community opened opportunities for youth to project their communities’ rich culture knowledge and wisdom onto
This project supports the Broader Impacts and Outreach Network for Institutional Collaboration (BIONIC), a national Research Coordination Network of Broader Impacts to support professionals who assist researchers to design, implement, and evaluate the Broader Impacts activities for NSF proposals and awards. All NSF proposals are evaluated not only on the Intellectual Merit of the proposed research, but also on the Broader Impacts of the proposed work, such as societal relevance, educational outreach, and community engagement. Many institutions have begun employing Broader Impacts support professionals, but in most cases, these individuals have not worked as a group to identify and share best practices. As a consequence, there has been much duplication of effort. Through coordination, BIONIC is expected to improve efficiency, reduce redundancy, and have significant impact in several areas: 1) Researchers will benefit from an increased understanding of the Broader Impacts merit review criterion and increased access to collaborators who can help them design, implement, and evaluate their Broader Impacts activities; 2) Institutions and research centers will increase their capacity to support Broader Impacts via mentoring for Broader Impacts professionals and consulting on how to build Broader Impacts support infrastructure, with attention to inclusion of non-research-intensive universities, Historically Black Colleges and Universities, and Hispanic- and Minority-Serving Institutions that may not have the resources to support an institutional Broader Impacts office; and 3) NSF, itself, will benefit from a systematic and consistent approach to Broader Impacts that will lead to better fulfillment of the Broader Impacts criterion by researchers, better evaluation of Broader Impacts activities by reviewers and program officers, and a system for evaluating the effectiveness of Broader Impacts activities in the aggregate, as mandated by Congress and the National Science Board. Through its many planned activities, BIONIC will ultimately help advance the societal aims that the Broader Impacts merit review criterion was meant to achieve.
The main goals of the project will be accomplished through the four specific objectives: 1) Identify and curate promising models, practices, and evaluation methods for the Broader Impacts community; 2) Expand engagement in, and support the development of, high-quality Broader Impacts activities by educating current and future faculty and researchers on effective practices; 3) Develop the human resources necessary for sustained growth and increased diversity of the Broader Impacts community; and 4) Promote cross-institutional collaboration and dissemination for Broader Impacts programs, practices, models, materials, and resources. BIONIC will facilitate collaborative Broader Impacts work across institutions, help leverage previously developed resources, support professional development, and train new colleagues to enter into the Broader Impacts field. This project will improve the quality and sustainability of Broader Impacts investments, as researchers continue to create unique and effective activities that are curated and broadly disseminated. BIONIC will create a network designed to assist NSF-funded researchers at their institutions in achieving the goals of the Broader Impacts Review Criterion. In so doing, BIONIC will promote Broader Impacts activities locally, nationally, and internationally and help to advance the Broader Impacts field.
This award is co-funded by the Divisions of Molecular and Cellular Biosciences and Emerging Frontiers in the Directorate for Biological Sciences and by the Division of Chemistry in the Directorate for Mathematics and Physical Sciences.
Techbridge Girls’ mission is to help girls discover a passion for science, engineering, and technology (SET). In August 2013, Techbridge Girls was awarded a five-year National Science Foundation grant to scale up its after-school program from the San Francisco Bay Area to multiple new locations around the United States. Techbridge Girls began offering after-school programming at elementary and middle schools in Greater Seattle in 2014, and in Washington, DC in 2015.
Education Development Center is conducting the formative and summative evaluation of the project. To assess the
Techbridge Girls’ mission is to help girls discover a passion for science, engineering, and technology (SET). In August 2013, Techbridge Girls was awarded a five-year National Science Foundation grant to scale up its after-school program from the San Francisco Bay Area to multiple new locations around the United States. Techbridge Girls began offering after-school programming at elementary and middle schools in Greater Seattle in 2014, and in Washington, DC in 2015.
Education Development Center is conducting the formative and summative evaluation of the project. To assess the
The NSF INCLUDES program supports models, networks, partnerships and research to ensure the broadening participation in STEM of women, members of racial and ethnic groups that have been historically underrepresented, persons of low socio-economic status, and people with disabilities.
The Algebra Project, in partnership with the Young People's Project, will convene a conference on inclusion in science, technology, engineering and mathematics(STEM) higher education in support of the National Science Foundation's Inclusion across the Nation of Communities of Learners of Underrepresented Discoverers in Engineering and Science (NSF INCLUDES) initiative. The conference will examine a critical question: What roles and structures are needed for a mini-backbone organization in order to scale a "bottom up" model of social change into an organized, full scale collective impact model? Additionally, the conference will develop participants' capacity to link action on the various design challenges, and backbone structures, to future actions that meet the needs of a potential Alliance on this Broadening Participation Challenge and others facing similar challenges.
Five pre-conference design teams will focus on key components to improve education of students from underrepresented and disadvantaged populations over a four-month period prior to the convening of the stakeholders in St. Louis, Missouri in 2017.
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.
The importance of increasing and widening participation in post-compulsory science and informal science learning (ISL) spaces is widely recognized—particularly for working-class and minority ethnic communities. While there is a growing understanding of the intersection of femininity with class, ethnicity, and science learning across formal and informal settings, there has been little work on how masculinity may shape urban boys’ science (non)participation and (dis)engagement. This article analyzes performances of masculinity enacted by 36 urban, working-class boys (from diverse ethnic
As part of the development work of Latina SciGirls, the independent evaluation firm Knight Williams Inc. conducted a front-end evaluation focused on gathering input from the project’s primary public audiences (Latina girls and their parents/guardians) and professional audiences (the project’s advisers and partners). A total of 86 participants representing these diverse audience perspectives were asked to review an episode of the SciGirls program Hábitat en Caos/Habitat Havoc and two role model scientist profile videos featuring Karin Block and Victoria Velez. Scheduled early in Year 1 of the