In this case study, we highlight the work of the Bay Area STEM Ecosystem, which aims to increase equity and access to STEM learning opportunities in underserved communities. First, we lay out the problems they are trying to solve and give a high level overview of the Bay Area STEM Ecosystem’s approach to addressing them. Then, based on field observations and interviews, we highlight both the successes and some missed opportunities from the first collaborative program of this Ecosystem. Both the successes of The Bay Area STEM Ecosystem--as well as the partners’ willingness to share and examine
The primary goal of MAST-3 is to increase the diversity of students, particularly those from underrepresented groups, electing careers in NOAA related marine sciences. This is done through a multidisciplinary program that engages students in NOAA-related marine research, and explores marine policy, the heritage of African Americans and Native Americans in the coastal environment, and seamanship. MAST students use the Chesapeake Bay to understand efforts to protect, restore and manage the use of coastal and ocean resources through an ecosystem approach to management. To do this, Hampton University has formed partnerships with various NOAA labs/sites, several university laboratories, the USEPA, various museums, the Chesapeake Bay Foundation, and the menhaden fishing industry.
During the school year of 2016-2017, Fairchild Tropical Botanic Garden (Fairchild) implemented the first year of a four-year project entitled: Growing Beyond Earth (GBE). NASA is providing funding support for project implementation as well as an external project evaluation.
The evaluation activities conducted this year were focused on understanding project implementation and exploring project outcomes using data collected between September 2016 and May 2017. This report’s findings and accompanying recommendations inform next year’s project implementation and evaluation activities.
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TEAM MEMBERS:
Catherine RaymondAmy RubinsonCarl LewisMarion LitzingerAmy Padolf
Supported by the National Science Foundation, the Global Soundscapes! Big Data, Big Screens, Open Ears project employs a variety of informal learning experiences to present the physics of sound and the new science of soundscape ecology. The interdisciplinary science analyzes sounds over time in different ecosystems around the world. The major components of the Global Soundscapes project are an educator-led interactive giant-screen theater program and hands-on group activities. Multimedia Research, an independent evaluation firm, implemented a summative evaluation with low income, inner-city
The lack of equitable access to science learning for marginalized groups is now a significant concern in the science education community (Bell et al. 2009). In our commitment to addressing these concerns, we (the HERP Project staff) have spent four years exploring different ways to increase diverse student participation in our informal science programs called herpetology research experiences (HREs). We wanted the demographics of participants to mirror the racial, ethnic, cultural, linguistic, and socioeconomic demographics of the areas where our HREs are held. To achieve this, project staff
Large gaps in achievement and interest in science and engineering [STEM] persist for youth growing up in poverty, and in particular for African American and Latino youth. Within the informal community, the recently evolving “maker movement” has evoked interest for its potential role in breaking down longstanding barriers to learning and attainment in STEM, with advocates arguing for its “democratizing effects.” What remains unclear is how minoritized newcomers to a makerspace can access and engage in makerspaces in robust and equitably consequential ways.
This paper describes how and why
In this paper we investigated the role youth participatory ethnography played as a pedagogical approach to supporting youth in making. To do so, we examined in-depth cases of youth makers from traditionally marginalized communities in two makerspace clubs in two different mid-sized US cities over the course of three years. Drawing from mobilities of learning studies and participatory frameworks, our findings indicate that participatory ethnography as pedagogical practice repositioned youth and making by helping to foreground youths’ relationality to people, communities, activities and
Designing for Diversity will establish a national Networked Improvement Community (NIC) of maker spaces and fab labs serving Black and Latino high school students and specializing in computational making programs. The project will be led by the New York Hall of Science, the Carnegie Foundation for the Advancement of Teaching and a national leadership team representing universities, cultural organizations, corporations, foundations and leaders in the Maker Movement. Using a NIC methodology, the partners will identify the most promising mechanisms for ensuring that participation in computational making programs has a significant impact on participants' choices to pursue STEM focused internships, post-secondary education, and career paths. The project will extend the NIC methodology into the informal learning community, which is in need of research methods that are both rigorous and accommodating of the institutional complexities of building and sustaining high-quality informal learning environments, and it will contribute to the literature on the impact of maker spaces and fab labs in underserved communities on the diversification of the STEM pipeline. The project will also pave the way for the development of a more fully-developed network of computational making programs across the country and a more comprehensive research initiative that will influence best practices in maker spaces and fab labs and foster perceptions of the value and impact of maker experiences on young people's readiness for future educational experiences and careers.
The project builds on research indicating that computational making - programs that combine the making of artifacts with computational tools and techniques - is a powerful strategy for engaging underrepresented students in STEM learning. However, participation in such programs will not necessarily lead students to take concrete steps toward computationally-rich STEM careers in which they are currently under-represented. A range of research suggests that computational making programs need to explicitly design for and address the socio-emotional dimensions of these learning experiences in order for them to become stepping stones into these careers. Designing for Diversity will work with a network of maker programs serving high needs Black and Latino high school students to address these learning factors. During this pilot, the leadership team will accomplish three tasks: (1) establish a common framework, shared measurement objectives and guidelines that will be used to identify, recruit and support participant maker programs and their local partners; (2) develop and coordinate the NIC's capacity for scaling and disseminating its work by connecting the research efforts to broader national initiatives; and (3) recruit, train, and collect baseline data on the Designing for Diversity NIC.
