The lack of diversity in the clinician-scientist workforce is a “very serious concern to the NIH” and to health care professions. Current efforts to broaden participation in STEM fields typically target high school and college-age students. Yet, history and national trends suggest that these efforts alone will not result in rapid or significant change because racial and ethnic disparities are already evident by this time. Children are forming career preferences as early as elementary school, a time when they have little exposure to science and STEM career options. The overall vision of this team is to meet the nation’s workforce goal of developing a diverse, clinician-scientist workforce while meeting the nation’s STEM goals. As a step toward this vision, the goal of This Is How We “Role” is to inspire elementary school students towards careers as clinician-scientists by increasing the number of K-4 students with authentic STEM experiences.
This goal will be attained through two specific aims. The focus of Aim 1 is to distribute and evaluate a K-4 afterschool program across the diverse geographic regions of the US, to support the development of a robust and diverse clinician-scientist workforce. Aim 2 is focused on developing the community resources (afterschool program curriculum, informational books and online certificate program) for promoting health science literacy and encouraging careers in biomedical and clinical research for K-4 students from underserved and underrepresented communities. Combined, these aims will enhance opportunities for young children from underserved communities to have authentic STEM experiences by providing culturally responsive, afterschool educational programs which will be delivered by university student and clinician-scientist role models who are diverse in gender, race, and ethnicity.
Books and an online certificate program about health issues impacting people and their animals (i.e. diabetes, tooth decay) will be developed and distributed to children unable to attend afterschool programs. Further, by engaging veterinary programs and students from across the US, along with practicing veterinarians, this program will examine whether the approaches and curriculum developed are effective across the diverse communities and geographic regions that span the country. Elementary school teachers will serve as consultants to ensure that educational materials are consistent with Next Generation Science Standards, and will assist in training university students and clinician-scientists to better communicate the societal impact of their work to the public.
The program will continue to use the successful model of engaging elementary school students in STEM activities by using examples of health conditions that impact both people and their animals. Ultimately, this project will educate, improve the health of, and attract a diverse pool of elementary school students, particularly those from underserved communities, to careers as clinician-scientists.
This poster was presented at the 2016 Advancing Informal STEM Learning (AISL) PI Meeting held in Bethesda, MD on February 29-March 2. The United States is facing a crisis: not enough students are being trained in the areas of science, technology, engineering and mathematics (STEM) to support and foster economic growth. In response, the State University of New York (SUNY) and the New York Academy of Sciences (The Academy) are collaborating to train SUNY graduate students and post-doctoral fellows to deliver mentoring and STEM content to underserved middle-school children in afterschool programs
A recent article published in Science Communication addresses the training issue in issue in our discipline. Henk Mulder and his colleagues discuss the shared features that university curricula should or could have to favour the full admission of science communication into the academic circle. Having analysed analogies and differences in the curricula that a number of schools provide all over the world, the authors reached the conclusion that much remains to be done. Science communication seems far from having found shared fundamental references, lessons that cannot be missed in the practical
The ever-changing nature of academic science communication discourse can make it challenging for those not intimately associated with the field ― scientists and science-communication practitioners or new-comers to the field such as graduate students ― to keep up with the research. This collection of articles provides a comprehensive overview of the subject and serves as a thorough reference book for students and practitioners of science communication.
Project TRUE seeks to increase the interest of high school students in pursuing science, technology, engineering and mathematics majors by increasing participants’ exposure to urban ecology research conducted with college mentors. The Lifelong Learning Group is conducting research that explores the program’s longer-term influence on academic and career choices. More specifically, the research addresses the question: How do the four key elements of youth development in Project TRUE contribute to pursuit of advanced STEM study and career path in the short- and medium-term? This report presents
The primary goal of Project TRUE is to increase the interest of high school students in pursuing science, technology, engineering, and mathematics (STEM) majors, by increasing their exposure to urban ecology research conducted with college mentors. Project TRUE also establishes a research and education partnership between the Wildlife Conservation Society (WCS) and Fordham University, to implement and evaluate the effectiveness of a tiered mentorship educational model. The model leverages both formal (Fordham) and informal (WCS) educational practices and expertise. This evaluation report from
A survey was conducted during the University of Manchester’s 2014 ‘Science Extravaganza’, which saw the participation of over 900 Key Stage 3 (ages 11–14) students in a range of interactive demonstrations, all run by active University researchers. The findings of this study suggest that a new approach is necessary in order to use these large science events to actively engage with school students about the career opportunities afforded by science subjects. Recommendations for such an approach are suggested, including the better briefing of researchers, and the invitation of scientists from
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TEAM MEMBERS:
Sam IllingworthEmma LewisCarl Percival
U.S. strength in science, technology, engineering, and mathematics (STEM) disciplines has formed the basis of innovations, technologies, and industries that have spurred the nation’s economic growth throughout the last 150 years. Universities are essential to the creation and transfer of new knowledge that drives innovation. This knowledge moves out of the university and into broader society in several ways – through highly skilled graduates (i.e. human capital); academic publications; and the creation of new products, industries, and companies via the commercialization of scientific
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TEAM MEMBERS:
National Academies of Sciences, Engineering, and Medicine
For decades, K–12 science education researchers have echoed the need for inquiry-based teaching approaches to connect students to real scientists and science environments (AAAS 1989; NRC 1996, 2007). The Next Generation Science Standards (NGSS) amplify these needs by stressing the importance of student-developed conceptual models to explain real-world phenomena and coherent integration of authentic science practices, concepts, and core ideas across grade levels (NRC 2012; NGSS Lead States 2013).
In this article, we invite you to expand your vision of what it means to work at the intersections of formal and informal science and literacy education by describing how educators have collaborated to create programs that blend science and literacy in schools, in museums, and across these two spaces. In 2012, K–12 teachers from the National Writing Project (NWP) began working with the Association of Science-Technology Centers (ASTC) and science museum educators in the National Science Foundation–funded Intersections project, which is being evaluated by Inverness Research. NWP is a network
The Masters (MSc) in Science Communication at Dublin City University (Ireland) draws on expertise from several disciplines in human and physical sciences. The programme takes a broad view of communication that includes the various kinds of interaction between institutions of science and of society, as well as the diverse means of exchanging information and ideas. Nearly 200 students from a wide variety of backgrounds have completed the programme since its start in 1996, and they work in many different types of employment, from information and outreach services, to science centres, to
Within the UNAM (The National Autonomous University of Mexico) there is an institution, the Dirección General de Divulgación de la Ciencia (DGDC) devoted to the popularization of science through different media such as museums, exhibitions, journals, books, radio and TV programs, internet, workshops for children, demos, shows, plays, summer courses and outreach programs. Most of these products and materials are planned, designed and manufactured by a multidisciplinary team of professionals in the DGDC. Some of our most outstanding projects are: the creation and operation of two science museums