Having developed the concept of near-peer mentorship at the middle school/high school level and utilized it in a summer science education enhancement program now called Gains in the Education of Mathematics and Science or GEMS at the Walter Reed Army Institute of Research (WRAIR), it is now our goal to ultimately expand this program into an extensive, research institute-based source of young, specially selected, near-peer mentors armed with kits, tools, teacher-student developed curricula, enthusiasm, time and talent for science teaching in the urban District of Columbia Public Schools (specific schools) and several more rural disadvantaged schools (Frederick and Howard Counties) in science teaching. We describe this program as a new in-school component, involving science clubs and lunch programs, patterned after our valuable summer science training modules and mentorship program. Our in-house program is at its maximum capacity at the Institute. Near-peer mentors will work in WRAIR's individual laboratories while perfecting/adapting hands-on activities for the new GEMS-X program to be carried out at McKinley Technology HS, Marian Koshland Museum, Roots Charter School and Lincoln Junior HS in DC, West Frederick Middle School, Frederick, MD and Folly Quarter Middle School and Glenelg HS, in Howard County, MD. Based on local demographics in these urban/rural areas, minority and disadvantaged youth, men and women, may choose science, mathematics, engineering and technology (SMET) careers with increasing frequency after participating, at such an early age, in specific learning in the quantitative disciplines. Many of these students take challenging courses within their schools, vastly improve their standardized test scores, take on internship opportunities, are provided recommendations from scientists and medical staff and ultimately are able to enter health professions that were previously unattainable. Relevance to Public Health: The Gains in the Education of Mathematis and Science (GEMS) program educates a diverse student population to benefit their science education and ultimately may improve the likelihood of successfully entry into a health or health-related professions for participating individuals. Medical education has been show to improve public health.
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TEAM MEMBERS:
Debra YourickMarti Jett
resourceresearchProfessional Development, Conferences, and Networks
The resources on this handout were shared by participants of the “Bridging the practice-research gap” forum, which took place on InformalScience.org from July 6-17, 2015.
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Association of Science-Technology CentersGrace Troxel
The role of informal science institutions in supporting science learning and engagement is becoming increasingly recognised. However, research in this area is published in a variety of journals and can be challenging for practitioners to access and apply. Indeed, it appears that the informal science sector lacks a process by which research can be usefully integrated into practice, and by which practice can inform research. In this paper, we argue that there is a need for research and practice to work together to produce practically relevant and academically credible research. We outline the
The underrepresentation of non‐White students and girls in STEM fields is an ongoing problem that is well documented. In K‐12 science education, girls, and especially non‐White girls, often do not identify with science regardless of test scores. In this study, we examine the narrated and embodied identities‐in‐practice of non‐White, middle school girls who articulate future career goals in STEM‐related fields. For these girls who desire an STEM‐related career, we examine the relationships between their narrated and embodied identities‐in‐practice. Drawing on interview and ethnographic data in
As providers of informal STEM education, including libraries, grapple with the issue of offering inclusive programs and meeting the needs of their specific communities, potential program facilitators seek knowledge and guidance to develop and deliver effective STEM programming for underserved populations. Key questions that might be asked include: Have best practices been identified for effectively engaging underserved audiences? What key strategies, if any, have emerged from previous informal science education efforts that can inform new program development? Over the past 10 to 20 years
Today, policy makers, funders, and government agencies alike are grappling with the need to use resources efficiently and effectively in order to make a measurable difference in addressing some of today’s pressing significant social, cultural, and educational challenges. When dealing with such complex and “wicked” problems as global warming, hunger, substance abuse, education and skills development (including competencies in STEM disciplines), it’s not enough for an organization to deliver results that contribute only to its bottom line. Increasingly, civic and philanthropic leaders are
