The article presents the makerspaces in libraries where informal, collaborative learning can occur through hands-on creation using any combination of technology, industrial arts and fine arts not readily available for home use. It cites the underlying goal of a makerspace to encourage innovation and creativity via the use of technology and offer a place where everything can be nurtured. It notes a growing interest in design thinking afforded by makerspaces.
The article provides information for the development of a partnership between traditional science classrooms and Informal Science Institutions (ISIs). Topics include popular forms of ISIs, such as zoos, libraries, and government agencies, guidance for choosing an ISI to partner with, and implementing ISI resources in the classroom. Suggestions for steps to take before, during, and after arranging a school field trip to an ISI are also provided.
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
In 2007, Carnegie Corporation of New York joined with the Institute for Advanced Study to create a commission, comprised of some of our nation’s most distinguished mathematicians, scientists, educators, scholars, business leaders, and public officials, to assess not only the current state of math and science education in the U.S. but also how to enhance the capacity of our schools and universities to generate innovative strategies across all fields that will increase access to high-quality education for every student in every classroom.
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TEAM MEMBERS:
Carnegie Corporation and the Institute for Advanced Study
WaterBotics is the underwater robotics curriculum and program that is being disseminated to four regions through a National Science Foundation grant, in collaboration with national and state partners. Its goal is to provide hands-on experiences for middle and high school age youth to engineering design, information technology tools, and science concepts, and to increase awareness and interest in engineering and IT careers. The curriculum, which can be used either in traditional classroom settings or in after-school and summer-camp situations, is problem-based, requiring teams of students to work together to design, build, test, and redesign underwater robots, or “bots” made of LEGO® and other components. Students use the NXT and LEGO Mindstorms® software to program their robots to maneuver in the water, thereby gaining valuable experience with computer programming. Teams must complete a series of increasingly sophisticated challenges which culminates with a final challenge that integrates learning from the prior challenges.
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TEAM MEMBERS:
Stevens Institute of TechnologyMercedes McKayPatricia Holahan
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 SchoolNicole YohalemAndrew Shouse
Art history images essential for teaching art history and art appreciation courses at institutions of higher education are important for universities' stakeholders (students, faculty and staff, local museums, and the neighbouring community). Digital images displayed on the Web sites of universities worldwide are generally made available through digitizing slide collections, subscribing to digital libraries of art history images, making use of faculty's personal images and using university library catalogues. When creating a collection of art history images, Russian universities are severely
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TEAM MEMBERS:
Inna KizhnerTatiana KochevaAnna KoulikovaRaissa LozhkinaEugenia Popova
Many teachers are unsure about how to best utilize museum educational resources. They do not think that approaches and strategies from informal learning environments apply to classroom settings (Melber & Cox-Peterson, 2005). Yet studies have shown that simple solutions such as exhibit orientation and conducting pre and post-visit activities to supplement a field trip can help students have a richer learning experience (Gilbert & Priest, 1997; Anderson & Lucas, 1997). The current study explores the affect of making relevant findings from informal learning research explicit to pre-service
Archaeology education activities in informal science learning settings are an underutilized, but effective strategy for teaching science inquiry skills in socially and culturally relevant contexts. This project investigated the potential for archaeological content and inquiry strategies to help informal science learning institutions increase learning with diverse ISE audiences. The project was based on foundational research for the development of a national research framework for archaeology education and a plan for developing high-quality science learning opportunities for under-represented
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TEAM MEMBERS:
Michael BrodyJohn FisherJeanne MoeHelen Keremedjiev
In the United States, African Americans are underrepresented in science careers and underserved in pre-collegiate science education. This project engaged African American elementary students in culturally relevant science education through archaeology and thereby increased positive dispositions toward science. While imagining what the lives of their ancestors were like, students practiced scientific inquiry and used natural sciences to analyze archaeological sites. The project helped to improve science literacy among African American elementary students through archaeological inquiry and
Across the country many schools and communities are trying to create and support efforts to institutionalize partnerships for learning, including those that rethink the use of time across the school day and year, and across the developmental continuum. These partnerships are not merely transactional in nature but rather transformative: partnering entities work together to integrate and complement their services with the shared goal of supporting children’s learning. Referred to by different terms—integrated, expanded, or complementary learning—the concept has one critical element in common