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
The Virginia Air and Space Center will enhance its Space Gallery exhibit and increase its capacity to deliver high-quality, high-impact STEM programming. The museum will purchase, adapt, and install three interactive, digital exhibits that will complement existing displays and enhance visitors’ overall experiences. The digital exhibits will include a moon lander that users can pilot; a simulated Mars rover and micro-copter that will allow guests to navigate a Martian atmosphere and surface; and a stellar playground where users can build their own solar system through an intuitive touch-interface that incorporates planets, stars, violent supernovas, black holes, and other space oddities. The project team will develop new curricula related to the exhibits to use with school groups and summer camps.
The Cleveland Museum of Natural History will implement “SLAM Dunk,” a multidisciplinary initiative centered around Dunkleosteus terrelli, the largest predator and one of the fiercest creatures alive in the Devonian “Age of Fishes,” and for which the museum hold the best-preserved fossils. Each East Cleveland City Schools Kindergarten, 1st grade, and 2nd grade class will visit the museum for extended programming twice each school year. Museum educators will visit classrooms three times each school year. Museum staff will work with East Cleveland teachers on professional development offerings to increase teachers’ comfort level working with science content. Each school will receive an Educator Resource Center membership along with books and STEM materials. The museum will organize a family day at the museum each spring and provide scholarships for rising 3rd grade students to attend the museum’s week-long summer camps.
For nearly 20 years, the UAB Center for Community OutReach Development (CORD) has conducted SEPA funded research that has greatly enhanced the number of minority students entering the pipeline to college and biomedical careers, e.g., nearly all of CORD’s Summer Research Interns since 1998 (>300) have completed/are completing college and most of them are continuing on to graduate biomedical research and/or clinical training and careers. CORD’s programs that focused on high and middle school students have drawn many minority students into biomedical careers, but a low percentage of minority students benefit from these programs because far too many are already left behind academically in grades 4-6, due, at least in part, to a significant drop in science grades between grades 4 and 6, a drop from which most students never recover. A major contributor to this effect is that most grade 4-6 teachers in predominantly minority schools lack significant formal training in science and often are not fully aware of the great opportunities offered by biomedical careers.
In SEEC II, CORD will deliver intensive inquiry-based science training to grade 4-6 teachers, providing them with science content and hands-on science experiences that will afford their student both content and skills that will make them excited about, and competitive for, the advanced courses needed to move into biomedical research careers. SEEC II will also link teachers together across the elementary/middle school divide and bring the teachers together with administrators and parents, who will experience firsthand the excitement that inquiry learning brings and the significant advancement it provides in science and in reading and math. At monthly meetings and large annual celebrations, the parents, teachers and administrators will learn about the opportunities that biomedical careers can provide for the student who is well prepared. They will also consider the financial and educational steps required to ensure that students have the ability to reach these professions.
SEEC II will also expand CORD’s middle school LabWorks and Summer Science Camps to include grade 4-5 students and provide the teachers with professional learning in informal settings. During summer training, in small groups, the teachers will expand one of the inquiry-based science activities that they complete in the training, and they will use these in their classrooms and communicate with the others in their group to perfect these experiences in the school year. Finally, the teachers and grade 4-5 students will develop science and engineering fair-type research projects with which they will compete both on the school level and at the annual meeting. Thus, the students will share with their parents the excitement that science brings. The Intellectual Merit of SEEC II will be to test a model to enhance grade 4-6 teacher development and vertical alignment, providing science content, exposure to biomedical scientists and training in participatory science experiments, thus positioning teachers to succeed. The Broader Impacts will include the translation and testing of a science education model to assist minority students to avoid the middle school plunge and reach biomedical careers.
The PEAR Institute: Partnerships in Education and Resilience at McLean Hospital and Harvard Medical School conducted a year-long study of the Tulsa Regional STEM Alliance (TRSA). Funded by the Overdeck Family Foundation, STEM Next Opportunity Fund, and the Charles and Lynn Schusterman Family Foundation, this study is the first of its kind among 68 national and international STEM Ecosystems.
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TEAM MEMBERS:
Kristin Lewis-WarnerPatricia AllenGil Noam
An in-depth case study of one of America’s first STEM Learning Ecosystems in Tulsa, Oklahoma, conducted by researchers at The PEAR Institute: Partnerships in Education and Resilience, finds that strong leadership, deep partnerships, and data-informed methods have led to the creation of diverse, high-quality, STEM-rich learning opportunities for Tulsa’s youth. Additionally, these efforts improved the capacity of STEM educators through high-quality professional development and supported youth pathways to STEM careers by increasing mentoring opportunities for STEM professionals.
These findings
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TEAM MEMBERS:
Kristin Lewis-WarnerPatricia AllenGil Noam
This Conference Paper was presented at the International Soceity for the Learning Sciences Confernece in June 2018. We summarize interviews with youth ages 9-15 about their failure mindsets, and if those midsets cross boundaries between learning environments.
