The article provides information and suggestions for coordinating a Family Science Day, an informal science event for science, technology, engineering, and mathematics (STEM) education. Suggestions include integrating art into STEM experiments to create STEAM projects, securing content experts for the event, and creating a manageable timeline.
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TEAM MEMBERS:
Sara McCubbinsBethany ThomasMichael Vetere
The article discusses a study conducted by the University of Waterloo, reported by researcher Daniela O'Neill, regarding the acquisition of knowledge by children concerning animals when a picture book is read aloud. Topics include a comparison of picture books and vocabulary books, the use of generic language used by mothers when reading aloud, and additional animal facts provided when reading either book.
The author expresses his opinion on the benefits of informal science resources and introduces article topics in this issue, which include school partnerships with local scientists, collaborations with community partners, and family science events.
Educational makerspaces (EM) and maker education (ME) have the potential to revolutionize the way we approach teaching and learning. The maker movement in education is built upon the foundation of constructionism, which is the philosophy of hands-on learning through building things. Constructionism, in turn, is the application of constructivist learning principles to a hands-on learning environment. Thus maker education is a branch of constructivist philosophy that views learning as a highly personal endeavor requiring the student, rather than the teacher, to initiate the learning process. In
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TEAM MEMBERS:
R. Steven KurtiDebby KurtiLaura Fleming
resourceresearchProfessional Development, Conferences, and Networks
The theme of ICLS 2014 is “Learning and Becoming in Practice.” By focusing on learning and becoming, we aim to foreground the ways that learning entails becoming a certain kind of person. By focusing on learning and becoming in practice, we aim to foreground the ways that learning processes are situated within different kinds of practices. Three kinds of practices encompass a range of contexts and processes in which people learn: by engaging in the epistemic practices of disciplines, by participating in sociocultural practices, and by engaging in design. Two additional practices we highlight
Afterschool programs that provide strong STEM learning experiences are making an impact on participating youth not only become excited and engaged in these fields but develop STEM skills and proficiencies, come to value these fields and their contributions to society, and -- significantly -- begin to see themselves as potential contributors to the STEM enterprise. This paper summarizes evaluation data from a selection of strong afterschool STEM programs, providing a snapshot of the types of substantive impacts afterschool programs are having on youth.
Since 2008, Natasha Ray, New Haven Healthy Start Consortium Coordinator and physician researchers from the Yale Robert Wood Johnson Clinical Scholars Program (YRWJFCSP) have partnered on a series of research projects to address maternal health issues in New Haven, CT. During these partnerships, Natasha Ray, Kenn Harris, Director of New Haven Healthy Start and community research faculty from the YRWJFCSP reflected on what they experienced as best practices in community partnered research. An opportunity arose between these two long standing research partners to gain a greater understanding of
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TEAM MEMBERS:
Natasha RayKaren Wang
resourceresearchProfessional Development, Conferences, and Networks
Presentation of a summary of the Finding FOCIS project, including research results and conceptual framework. This presentation was given at the Virginia Science Coordinators Meeting in May 2014. These slides have also been used for other professional development workshops.
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TEAM MEMBERS:
University of Virginia Main CampusRobert Tai
Based on the Department of Education's National Center for Education Statistics' most recent report, 13 percent of public school students approximately 6.4 million students were identified as having a disability or other special need and served by a federally supported special education program. Research shows that, compared to students without disabilities, students with disabilities and other special needs face additional challenges as they move through school and into adulthood. However, inclusive learning environments where students of all abilities can take part in meaningful learning
The Coalition for Science After School (CSAS) was established in 2004 in response to the growing recognition of the need for more opportunities for STEM in out-of-school time, and the increasing attention being paid to out-of-school time programs. CSAS sought to build the field of STEM in out-of-school time by uniting science education goals with out-of-school time opportunities and a focus on youth development. Over a decade of work, CSAS Steering Committee members, staff and partners advocated for STEM in out-of-school-time settings, convened STEM in out-of-school time leaders, and created
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TEAM MEMBERS:
The Coalition for Science After SchoolLeah Reisman
In 2006 the Coalition for Science After School, under a subcontract from SEDL as part of their U.S. Department of Education grant, began an investigation of the potential of out-of-school time programs as a network of early support for advanced STEM coursework, including Advanced Placement courses and their prerequisites. This undertaking responded to research findings that math and science are "critical filters," that continuation in STEM education and careers depends on opting for sequential and rigorous courses, and that young people need messages and preparation that encouraged them to
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TEAM MEMBERS:
The Coalition for Science After SchoolPatricia McClureAlberto RodriguezFrancena CummingsKaren FalkenbergErrin M. McComb
In 2006 the Coalition for Science After School, under a subcontract from SEDL as part of their U.S. Department of Education grant, began an investigation of the potential of out-of-school time programs as a network of early support for advanced STEM coursework, including Advanced Placement courses and their prerequisites. This undertaking responded to research findings that math and science are "critical filters," that continuation in STEM education and careers depends on opting for sequential and rigorous courses, and that young people need messages and preparation that encouraged them to
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TEAM MEMBERS:
The Coalition for Science After SchoolLynn Dierking