This is a compilation of front-end, formative, and a partial summative evaluations, and an exploratory study using the xMacroscope, a data visualization technology developed for generating data from an exhibit using data captured from visitor actions.
Many people believe that both public policy and personal action would improve with better access to “reliable knowledge about the natural world” (that thing that we often call science). Many of those people participate in science education and science communication. And yet, both as areas of practice and as objects of academic inquiry, science education and science communication have until recently remained remarkably distinct. Why, and what resources do the articles in this special issue of JRST give us for bringing together both the fields of practice and the fields of inquiry?
Comics are a popular art form especially among children and as such provide a potential medium for science education and communication. In an attempt to present science comics in a museum exhibit I found many science themed comics and graphic books. Here I attempt to provide an overview of already available comics that communicate science, the genre of ‘science comics’. I also provide a quick literature review for evidence that comics can indeed be efficiently used for promoting scientific literacy via education and communication. I address the issue of lack of studies about science comics and
Science and technology: these are the mainstays China wants to concentrate on in order to stabilise its future as an emerging world power. Beijing plans to have the whole, enormous Chinese population literate in the scientific field within a few years. Scientific popularization is the key to what now, due to political influences and deep social disparities, seems remote.
Nowadays, India is experiencing a widespread diffusion of science communication activities. Public institutions, non-governmental organisations and a number of associations are busy spreading scientific knowledge not only via traditional media but also through specific forms of interaction with a varied public. This report aims to provide a historical overview of the diffusion of science communication in India, illustrating its current development and its future prospects.
In this article, I review recent findings in cognitive neuroscience in learning, particularly in the learning of mathematics and of reading. I argue that while cognitive neuroscience is in its infancy as a field, theories of learning will need to incorporate and account for this growing body of empirical data.
This 2006 paper reviews the ways in which structured informal learning programs for youth have been characterized in the research literature. The paper synthesizes opportunities for and challenges to research in this domain; it categorizes programs and gives concrete examples of various program types. A proposed Vygotskian research framework is organized around key dimensions of the informal learning context, including location, relationships, content, pedagogy, and assessment.
There is a movement afoot to turn the acronym STEM—which stands for science, technology, engineering, and mathematics—into STEAM by adding the arts. Science educators have finally begun to realize that the skills required by innovative STEM professionals include arts and crafts thinking. Visual thinking; recognizing and forming patterns; modeling; getting a "feel" for systems; and the manipulative skills learned by using tools, pens, and brushes are all demonstrably valuable for developing STEM abilities. And the National Science Foundation and the National Endowment for the Arts have gotten
This report presents a project overview and findings from a formative evaluation of the Ready, Set, School prototype exhibit space at Marbles Kids Museum in Raleigh, NC. This study was conducted by museum staff in consultation with Randi Korn & Associates in May 2013.
Over a period of three weeks in October 2012, Marbles Kids Museum conducted focus groups to support the development of a new school readiness-focused exhibit space and programming. Focus groups included parents of children ages 3-5, preschool and early elementary school educators, and staff from community organizations involved in early childhood education in Wake County, NC. Focus groups addressed the following questions: (1) What does school readiness mean to you? (2) What do you envision or expect in a school readiness exhibit space? (3) What school readiness program possibilities can you
Children feed alphabet letters to a talking baby dragon, drive a New York City fire truck, paint on a six-foot art wall, and crawl through a challenge course in PlayWorks™ at the Children's Museum of Manhattan (CMOM) in New York. Manhattan’s largest public play and learning center for early childhood marries the skills that children need to succeed in kindergarten with fun stuff that kids love. The Institute of Museum and Library Services (IMLS) funded the project through a 2006 Museums for America grant to support the museum as a center of community engagement and lifelong learning. “PlayWorks™ is a joyful place for learning science, math, reading and other things. We incorporate fun and learning into the whole design to create a scaffold of learning. Families come to the museum to supplement preschool experiences,” said Andy S. Ackerman, CMOM’s executive director. The museum also offers parents, sitters, and other care-providers guidance on engaging their children with the exhibit. Based on the concept that children’s learning and personal growth is rooted in play, the 4,000-square-foot space is divided into five learning areas: Language, Math and Physics, Arts and Science, Imagination and Dramatic Play, and Practice Play (for infants and crawlers).
The Magic School Bus Museum Collaborative, requests through Discovery Places, Inc., NSF support for six science museums and Scholastic Productions, Inc., to develop science education materials that capitalize on the interest and excitement in the forthcoming Magic School Bus television series and the Magic School Bus books. Over a three year period the collaborative will provide basic science education activities and demonstrations through museum educational programming. The collaborative will provide tools and support for teachers to use the Magic School Bus themes in their science curriculum and provide hands-on science classroom experiences using mobile museum exhibits. Working with the National Urban League, ASPIRA, the AAAS Black Church Project, and other youth serving organizations, the collaborative will encourage multi-ethnic participation in these museum programs. The numbers of children and their families who will be reached by the Magic School Bus Museum Collaborative are significant. The components of the project are a planetarium program (100 copies), two 1200 square feet traveling exhibits, and activity and programming guide, table-top exhibits and program, and 2 teacher enhancement workshops. Collectively, these components can reach conservatively over 5 million museum visitors in the first year. Coupled with the new television series, the Magic School Bus can have a tremendous impact on the education of young people in the sciences.