This Masters project consists of two elements: 1) an integrated after-school program to improve student English language reading and academic outcomes for third graders' vocabulary development by incorporating music, artistic creativity and linguistics; 2) a pilot sample curriculum that demonstrates the approach for building student comprehension through musical theater and Science, Technology, Engineering, and Mathematics (STEM) content experiences. Called "Water Buddy", this is an after-school program uses singing, dancing, writing, and play to build reading and vocabulary skills. The goal
Informal learning institutions, such as museums, science centers, and community-based organizations, play a critical role in providing opportunities for students to engage in science, technology, engineering, and mathematics (STEM) activities during out-of-school time hours. In recent years, thousands of studies, evaluations, and conference proceedings have been published measuring the impact that these programs have had on their participants. However, because studies of informal science education (ISE) programs vary considerably in how they are designed and in the quality of their designs, it
Nature-based playgrounds—known as playscapes—offer numerous opportunities for young children to learn about nature. In the current study, we focus on teacher talk on playscapes, namely to capture the spontaneous utterances teachers offer when engaging with young children during playscape visits. Two different playscapes were contrasted, both of which featured loose parts, native plants, and running water. The difference in playscape was whether it featured ecosystems: While the rural playscape had a natural forest and a wetland, the urban playscape had a man-made stream and a garden. Ten
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TEAM MEMBERS:
Heidi KloosCatherine MaltbieRhonda BrownVictoria Carr
The nature of the learning that occurs with real versus replicated objects and environments is an important topic for museums and science centers. Our comparative, exploratory study addressed this area through an investigation of family visits to two different settings: an operating permafrost research tunnel, and a replica of this permafrost tunnel at a science center. We conducted and analyzed family interviews, grounding our work in the Contextual Model of Learning and ideas about sensory components of learning. We found significant differences between the real and replicated environments
Informal learning institutions (ILIs) create opportunities to increase public understanding of science and promote increased inclusion of groups underrepresented in Science, Technology, Engineering, and Math (STEM) careers but are not equally distributed across the United States. We explore geographic gaps in the ILI landscape and identify three groups of underserved counties based on the interaction between population density and poverty percentage. Among ILIs, National Park Service lands, biological field stations, and marine laboratories occur in areas with the fewest sites for informal
With support from the National Science Foundation, the STEM Effect project was undertaken in partnership by staff from the Education Development Center, the National Girls Collaborative Project (NGCP) and the Intrepid Sea, Air & Space Museum. Through a variety of methods, the project convened representatives from cultural institutions (museums, science centers, zoos, botanical gardens and aquaria) from across the country which provide STEM programming aimed at increasing the participation of girls and women in science, technology, engineering and mathematics (STEM), along with researchers, and
There is a vein of democratic idealism in the work of science museums. It is less about political democracy than epistemological democracy. As a one-time museum educator and a researcher who studies science museums, I have always thought of it in terms of an unspoken two-part motto: “see for yourself–know for yourself.” Although this strain of idealism has remained constant throughout the history of science museums, it has been interpreted differently in different eras, responding (in part) to the social upheavals of the day. In the late 1960s, for example, a new generation of self-described
Science learning occurs throughout people's lives, inside and outside of school, in formal, informal, and nonformal settings. While museums have long played a role in science education, learning in this and other informal settings has not been studied nor understood as deeply as in formal settings (i.e., schools and classrooms). This position paper, written by learning researchers in a science museum engaged in equity and access work, notes that while the researchers consider the ethics of their work regularly and deeply, little formal guidance exists for the ethical challenges they routinely
This paper examines the differences and challenges encountered when trying to create informal blended (virtual and hands-on) engineering design STEM activities. It contrasts the creation of STEM activities for formal and informal learning environments, stressing that the differences extend far beyond the length of the activity or depth of any learning goals. The discussion begins with an examination of differences between the two learning environments that need to be taken into consideration. These differences include the physical environments, organizational structures, and the goals or
As an emerging field of theory, research, and practice, STEAM (Science, Technology, Engineering, Arts and Mathematics) has received attention for its efforts to incorporate the arts into the rubric of STEM learning. In particular, many informal educators have embraced it as an inclusive and authentic approach to engaging young people with STEM. Yet, as with many nascent fields, the conceptualization and usage of STEAM is somewhat ambivalent and weakly theorized. On the one hand, STEAM offers significant promise through its focus on multiple ways of knowing and new pathways to equitable
Ideas and expectations about professions and about the process of becoming a professional are changing. Once defined largely by licenses or certificates, many fields of work are looking for more decentralized ways to determine what is a profession, and who is a professional. Many are turning to more decentralized ideas about professions and self-directed processes for lifelong professional learning. An increasing number of fields are using competency frameworks as one mechanism to guide professionalization without standardizing the preparation of those who work in the field. Research is needed
Developmental perspectives on prejudice provide a fundamental and important key to the puzzle for determining how to address prejudice. Research with historically disadvantaged and advantaged groups in childhood and adolescence reveals the complexity of social cognitive and moral judgments about prejudice, discrimination, bias, and exclusion. Children are aware of status and hierarchies, and often reject the status quo. Intervention, to be effective, must happen early in development, before prejudice and stereotypes are deeply entrenched.