The Kaulele Kapa Exhibit was created to explore the effectiveness of a Hawaiian culture-based framework and approach in increasing learner engagement and depth of knowledge in STEM among Native Hawaiian/Pacific Islander (NHPI) learners. The exhibit utilized hands-on and interactive activities, coupled with scientific and cultural information, to create relevant learning experiences for these communities. To determine the effectiveness, exhibit attendees were invited to complete a survey that asked about how the exhibit influenced their interest and understanding of STEM and Hawaiian culture
This review examines how natural history museums (NHMs) can enhance learning and engagement in science, particularly for school-age students. First, we describe the learning potential of informal science learning institutions in general, then we focus on NHMs. We review the possible benefits of interactions between schools and NHMs, and the potential for NHMs to teach about challenging issues such as evolution and climate change and to use digital technologies to augment more traditional artefacts. We conclude that NHMs can provide students with new knowledge and perspectives, with impacts
Advances in technology, science, and learning sciences research over the past 100 years have reshaped science education. This chapter focuses on how investigators from varied fields of inquiry who initially worked separately began to interact, eventually formed partnerships, and recently integrated their perspectives to strengthen science education. Advances depended on the broadening of the participants in science education research, starting with psychologists, science discipline experts, and science educators; adding science teachers, psychometricians, computer scientists, and sociologists
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Marcia LinnLibby GerardCamillia MatukKevin Mcelhaney
The University of Montana will create “Transforming Spaces” to foster a more inclusive, culturally responsive space for Missoula’s urban Indian population and to better meet the community’s needs. The project will explore cross-cultural, collaborative approaches to STEM and Native Science. In collaboration with Montana’s tribal communities, the museum’s education team and advisory groups will design and implement hands-on activities that engage visitors with Native Science. The project will engage tribal role models and partner with tribal elders to create a library of videos for tribal partners, K–12 schools, and organizations. The project will offer teachers professional development designed to fulfill the statewide mandate of Indian Education for All. The exhibit will connect Native and non-Native museum visitors, close opportunity and achievement gaps, and ensure that all Missoula children feel a sense of belonging in museums, higher education, and STEM.
The Michigan Science Center will purchase a portable planetarium that will bring planetarium shows to more than 2,000 children through its Traveling Science Program. The museum plans to take the programs to 10 schools and 8 libraries in Metro Detroit and 6 libraries in northern Michigan. They will deliver the portable planetarium shows in coordination with the museum’s long-standing “Scopes in the City” program, which allows people to use telescopes to see the night sky. The program also will expose students to Michigan’s growing aerospace industry and help increase their interest in earth and space science.
The University of Montana spectrUM Discovery Area will implement “Making Across Montana” —a project to engage K–12 students and teachers in rural and tribal communities with making and tinkering. In collaboration with K–12 education partners in the rural Bitterroot Valley and on the Flathead Indian Reservation, the museum will develop a mobile making and tinkering exhibition and education program. The exhibition will be able to travel to K–12 schools statewide. The project team will develop a K–12 teacher professional development workshop, along with accompanying curriculum resources and supplies. The traveling program and related materials will build schools’ capacity to incorporate making and tinkering—and informal STEM experiences more broadly—into their teaching.
The Fairchild Tropical Botanic Garden will conduct the Million Orchid Project Authentic STEM Initiative to provide inclusive and accessible STEM learning opportunities for approximately 1,800 students annually from the most diverse and under-resourced middle and K-8 schools in Miami–Dade County. The initiative will use the Fairchild's STEMLab — a mobile plant propagation lab designed especially for schoolchildren — to bring the museum’s specialized scientific research to young learners in South Florida neighborhoods. Students and teachers will collect and analyze scientific data, devise research questions, and test hypotheses that will advance local conservation and contribute to the propagation of endangered orchids. Students will have the opportunity to explore STEM careers through interactions with Fairchild botanists.
