The concept of connected learning proposes that youth leverage individual interest and social media to drive learning with an academic focus. To illustrate, we present in-depth case studies of Ryan and Sam, two middle-school-age youth, to document an out-of-school intervention intended to direct toward intentional learning in STEM that taps interest and motivation. The investigation focused on how Ryan and Sam interacted with the designed elements of Studio STEM and whether they became more engaged to gain deeper learning about science concepts related to energy sustainability. The
Through a comparative case study, Sheridan and colleagues explore how makerspaces may function as learning environments. Drawing on field observations, interviews, and analysis of artifacts, videos, and other documents, the authors describe features of three makerspaces and how participants learn and develop through complex design and making practices. They describe how the makerspaces help individuals identify problems, build models, learn and apply skills, revise ideas, and share new knowledge with others. The authors conclude with a discussion of the implications of their findings for this
This working white paper begins the process of establishing a research agenda for how to use adult volunteers most effectively to engage K-12 students in STEM subjects. It does so by describing a comprehensive review of the literature, searching for articles and papers about programs designed to increase student interest, engagement, participation and academic achievement/attainment in STEM subjects.
This article from the Center for Advancement of Informal Science Education (CAISE) offers an introduction to the field of informal STEM education (ISE). It provides a brief survey of informal STEM education projects related to biology and discusses opportunities for scientists to become involved.
Research has intimated that engineering design activities can enhance students’ understanding of engineering and technology and can increase their interest in science. Few studies, however, have defined or measured this interest empirically. Dohn examined the effect of an eight-week engineering design competition on 46 sixth-grade students. His findings suggest that design tasks can indeed stimulate interest. He found four main sources of interest: designing inventions, trial-and-error experimentation, making the inventions work, and collaboration.
Through a critical ethnography, Birmingham and Calabrese Barton examined why and how a group of six middle school girls took civic action, defined as “educated action in science,” after studying green energy in an afterschool science program. The paper follows the students’ process in planning and implementing a carnival to engage their community in energy conservation and efficiency issues.
Dabney and colleagues examine the relationship between university students’ reported interest in STEM careers and their participation in out-of-school time science activities during middle and high school. The researchers examined the specific forms of OST science activities associated with STEM career interest and the correlations among those forms.
There is a growing demand from educators and policymakers for definitions, measures, and guidelines of design that capture the qualities of making as a learning process. The articles that comprise this dissertation respond to this demand, mapping the practices and perspectives of the maker community to foundational theories of the learning sciences. Theoretically, the work is based in the communities of practice framework. In adopting this approach, I am able to distinguish what making is as a learning process, through the identification of the core learning practices of the making community
The article discusses the Science, Technology, Engineering and Mathematics: Information, Technology and Scientific Literacy (STEM-ALL) for ALl Learners project of Emporia State University, Kansas. The project is an interdisciplinary program for teaching information, technology and scientific-literacy that brings STEM content into Master of Library Science curriculum. It aims to create an Information, Technology and Scientific Literacy Certificate for educators to earn across degree programs.
The article focuses on the establishment of the YOUMedia Network at Saint Public Library in Saint Paul, Minnesota. The digital learning laboratory operates within the guidelines of Hanging Out, Messing Around and Geeking Out (HOMAGO) which provides teenagers access to technology and art such as sewing machines, makerspace, and recording studios. The library partnered with Parks and Recreation Department, Saint Paul Neighborhood Network and the Science Museum of Minnesota's Youth Science Center.
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.