Physical science and engineering remain the least diverse of all STEM fields---with regard to women, underrepresented minorities, and persons with disabilities---across all levels of STEM education and training. SCI-STEPS is an NSF INCLUDES Design and Development Launch Pilot that will address this persistent challenge by developing a complete end-to-end pipeline (or system of pathways) from the beginning of college to the PhD, and then into the workforce. Many isolated efforts to broaden participation have shown promise, but they have not produced big enough impact. SCI-STEPS represents a concerted set of coordinated interventions---consciously facilitated, systemically linked, and purposefully disseminated. SCI-STEPS represents a broad regional network among major research universities, Historically Black Colleges and Universities, comprehensive universities, community colleges, national labs, and major scientific organizations. The goal of the network is to ensure that underrepresented individuals in the physical sciences and engineering can get from their starting point in STEM higher education---freshmen at 2-year or 4-year college---through the higher education pathways leading to an appropriate terminal degree and employment in the STEM workforce.
Women, underrepresented minorities, and persons with disabilities collectively represent the majority of college-age individuals entering higher education with an expressed interest in physical science and engineering. A growing body of research indicates that academic and social integration may be even more influential than academic abilities for retention of students. Thus, interventions aimed at stemming the losses of these individuals must ultimately be aimed at changing the system---including unwelcoming institutional climates, racial/ethnic/gender stereotyping, a lack of mentors with whom to identify, and evaluation methods that emphasize conformity over individual capabilities---rather than changing the individual. The SCI-STEPS pilot focuses effort on institutional readiness for implementation of best practice interventions at four key junctures: (i) college freshman to sophomore; (ii) undergraduate to graduate; (iii) PhD to postdoc; and (iv) postdoc to workforce.The pilot will proceed in three steps: (1) a planning phase, (2) development of an initial end-to-end pathways model with four Juncture Transition teams, and (3) scale-up of the SCI-STEPS "network of networks" with all initial partners. By addressing these objectives through a collective impact framework and embedded research, this pilot will demonstrate how best-practice interventions at each pathway juncture can be dovetailed and scaled up across a broad range of institutional types and across a large but distinct geographical area. Addressing these objectives will thus also serve to advance Broadening Participation efforts at a national scale, by suggesting the forms of institutional partnerships and best-practices that may inform other alliances in other STEM disciplines and/or different regional areas.
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TEAM MEMBERS:
Keivan StassunNicole JosephKelly Holley-BockelmannWilliam RobinsonRoger Chalkley
This paper investigates the impact of stereotype threat on young women’s academic achievement in high school physics classes. Stereotype threat is the reinforcement of a negative stereotype. Results show that, although females underperformed when exposed to explicit and implicit stereotype threat conditions, their performance was identical to that of males when stereotypes were nullified.
The University of Alaska Fairbanks will partner with the National Optical and Astronomy Observatory, the University of Alaska Museum of the North, and the University of Washington-Bothell to bring biomaterials, optics, photonics, and nanotechnology content, art infused experiences, and career awareness to art-interested girls. This full scale development project, Project STEAM, will explore the intersections between biology, physics, and art using advanced technologies at the nano to macro scale levels. Middle school girls from predominately underrepresented Alaskan Native, Native American (Tohono O'odham, Pascula Yaqui) and Hispanic groups, their families, teachers, and Girl Scout Troop Leaders in two site locations- Anchorage, Alaska and Tucson, Arizona will participate in the project. Centered on the theme "Colors of Nature," Project STEAM will engage girls in science activities designed to enhance STEM learning and visual-spatial skills. Using advanced technologies, approximately 240 girls enrolled in the Summer Academy over the project duration will work with women scientist mentors, teachers, and Girl Scout Troop Leaders to create artistic representations of natural objects observed at the nano and macro scale levels. Forty girls will participate in the Summer Academy in year one (20 girls per site- Alaska and Arizona). In consequent years, approximately180 girls will participate in the Academy (30 girls per site). Another 1,500 girls are expected to be reached through their Girl Scout Troop Leaders (n=15) who will be trained to deliver a modified version of the program using specialized curriculum kits. In addition, over 6,000 girls and their families are expected to attend Project STEAM Science Cafe events held at local informal science education institutions at each site during the academic year. In conjunction with the programmatic activities, a research investigation will be conducted to study the impact of the program on girls' science identity. Participant discourse, pre and post assessments, and observed engagement with the scientific and artistic ideas and tools presented will be examined and analyzed. A mixed methods approach will also be employed for the formative and summative evaluations, which will be conducted by The Goldstream Group. Ultimately, the project endeavors to increase STEM learning and interest through art, build capacity through professional development, advance the research base on girls' science identity and inspire and interest girls in STEM careers.
This study sought to understand what motivates students at the high school and early college level to choose physics. It explored students’ expectations of their study of physics and their priorities for future careers. The researchers intended to contribute strategies to increase the number of females who complete university physics degrees. They also hoped to show that a wider range of perspectives needs to be represented among physics practitioners.