Previous research on youth’s perceptions and reactions to failure established a view of failure as a negative, debilitating experience for youth, yet STEM and in particular making programs increasingly promote a pedagogy of failures as productive learning experiences. Looking to unpack perceptions of failure across contexts and
This position paper, co-authored Center for Childhood Creativity's Director Elizabeth Rood and Director of Research Helen Hadani, details the importance of exposing children ages 0-8 to science, technology, engineering, and math (STEM) experiences. The review of more than 150 empirical studies led Rood and Hadani to conclude that, despite what has been previously thought, modern research supports the understanding that children are capable of abstract thinking and STEM-learning from infancy, beginning before their first birthday.
The Roots of STEM Success, authored in support of classroom
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TEAM MEMBERS:
Helen Shwe HadaniElizabeth RoodAmy EisenmannRuthe FousheeGarrett JaegerGina JaegerJoanna KauffmannKatie KennedyLisa Regalla
The Science Museum of Minnesota (SMM) leverages a professional educator team (“instructors”) comprised of about two dozen individuals who facilitate both formal and informal educational programming in the museum, in K–12 classrooms, and at community-based sites. The experienced instructors of SMM’s Lifelong Learning Group bring innovative programs to both students and their teachers. Recognizing that long-term experiences can have a profound impact on students and teachers, SMM works to develop multiyear relationships based on collaboration. This article focuses primarily on SMM’s well
This project will advance efforts of the Innovative Technology Experiences for Students and Teachers (ITEST) program to better understand and promote practices that increase students' motivations and capacities to pursue careers in fields of science, technology, engineering, or mathematics (STEM) by producing empirical findings and/or research tools that contribute to knowledge about which models and interventions with K-12 students and teachers are most likely to increase capacity in the STEM and STEM cognate intensive workforce of the future.
The LinCT (Linking Educators, Youth, and Learners in Computational Thinking) project at the Science Museum of Minnesota (SMM) will engage female teachers-in-training and youth from underrepresented demographics in immersive technology experiences and STEM education. LinCT will guide teachers to develop their understanding and use of technology in the classroom, as well as prepare youth for a future where technology plays a key role in a wide range of professional opportunities. The project aims to inspire teachers and youth to see the possibilities of technological competencies, as well as why the incorporation of technology can build meaningful learning experiences and opportunities for all learners. The LinCT program model offers learning and application experiences for participating teachers and youth and provides an introduction of technological tools used in SMM educational programs and professional development on approaches for engaging all learners in STEM. Both groups will provide instruction in SMM technology-based Summer Camps, reaching 1,000 young people every year. In each following school year, project educators will develop and deliver technology-based programs to nearly 1,000 under-served and underrepresented elementary students. The project will allow teachers and youth to deliver exciting and engaging technology-based programs to nearly 4,000 diverse young learners. As a result, all participants in this project will be better equipped to incorporate technology in their future careers.
The LinCT project will investigate effective approaches for broadening the participation of underrepresented populations by providing female pre-service teachers and female youth with opportunities to lead programming at the Science Museum of Minnesota (SMM). Over three years, the LinCT project will employ 8-12 female teachers-in-training [Teacher Tech Cadres (TTC)] and 12-24 female youth [Youth Teaching Tech Crews (Y-TTC)] from demographics that are underrepresented in STEM fields. The integration of these groups will result in relationships fostered within an educational program, where all participants are learners and teachers, mentors and mentees. The results of this unique program model will be assessed through the experiences of this focused professional learning and teaching community. The LinCT research study will focus on three aspects of the project. First, it will seek to understand how the teachers-in-training and youth experience the project model's varied learning environments. Next, the study will explore how the TTC's and the Y-TTC's motivation, confidence, and self-efficacy with integrating technology across educational settings change because of the program. Finally, the study will seek to understand the lasting aspects of culture, training, and community building on SMM's internal teams and LinCT partner institutions (University of St. Catherine's National Center for STEM Elementary Education and Metropolitan State University's School of Urban Education).
To date, no national studies of science-focused out-of-school time (OST) programs have been implemented, making it difficult to get a sense of program diversity and characteristics. In this paper, Laursen, Thiry, Archie, and Crane map the national landscape of U.S. OST science, technology, and engineering programs. The findings allow the authors to describe a generalized profile for each of eight types of OST program providers.
As part of a grant from the National Science Foundation, the National Federation of the Blind (NFB) is conducting regional STEM workshops in partnership with local science museums, entitled NFB STEM2U, for blind youth [youth], grades 3 – 6 and 9-12. During this second regional workshop in Boston, the NFB operated two different programs simultaneously: one program for youth, and a second program for their parents/caregivers. A third program, for Boston Museum of Science staff, was conducted earlier to prepare the museum staff to assist with the youth program. A separate report will discuss the