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TEAM MEMBERS:
Margaret HoneyKatherine McMillanPaul LeMahieuAndres Henriquez
The Mississippi Alliance for Women in Computing (MAWC) project will identify factors that influence and motivate female students and female African American students in Mississippi to enroll and persist in an undergraduate engineering- or science-based computing major. There is a particular need for programming that is inclusive of women and women of color who are from the southern region of the United States. These students typically have less access to extracurricular activities that encourage computing, and are less likely to visualize themselves in a computing major or career. This proposed research is to help girls to know that computer science exists and what jobs in computer science are available with a degree in computer science. A rich environment exists in Mississippi for an alliance focused on building co-curricular and mentorship opportunities. A scalable pipeline model, expandable to a Southern Alliance for Women in Computing (SAWC), will be developed with three major objectives: to attract women and women of color to computing, to improve retention rates of women in undergraduate computing majors, and to help postsecondary women make the transition to the computing workforce. Activities to support these objectives include: scaling the National Center for Women and Information Technology Aspirations in Computing award program in Mississippi, expanding scholarships for Aspirations winners, expanding student-led computing outreach programs, establishing a Mississippi Black Girls Code chapter, informing and collaborating with the Computer Science for Mississippi initiative, creating a summer bridge and living-learning community for women in computing majors, and increasing professional development opportunities for women in computing through conferences, lunch and learn meetings, job shadowing, and internships.
The project will analyze whether the co-curricular activities of MAWC lead to computing self-efficacy and ultimately female students selecting to pursue and persist in computing majors and careers. In order to understand student participation and efficacy changes, data collection for this research will be through demographic and background surveys administered to women entering an undergraduate engineering- or science-based computing major at a university in Mississippi and student surveys and evaluations in MAWC-sponsored programs. Using discriminate analysis methods, specific research questions to be addressed are: 1) Which pre-collegiate experiences influenced them to enroll, 2) Which stakeholders influenced these girls in their decision-making process, and 3) What programs are effective in impacting their persistence in the major. Predictor variables for each respective research question are: pre-collegiate experiences, stakeholders, and programs. Outcome variables are: (a) a female undergraduate student with no involvement with MAWC programming, (b) MAWC activity participant, or (c) a MAWC participant having graduated with a bachelor?s degree in a STEM major. Results will complement published longitudinal research on the gendered and raced dimensions of computing literacy acquisition in Mississippi as well as research on effective CS role model programming.
Science, technology, engineering, and mathematics (STEM) education and programming has become a priority in our nation. In the United States, the STEM pipeline is considered "leaky" as many students disengage from STEM at various points during their lives. In particular, women, Latinos, and African Americans are more likely to disengage from the STEM pipeline. American students are less likely to earn STEM postsecondary and graduate degrees compared to other nations. As careers in STEM fields are expected to increase at a faster rate than other occupations, there is growing concern about the
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TEAM MEMBERS:
Annette ShtivelbandAmanda Wallander RobertsRobert Jakubowski
The Morgan State University INCLUDES project will build on an existing regional partnership of four Historically Black Colleges and Universities that are working together to improve STEM outcomes for middle school minority male students that are local to Morgan State in Baltimore, North Carolina A&T in Greensboro, Jackson State in Mississippi, and Kentucky State in Frankfort. Additional partners include SRI International, the National CARES Mentoring Network, and the Verizon Foundation. Using the collective impact-style approaches such as planning and implementing a Network Improvement Community (NIC), developing a shared agenda and implementing mutually reinforcing activities, these partners will address two common goals: (1) Broaden the participation of underrepresented minority males in science and engineering through educational experiences that prepare them for careers in STEM fields; and (2) Create a Network Improvement Community focused on STEM achievement in minority males. Program elements include high-quality instruction in STEM content, mentoring, and professional development. The project will expand to include eight additional partners (six HBCUs and two Hispanic-Serving Institutions) and schools and districts in communities local to their campuses. The INCLUDES pilot will help scale innovations that target impacting minorities in STEM.
The project will develop STEM learning pathways for middle school minority males by harnessing the collective impact of 12 university partners, local K-12 schools and districts with which they partner, and surrounding community organizations and businesses with a vested interest in achieving common goals. Products will include a roadmap for addressing the problem through a Network Improvement Community, a website that will contribute to the knowledge base regarding effective strategies for enhancing STEM educational opportunities for minority males, and common metrics, assessments, and shared measurement systems that will be used to measure the collective impact of the Network Improvement Community.
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TEAM MEMBERS:
Jumoke Ladeji-OsiasCindy ZikerGeneva HaertelKamal AliAyanna GillDerrick GilmoreClay Gloster
While interest in citizen science as an avenue for increasing scientific engagement and literacy has been increasing, understanding how to effectively engage underrepresented minorities (URMs) in these projects remains a challenge. Based on the research literature on strategies for engaging URMs in STEM activities and the project team’s extensive experience working with URMs, the project team developed a citizen science model tailored to URMs that included the following elements: 1) science that is relevant to participants’ daily lives, 2) removal of barriers to participation, such as