America’s public libraries can play an important role in furthering STEM education. However, this will be true only if STEM learning efforts focus on librarians and librarians acting as facilitators. Any effort to transform librarians into STEM experts will have limited success given the increasing number of roles librarians are being asked to take on. At the same time, the current belief among many librarians that they can only offer programming in which they feel comfortable or have expertise will strongly constrain STEM programming in libraries. Librarians must instead create platforms
The Learning Labs in Libraries and Museums program was launched in 2011 by a public-private partnership between the Institute of Museum and Library Services (IMLS) and the John D. and Catherine T. MacArthur Foundation in response to President Obama's Educate to Innovate initiative. Through two cycles of national competitions, libraries, museums, and other community partners at 24 sites were funded to create innovative teen spaces that followed the principles of the emerging Connected Learning Framework. Learning Labs often involve partnerships and collaborations between libraries and other
There is a revolution occurring in how, when, where and even why people learn science. Learning today is continuous and on-demand. Learners of all ages seek science educational experiences from myriad sources and across multiple platforms – while at home, on weekends and even while on vacation. Unlike in the past, most science learning today is free-choice, driven primarily by an individual’s needs and interests. In fact, research indicates that much of the current disparity in a person’s science literacy derives from inequities in access to quality out-of-classroom learning opportunities
This bibliography was created for the 2015 Public Libraries & STEM Conference in Denver, CO. It lists resources related to STEM learning in a library setting.
There are a growing number of informal science education (ISE) programs in Native communities that engage youth in science education and that are grounded in Native ways of knowing. There is also a growing body of research focusing on the relationship between culture, traditional knowledge, and science education. However, there is little research documenting how these programs are being developed and the ways in which culture and Western science are incorporated into the activities. This study outlines effective practices for using Native ways of knowing to strengthen ISE programs. These
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TEAM MEMBERS:
Elizabeth MackHelen AugareLinda Different Cloud-JonesDavid DominiqueHelene Quiver GaddieRose HoneyAngayuqaq KawagleyMelissa Little Plume-WeatherwaxLisa Lone FightGene MeierPete TachiniJames Rattling LeafElvin Returns from ScoutBonnie Sachatello-SawyarHi'ilani ShibataShelly ValdezRachel Wippert
The Exploratorium comes together with the Education Development Center, Inverness Research, TERC, the University of Colorado - Boulder, and the University of Washington to form a Research+Practice (R+P) Collaboratory. The Collaboratory seeks to address and reframe the gap between research and practice in K-12 STEM education. This gap persists despite decades of work by many leading organizations, associations, and individuals. Attempts to close the gap have generally focused on creating resources and mechanisms that first explain or illustrate "what research says" and then invite educators to access and integrate findings into practice. Recently, however, attention has turned to the ways in which the medical sciences are addressing the gap between research and clinical practice through the developing field of "translational research." In medicine, the strategy has been to shift the focus from adoption to adaptation of research into practice. Implicit in the notion of adaptation is a bi-directional process of cultural exchange in which both researchers and practitioners come to understand how the knowledge products of each field can strengthen the professional activities in the other. Along these lines, the R+P Collaboratory is working with leading professional associations and STEM improvement efforts to leverage their existing knowledge and experience and to build sustainable strategies for closing the gap. The R+P Collaboratory is developing an online 'Go-To' Resource Center website that houses the resources collected, created, and curated by the Collaboratory. The Resource Center also has significant 'Take-Out' features, with all materials meta-tagged so that they can be automatically uploaded, reformatted, and integrated into the existing communication and professional development mechanisms (e.g., newsletters, digests, conferences, and websites) of a dozen leading professional associations within a Professional Association Partner Network. In light of new and emerging standards in the STEM disciplines, the Collaboratory is focusing its work on four salient and timely bodies of research: (a) STEM Practices, (b) Formative Assessment, (c) Cyberlearning, and (d) Learning as a Cross-Setting Phenomenon. Special emphasis is being placed on research and practice that focuses on the learning of children and youth from communities historically underrepresented in STEM fields.