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.
"Black Sun" is a full-length documentary film focusing on the life and research of two African American solar astrophysicists: Dr. Hakeem Oluseyi of the Florida Institute of Technology and Dr. Alphonse Sterling of the NASA Marshall Space Flight Center. Black Sun depicts underrepresented minority scientists in ways that challenge common preconceptions, and will inspire young people (particularly minorities) to consider STEM fields as a viable and exciting career option. In particular, the film shows the lives of the scientists, the scientists taking scientific observations and doing analysis, and discussing their results. Black Sun is centered on the two solar eclipses this year (2012): The May 20 annular eclipse and the November 13-14 total eclipse. This NSF RAPID grant funds the filming of the total solar eclipse in Cairns, Australia, where Drs. Sterling and Oluseyi and their team of students will conduct measurements focused on studying the extended solar atmospheric plasma.
The primary broader impacts goal is to increase minority participation in STEM fields. Black Sun will be "advancing discovery and understanding while promoting teaching, training and learning," by showing both the science and the personal aspects of minority astrophysicists. Dissemination will be done via screenings in academic settings (particularly minority-serving institutes), entry into film festivals, and promotion to science TV programs. We have already partnered with several HBCUs to screen "Black Sun".
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
This INCLUDES award to the Quality Education for Minorities (QEM) Network will focus on building STEM research and teaching capacity of Historically Black Colleges and Universities (HBCUs) and Tribal Colleges and Universities (TCUs). HBCUs and TCUs share the impact of disparities that affect their communities and are constantly seeking STEM research and education solutions to engage students and prepare them to be fully involved in developing innovative and effective remedies that will address these disparities. The QEM Design & Development Launch Pilot (DDLP) Project is a collaboration that will provide an underpinning for broadening the participation of institutions involved in improving the enrollment and retention of minority students in science, technology, engineering, and mathematics (STEM). To be competitive in a future global economy, the Nation must make a larger investment in the STEM education of its underrepresented groups, including, males and persons with disabilities. Failure to make such an investment can weaken our STEM infrastructure and inhibit the continuity of the Nation as a world leader in STEM.
The project's initial partners consist of five HBCUs (Morehouse College, Morgan State University, Spelman College, Tuskegee University, and University of Maryland Eastern Shore) and two TCUs (Aaniiih Nakoda College and United Tribes Technical College) with the aim of expanding to 12 institutions as well as adding business/industry partners and STEM-focused professional societies. The goals of the DDLP project are to: (1) build and sustain an alliance to increase the participation of African Americans and Native Americans in STEM education, research, and the workforce; (2) strengthen the STEM research, instructional, and mentoring capacities of partner HBCUs and TCUs; and (3) develop and promote broadening participation (BP) practices to address academic and professional career needs of African American and Native American males to significantly increase their representation in STEM. The QEM DDLP will implement evidence-based and data-driven approaches to developing research, education, and mentoring activities that can be tailored to institutional needs and context. The resulting outcome will be an increase in the capacities of HBCUs and TCUs in STEM that will position these institutions for sustained contributions to national broadening participation initiatives.
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TEAM MEMBERS:
Shirley McBayLeander McDonaldLaura-Lee DavidsonEugene DeLoatchJuliette Bell
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.
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TEAM MEMBERS:
Sarah LeeVemitra White
resourceprojectProfessional Development, Conferences, and Networks
Jobs are growing most rapidly in areas that require STEM knowledge, causing business leaders to seek skilled American workers now and in the near future. Increase in the number of students pursuing engineering degrees is taking place but the percentages of underrepresented students in the engineering pipeline remains low. To address the challenge of increasing the participation of underrepresented groups in engineering, the National Society of Black Engineers, the American Indian Science and Engineering Society, the Society of Hispanic Professional Engineers, and the Society of Women Engineers have formed the 50K Coalition, a collaborative of over 40 organizations committed to increasing the number of bachelors degrees awarded to women and minorities from 30,000 annually to 50,000 by 2025, a 66% increase. The 50K Coalition is using the Collective Impact framework to develop an evidence-based approach that drives management decision-making, improvements, sharing of information, and collective action to achieve success. The first convening of the 50K Coalition in April, 2016, brought together 83 leaders of the engineering community representing 13 professional societies with over 700,000 members, deans of engineering, minority engineering and women in engineering administrators from 11 leading colleges of engineering, and corporate partners representing six global industries. Consensus was reached on the following Common Agenda items: 1.) Undergraduate support and retention; 2.) Public awareness and marketing; 3.) K-12 support; 4.) Community College linkages; 5.) Culture and climate. The Coalition will encourage member organizations to develop new programs and scale existing programs to reach the goal.
