As part of a grant from the National Science Foundation, the National Federation of the Blind (NFB) is conducting regional STEM workshops, entitled NFB STEM2U, for blind youth [youth], grades 3 – 6. During this first regional workshop in Baltimore, the NFB operated three different programs simultaneously: one program for youth, a second program for their parents/caregivers, and a third program for a group of teachers who work with visually impaired students. A fourth program, for Port Discovery museum staff, was conducted earlier to prepare the museum staff to assist with the youth program
Botanic gardens are popular destinations for school visits to learn about plant-based science. However, little is known about teaching and learning in such settings, in particular about school visits guided by professional botanic garden educators (BGEs). The purpose of this study was to identify the pedagogical moves of the BGEs during guided school visits. More specifically, this study follows a qualitative research design, investigating six elementary school groups (7- to 11-years old) guided by three BGEs. The guided visits were videotaped and the transcripts analyzed in order to find out
Recently, schools nationwide have expressed a renewed interest in school gardens, viewing them as innovative educational tools. Most of the scant studies on these settings investigate the health/nutritional impacts, science learning potential, or emotional dispositions of students. However, few studies examine the shifts in attitudes that occur for students as a result of experiences in school gardens. The purpose of this mixed method study was to examine a school garden program at a K-3 elementary school. Our study sought to demonstrate the value of garden-based learning through a focus on
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TEAM MEMBERS:
Carley Fisher-MalteseTimothy Zimmerman
In this paper, commissioned as part of a consensus study on successful out-of-school STEM learning, we draw on the research literature to consider (1) what is known about the impact of tinkering and making experiences on school-aged children’s learning (interest in, engagement with and understanding of STEM in particular); (2) the emerging design principles and pedagogies that characterize tinkering and making programs; and (3) the specific tensions and possibilities within this movement for equity-oriented teaching and learning.
This paper, commissioned as part of a consensus study on successful out-of-school STEM learning from the National Research Council's Board on Science Education, explores evidence-based strategies developed in out-of-school time STEM programs for successfully engaging youth from underrepresented demographics in STEM learning.
To this volume on out-of-school STEM learning, we contribute an example of science. Our charge is to discuss what it means for children to be doing science and how educators can assess it. To that end, we’ve chosen an especially clear case. It happens to have taken place in school, but that shouldn’t matter for our purpose here; it’s the substance of the children’s reasoning that we’re assessing as the beginnings of science. We open with the case. We then articulate how it is an example of science, in particular of science as a pursuit. Finally we discuss what this view means for science
Fusion Science Theater (FST) uses elements of playwriting to make informal science education more engaging as well as educational. FST shows incorporate an overarching scientific question that is asked and then answered by a series of participatory exercises and demonstrations. The shows also use “embedded assessment” of learning, which asks children to “vote their prediction” both before and after these activities. The FST National Training and Dissemination Program had three major goals: (1) To develop and implement a Performance Training Program to train professional audiences to perform
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TEAM MEMBERS:
Madison Area Technical CollegeJoanne Cantor
Mythbusters: The Explosive Exhibition is a traveling exhibit based on the popular television show. When housed at the Museum of Science and Industry, Chicago, it included a traditional, interactive free flow exhibition space followed by a live facilitated show. This paper describes results from an experimental study about the effects of the Live Show on the learning of and attitudes towards science. A pre-test was given to 333 children entering the exhibit. A post-test was given to 80 children after they walked through the free-flow portion of the exhibit and to 191 children after they watched
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TEAM MEMBERS:
Museum of Science and IndustryAaron Price
Data from 15 countries suggest that positive parental attitudes toward science are associated with higher student achievement in science. The findings also indicate that socioeconomic status has no effect on the relationship between parental attitudes and student achievement: Poorer students benefit just as much from positive parental attitudes as richer students.
Today’s standardized testing methods are too narrow for measuring 21st-century learning that occurs across time and diverse social contexts, from formal to informal and embodied to virtual. This paper uses the concept of “connected learning” to illustrate what 21st-century education involves; it then describes research methods for documenting this learning.
Researchers Maltese, Melki, and Wiebke investigated when lasting interest in STEM is sparked and how it is maintained by comparing the remembrances of adults who did and did not persist in STEM. Both groups said that they became interested in STEM early, usually by Grade 6. Those who persisted in STEM were more likely than those who did not to say that they had always been interested in STEM. Parents and teachers were early influences for those who stayed in STEM fields.
To improve science education for culturally and linguistically diverse students, schools and communities can create “mutual benefit partnerships” to identify and address local problems. Through the example of the Chicago River Project, Bouillion and Gomez illustrate how such partnerships can connect formal learning contexts with the rich ways communities experience science outside of school.