Informal STEM learning experiences (ISLEs), such as participating in science, computing, and engineering clubs and camps, have been associated with the development of youth’s science, technology, engineering, and mathematics interests and career aspirations. However, research on ISLEs predominantly focuses on institutional settings such as museums and science centers, which are often discursively inaccessible to youth who identify with minoritized demographic groups. Using latent class analysis, we identify five general profiles (i.e., classes) of childhood participation in ISLEs from data
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TEAM MEMBERS:
Remy DouHeidi CianZahra HazariPhilip SadlerGerhard Sonnert
Science identity has been shown to be a necessary precondition to academic success and persistence in science trajectories. Further, science identities are formed, in large part, due to the kinds of access, real or perceived, that (racialized) learners have to science spaces. For Black and Latinx youth, in particular, mainstream ideas of science as a discipline and as a culture in the US recognize and support certain learners and marginalize others. Without developing identities as learners who can do science, or can become future scientists, these young people are not likely to pursue careers in any scientific field. There are demonstrable links between positive science identities and the material and social resources provided by particular places. Thus, whether young people can see themselves as scientists, or even feel that they have access to science practices, also depends on where they are learning it. The overarching goal of this project is to broaden participation of Black and Latinx youth in science by deepening our understanding of both science identities and how science learning spaces may be better designed to support the development of positive science identities of these learners. By deepening the field’s knowledge of how science learning spaces shape science identities, science educators can design more equitable learning spaces that leverage the spatial aspects of program location, culturally relevant curriculum, and participants’ lived experiences. A more expansive understanding of positive science identities allows educators to recognize these in Black and Latinx learners, and direct their continued science engagements accordingly, as positive identities lead to greater persistence in science. This project is a collaboration between researchers at New York University and those at a New York City informal science organization, BioBus. It is funded by the Advancing Informal STEM Learning (AISL) Program which seeks to advance new approaches to, and evidence-based understanding of, the design and development of STEM learning in informal environments.
This participatory design research project will compare three different formats, in different settings, of afterschool science programming for middle schoolers: one located in a lab space on the campus of a nearby university, one located in the public middle school building of participating students, and one aboard a mobile science lab. For purposes of this study, the construct of “setting” refers to the dimensions of geographic location, built physical environment, and material resources. Setting is not static, but instead social and relational: it is dynamically (co)constructed and experienced in activity by individuals and in interaction by groups of individuals. Therefore, the three BioBus programming types allow for productive comparison not only because of their different geographic locations, built environments, and material resources (e.g., scientific tools), but also the existing relationships learners may have with these places, as well as the instructional designs and pedagogical practices that BioBus teaching scientists use in each. This project uses a design-based research approach to answer the following research questions: (1) How do the settings of science learning shape science identity development? What are different positive science identities that may emerge from these relationships? And (2) What are ways to leverage different spatial aspects of informal science programming and instruction to support positive science identities? The study uses ethnographic and micro-analytic methods to develop better understandings of the relationships between setting and science identity development, uncover a broad range of types of positive science identities taken up by our Black and Latinx students, and inform informal science education to design for and leverage spatial aspects of programming and instruction. Findings will contribute to a systematic knowledge base bringing together spatial aspects of informal science education and science identity and identity development, and provide new tools for informal science educators, including design principles for incorporating spatial factors into program and lesson planning.
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TEAM MEMBERS:
Jasmine MaLatasha WrightRoya Heydari
This poster was presented at the annual meeting of the National Association for Research in Science Teaching (NARST) in Atlanta, GA. It discusses how cogenerative dialogues (cogens) might serve as a tool to dissolve emotional breakdowns in a project-based learning (PBL) science internship.
This paper was presented at the annual meeting of the National Association for Research in Science Teaching, NARST, Chicago, IL. It describes findings from the Work With a Scientist Program (WWASP), which engages scientists and high school students in cogenerative dialogues.
This poster was presented at 2017 Campus Office of Undergraduate Research Initiatives (COURI) Symposium, El Paso, TX.
One of the principal challenges of the partnership of scientists and high school students are the existent barriers of language between them (Kim & Fortner, 2007). In other words, since scientists are usefully deemed as characters with higher power, status, and knowledge, students may feel nervous or intimidated, especially when scientists speak jargons and complex language. The best educators have a magical way of engaging their audiences with compelling stories. Even the
This poster was presented at 2017 Campus Office of Undergraduate Research Initiatives (COURI) Symposium, El Paso, TX.
Purpose & Problem - According to some existing results identified in the literature, the partnership between high school students and scientist involves several challenges, such as time management, lack of equipment, communication barriers, organization, complexity of the scientific language and scientist availability. The purpose is to address these problems and identify effective ways that can enhance the partnership between the scientist and high school students during
This poster was presented at 2017 Campus Office of Undergraduate Research Initiatives (COURI) Symposium, El Paso, TX.
This study introduces cogenerative dialogues as a pedagogical tool to enhance the communications between students and engineers in a university internship environment. High school student interns worked with engineers for 7 months and were invited to conduct cogenerative dialogues with engineers regularly and discuss any issues, concerns, positives happened in the internship in order to improve their learning experience.
This poster was presented at 2017 Campus Office of Undergraduate Research Initiatives (COURI) Symposium, El Paso, TX. It describes the Work With a Scientist (WWASP) program, in which scientists and high school students engage in co-generative dialogues.
This poster was presented at the 2017 Annual Meeting of the American Educational Research Association, AERA, San Antonio, TX.
The Next Generation Science Standards (NGSS Lead States, 2013) emphasize that K–12 science education should reflect real-world interconnections in science and focus on deeper understanding and application of content. One effective way to help students learn to apply science is to invite them to work with scientists on authentic scientific projects. Internship programs designed for students to work with scientists have been suggested as one of the most productive
This summative evaluation report focuses on the impact that the Working with a Scientist Program at the University of Texas at El Paso (UTEP) had on its student participants. Student participants were recruited from regional high schools that are categorized as Title I schools, due to the large population of low income students that they serve. The participants engaged in mentored research activities a UTEP every other Saturday during the spring semester and on weekdays during the summer. Their mentors were professional scientists from different STEM disciplines, such as Chemistry, Immunology
This report comprises the third part of a 4-year evaluation assessing the impact of the Working with a Scientist Program (WWASP) at the University of Texas at El Paso (UTEP) had on its student-participants. This report includes an assessment of the program’s impact on the third cohort of student-participants. To assess the students’ overall performance, several measures were used. First, a review of participant’s academic performance before and after their involvement in the program was conducted. Second, the impacts that the programs’ cogenerative dialogues (cogens) had in the third cohort of
This report is part of a four-year evaluation assessing the impact of the Working with a Scientist Program (WWASP) at the University of Texas at El Paso (UTEP) had on its student-participants. This report includes an assessment of the impact on the first two cohorts of student-participants. This program selected participants from local high schools to take part in research activities for the spring and summer semester. To assess the students’ overall performance, several measures were used. First, a review of participant’s academic performance before and after their involvement in the program
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TEAM MEMBERS:
Lizely Madrigal-GonzalezGuadalupe Corral