The Coalition will use shared metrics to track progress: AP® Calculus completion and high school graduation rates; undergraduate freshmen retention rates; community college transfer rates and number of engineering degrees awarded. The 50K Coalition will develop the other elements of the Collective Impact framework: Infrastructure and effective decision-making processes that will become the backbone organization with a focus on data management, communications and dissemination; a system of continuous communication including Basecamp, website, the annual Engineering Scorecard, WebEx hosted meetings and convenings; and mutually reinforcing activities such as programs, courses, seminars, webinars, workshops, promotional campaigns, policy initiatives, and institutional capacity building efforts. The National Academy of Sciences study, Expanding Underrepresented Minority Participation: America's Science and Technology Talent at the Crossroads recommended that professional associations make recruitment and retention of underrepresented groups an organizational goal and implement programs designed to reach that goal by working with their membership, academic institutions and funding agencies on new initiatives. While these types of organizations work together now in a variety of ways, the relationships are one-on-one. The 50K Coalition brings together, for the first time professional societies, engineering schools, and industry to consider what mutually reinforcing activities can most effectively encourage students from underrepresented groups to complete calculus and graduate from 4-year engineering programs.
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TEAM MEMBERS:
Karl ReidBarry CorderoSarah EcohawkKaren Horting
Although major growth in engineering and computing jobs is expected in the next 10 years, students are not majoring in sufficient numbers to meet this demand. These impending workforce demands cannot be met without developing the skills of racial and ethnic minorities: however, Hispanics and Black/African Americans make up only a small percentage of doctoral students in the United States. The goal of the Consortium of Minority Doctoral Scholars (CMDS) Design and Development Launch Pilot is to broaden the participation of minorities in these fields. This pilot project will create a data portal that will allow the research team to study and understand the efficacy of various mentoring strategies that might be piloted across institutions and minority doctoral scholars programs.
Part II
The Consortium of Minority Doctoral Scholars (CMDS) will unite three of the nation's oldest and most prominent minority doctoral scholars programs (GEM, SREB and McKnight); organizations with a long history of impact in increasing the numbers of minorities obtaining advanced degrees. The CMDS Design and Development Launch Pilot will conduct extensive studies using data from these three programs. The research team will conduct a mixed method analysis of the data to discover commonalities and distinctions about the three programs' mentoring efforts as compared to students not involved in the three programs. This will result in a data-driven strategy for researching the efficacy of mentoring programs that can be applied across the three CMSD member and other minority doctoral scholars programs. By utilizing data from successful programs to pinpoint effective mentoring strategies, the project will create opportunities for larger numbers of minorities to be successful. This approach has implications not only with respect to equity and access, but also the development of a workforce that will drive future advances.
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TEAM MEMBERS:
Juan GilbertShaundra DailyJerlando Jackson
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
This paper sketches the context for participation in science by girls from historically underrepresented populations and offers a detailed description of Sisters4Science (S4S) and its personalized, girl-centered pedagogy. The S4S example suggests a need to complement current out-of-school science programs with lessons from girl-centered practice and research.
This paper discusses conceptions of identity in relation to science education and presents material from a series of interviews and focus groups with graduate students in science and technology. Given difficulties in retention and levels of significant participation by minority students indicated by aggregate data, the issue of race, as it informs critical interactions at a majority research university, is explored in terms of its effects on identity formation. It is argued that we need to look at “real-time” science to see how subtle interactions affect minority graduate students. These
This presentation given at the 2013 Materials Research Society (MRS) Spring Meeting examines evidence for the effectiveness of STEM education programs at the National High Magnetic Field Laboratory.
This Pathways project from the Ocean Discovery Institute (ODI) seeks to develop and pilot a program model designed to fill an identified gap in citizen science research and practice literature: how to effectively engage and better understand how to foster participation among people from under-represented groups in citizen science research. The ODI model is designed around six principles: (1) leaders who are reflective of the community, (2) science that is locally relevant, (3) guided, as opposed to self-guided, experiences, (4) direct interactions with scientists, (5) progressively increasing responsibilities for participants who express interest, and (6) removing barriers to participation, such as transportation, language, family involvement and access to technology. The project addresses environmentally degraded, crime-ridden local canyons, a locally relevant STEM-related issue, and leverages the Southern California Coastal Water Research Project's (SCCWRP) regional citizen science effort focused on identifying the sources and pathways of trash through regional watersheds. The scientific research components of the project focus on four canyons in the area, employing sampling methods developed by SCCWRP. Youth who are part of other ODI programs and who have demonstrated leadership and interest in science, work with the project team to scaffold family and youth participation in project activities taking place during afterschool and weekend time. Based on continued participation in the project, community participants can become more involved in the project, starting as "new scientists" and moving through "returning scientists" to "expert scientists" roles. The project evaluation seeks to identify the role and importance of the components of the proposed model with respect to participation, retention, and learning by participants from groups under-represented in STEM. The dissemination products of this Pathways project include a white paper describing the model and lessons learned as well as presentations to community groups and education and citizen science practitioners. Based on insights from the iterative approach to the model during this Pathways study, a subsequent full-scale development project would seek to engage citizen science projects around the nation in adapting the model to increase participation of individuals from groups underrepresented in STEM, including building out ODI's citizen science programming.
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TEAM MEMBERS:
Lindsay GoodwinRoxanne RuzicTheresa Sinicrope Talley