This paper by Mujtaba and Reiss explores tendencies in girls’ and boys’ motivations, attitudes, and perceptions toward studying physics after age 16. Findings suggest that girls who want to continue studying physics understand the material and social benefits it affords. They are also more competitive than other students. However, in general, they have less confidence in their abilities than boys.
Project STEAM aims to inspire art-interested girls to enter STEM careers through a series of activities, including summer academies that explore the biology and physics of color, science café-style presentations that feature the overlap between art and science, and the development of “kits” that can be used in informal and formal venues (Girl Scouts, science centers, and K-12 classrooms). Project research explores two questions: 1) How does an art-focused approach (STEAM) to teaching science support engagement in scientific practices such as experimentation, observation, and communication of
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University of Alaska, FairbanksLaura Conner
Afterschool and community science programs have become widely recognized as important sanctuaries for science learning for low-income urban youth and as offering them with "missing opportunities." Yet, more needs to be known about how youth, themselves, perceive such opportunities. What motivates youth to seek out such opportunities in the nonschool hours? How do youth describe the doing and talking of science in such programs? Given such descriptions, how do youth perceive the role of these programs in their lives? This paper relies on stories from three youth drawn from a multisited
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TEAM MEMBERS:
Jrene RahmMarie-Paule Martel-RenyJohn Moore
This poster was presented at the 2014 AISL PI Meeting held in Washington, DC. It discusses the second season of SciGirls, a multimedia project designed to encourage and empower more girls to pursue careers in STEM.
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Twin Cities Public TelevisionRita Karl
This poster provides an overview, program goals, evaluation plan, and research questions for the AISL project, Techbridge Broad Implementation: An Innovative Model to Inspire Girls in STEM Careers. The poster was presented at the 2014 AISL PI Meeting.
The New York Hall of Science, in collaboration with the Tufts Center for Engineering Education, the Learning Games Network, and New York City departments of education and of parks and recreation, is creating and testing two innovative science games to support student learning about frictional force and linear motion. SciGames integrates rigorous, highly motivating, data collection activities conducted in museum and playground settings, with in-depth data analysis and additional scientific investigation in the classroom. The primary goals of the SciGames project are to increase student motivation and interest in science and improve student learning about core physical science concepts. This exploratory project targets underrepresented urban students and their teachers from 20 schools in New York City (NYC) and through its partnership with NYC department of parks and recreation has great potential for scale-up throughout NYC, as well as dissemination to other urban communities. The SciGames model creates experiences for students that build on the positive, fun, free-choice learning characteristics of informal settings; promotes learning through repeated game-like experimentation and play; and supports students' sustained interest and learning in science classrooms where core concepts are formalized. The project is based on four design principles: (1) SciGames turns students' informal experiences into a game, (2) SciGames makes science content an integral part of game play, (3) SciGames generates data for further analysis during game play, and (4) SciGames, through the use of digital apps, supports students inquiring into data back in their classrooms. Researchers are developing the games using rigorous, well constructed, iterative cycles of design, development, testing, evaluation, and revision with different groups of NYC students and teachers. Pre and post data on students\' science learning and affect are being used to inform the design cycles. Over a two-year period, SciGames will produce two science games and associated digital apps, and a portable kit that supports game implementation, data collection and analysis. SciGames is an important experiment, combining the informal, engaging aspects of play with more formal science investigation to encourage and sustain the interest, participation, and learning of underrepresented students in STEM. This project has the potential to transform how we think of and structure science learning for middle school students.
This project is aimed at perfecting and testing a new instructional method to improve the effectiveness of introductory physics teaching. the methods has two chief characteristics: 1) a systematic challenge to common sense misconceptions about the physical world, and 2) an emphasis on models and modeling as basic to physical understanding. Two versions of the method will be tested. The first version is designed especially for high school physics. It emphasizes student development of explicit models to interpret laboratory activities. After an initial test, this version will be taught to high school physics teachers in a summer Teacher Enhancement Workshop, and its effect on their subsequent teaching will be evaluated. Teachers with weak as well as strong backgrounds will be included. A special effort will be made to include females and minorities. The second version will be tested in a special college physics course designed to prepare students with weak backgrounds for a standard calculus based physics course. It emphasizes modeling techniques in problem solving. This project is jointly supported by the Division of Materials development, Research and Informal Science Education and the Division of Teacher Preparation and Enhancement.
Using a five-month planning grant, the International Society for Optical Engineering (SPIE) will develop a comprehensive 10-year, educational initiative to address the needs of the optical science and engineering communities. A series of workshops will be held at professional meetings of SPIE and the Optical Society of America (OSA) to assess regional needs and resources. Workshop recommendations will be used to create a plan to enhance the scientific and technological literacy of the public and raise the level of awareness about career options in this exciting and expanding field. The meetings will incorporate a diverse array of stakeholders including optical engineering and science professionals, formal and informal educators, as well as representatives from industry and underrepresented groups in science and engineering. Strategic emphasis will be placed on informal science education and efforts to recruit and retain minorities and women in optical engineering and related sciences. The resulting education blueprint will be disseminated to the field in electronic and print media, and subsequently implemented by SPIE and OSA.