The Key West Tropical Forest and Botanical Garden will strengthen and expand its “Living Laboratory,” a hands-on outdoor youth environmental education program. New curricula will target students in preschool through 6th grade to expand the reach of the program. Additional programming will serve students in middle school and high school, including facilitating guided research projects for students in the district STEM Fair. Partnerships with local organizations will help to expand inclusive programming for at-risk and economically disadvantaged students and make the program free. They will use student-created videos of their experiments and activities to create multimedia online tutorial resources for educators.
The Arizona-Sonora Desert Museum will partner with the Flowing Wells Unified School District on “We Bee Scientists,” a program to engage students in grades K–6 in real-world science by learning about bees—the most important group of pollinators. They plan to create a curriculum and related activities aligned with the Arizona science standards. The program is an expansion of the Tucson Bee Collaborative, which empowers community scientists from “K to grey” to contribute to ecosystem health and understanding through the study of native bees. The museum also will partner with Pima Community College and the University of Arizona on the program, which will involve volunteers and high school, college, and university students in documenting the abundance and diversity of native bees.
This project is expanding an effective mobile making program to achieve sustainable, widespread impact among underserved youth. Making is a design-based, participant-driven endeavor that is based on a learning by doing pedagogy. For nearly a decade, California State University San Marcos has operated out-of-school making programs for bringing both equipment and university student facilitators to the sites in under-served communities. In collaboration with four other CSU campuses, this project will expand along four dimensions: (a) adding community sites in addition to school sites (b) adding rural contexts in addition to urban/suburban, (c) adding hybrid and online options in addition to in-person), and (d) including future teachers as facilitators in addition to STEM undergraduates. The program uses design thinking as a framework to engage participants in addressing real-world problems that are personally and socially meaningful. Participants will use low- and high-tech tools, such as circuity, coding, and robotics to engage in activities that respond to design challenges. A diverse group of university students will lead weekly, 90-minute activities and serve as near-peer mentors, providing a connection to the university for the youth participants, many of whom will be first-generation college students. The project will significantly expand the Mobile Making program from 12 sites in North San Diego County to 48 sites across California, with nearly 2,000 university facilitators providing 12 hours of programming each year to over 10,000 underserved youth (grades 4th through 8th) during the five-year timeline.
The project research will examine whether the additional sites and program variations result in positive youth and university student outcomes. For youth in grades 4 through 8, the project will evaluate impacts including sustained interest in making and STEM, increased self-efficacy in making and STEM, and a greater sense that making and STEM are relevant to their lives. For university student facilitators, the project will investigate impacts including broadened technical skills, increased leadership and 21st century skills, and increased lifelong interest in STEM outreach/informal science education. Multiple sources of data will be used to research the expanded Mobile Making program's impact on youth and undergraduate participants, compare implementation sites, and understand the program's efficacy when across different communities with diverse learner populations. A mixed methods approach that leverages extant data (attendance numbers, student artifacts), surveys, focus groups, making session feedback forms, observations, and field notes will together be used to assess youth and university student participant outcomes. The project will disaggregate data based on gender, race/ethnicity, grade level, and site to understand the Mobile Making program's impact on youth participants at multiple levels across contexts. The project will further compare findings from different types of implementation sites (e.g., school vs. library), learner groups, (e.g., middle vs. upper elementary students), and facilitator groups (e.g., STEM majors vs. future teachers). This will enable the project to conduct cross-case comparisons between CSU campuses. Project research will also compare findings from urban and rural school sites as well as based on the modality of teaching and learning (e.g., in-person vs. online). The mobile making program activities, project research, and a toolkit for implementing a Mobile maker program will be widely disseminated to researchers, educators, and out-of-school programs.
Abstract STEM education programs are often formulated with a "hands-on activities" focus across a wide array of topics from robotics to rockets to ecology. Traditionally, the impact of these programs is based on surveys of youth on program-specific experiences or the youths’ interest and impressions of science in general. In this manuscript, we offer a new approach to analyzing science programming design and youth participant impact. The conceptual framework discussed here concentrates on the organization and analysis of common learning activities and instructional strategies. We establish