This study provides a historical overview of the development of the instructional television as a tool within the context of science education. The technology was traced from its beginning as experiments in public service broadcasting by universities and television networks, though closed circuit, cable, and commercially produced science-related programming. The use of the technology as a teaching tool is examined in terms of the concept of scientific literacy and the means by which instructional television helped to accomplish the goals of scientific literacy.
ABSTRACT The article discusses the research which has showed that music education enhances spatial reasoning skills. The result has suggested that the various kinds of musical instruction leads to spatial learning and the type of instruction has not been limited to any particular program component, musical style or instructional practice. The study has demonstrated that learning standard notation promotes the facilitation of the performance in the spatial-temporal tasks. The music instruction has contributed to the improvement of at least one type of spatial skill in which it is projected to
Can reading skills be enhanced by instruction in the visual arts? Arts education researchers have sometimes made this claim and have argued that the visual arts can play a strong role in the teaching of basic skills in the kindergarten and elementary school years. There are two possible mechanisms by which visual arts instruction might enhance reading ability, one cognitive, one motivational. The cognitive mechanism would involve transfer of skill. Perhaps visual arts training strengthens visual perception skills that can be deployed in reading.
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Kristin BurgerEllen WinnerUniversity of Illinois
This article discusses the QUT Museums Collaborative, a project comprised of museum educators and administrators and university researchers in Australia, which examined the experiences of young children visiting museums. This report includes a discussion of the research plan and methodology, emerging and anticipated outcomes, and the significance of the study.
This article presents an overview of two studies from a broader program of research designed to extend prior laboratory-based research on children's scientific thinking to the everyday contexts where it actually occurs. Author Kevin Crowley, a researcher at the University of Pittsburgh's Learning Research and Development Center, discusses their work designed to create a body of empirical findings and new theoretical models that could make a direct practical contribution to improving the ways that families learn about science during trips to museums. This article focuses on applied side of
This article analyzes findings from the PISEC Family Learning Project in Philadelphia to better understand gender-based visitor behavior in science museums. It includes a brief review of the PISEC project, a discussion of gender differences among PISEC families, and a comparison of PISEC data to findings from from another study conducted by Kevin Crowley of the Learning Research Collaborative at the University of Pittsburgh's Learning and Research Development Center.
The Institute for Learning Innovation, Inc., requests $264,904 to pilot a project for establishing a national program to provide parents and significant other adults with support, training and materials. Also, the project goals will enable parents and other adults to become actively engaged in local science education reform and science literacy for their children. The duration of this project is eighteen months. The cost sharing for this NSF award is 24.6% of the total projected cost of the project. The Institute for Learning Innovation, Inc. will collaborate with the YWCA of Annapolis and Anne Arundel County, Boys and Girls Club of Annapolis and the Arundel County Public Schools' Family Involvement Center. Project "ASK with Science" will develop a model program for implementing and disseminating science education materials to young children in underserved communities, thereby creating a grassroots, family-oriented program that can become established in the local communities served by these organizations.
Under the direction of Kevin Crowley, the Learning Research and Development Center at the University of Pittsburgh will investigate gender bias in parental explanations in informal learning settings. This project, Responding to the Gender Gap in Informal Science Education, will build on previous research at children's museums where the conversations of 338 families with children eight years and younger at sixteen different interactive exhibits were recorded and analyzed. They found that parents were almost three times more likely to use explanations when interacting with boys than girls. In this project they will conduct additional research to isolate the causes and outcomes associated with gender bias in these parental explanations and then they will develop, evaluate, and disseminate a range of low-cost methods to modify science exhibits to support parental explanation to both girls and boys. The latter will take the form of an Explanation Toolbox (XBox) which will be a set of resources to help museums construct and evaluate their own modifications to support non-biased parental explanations, with special attention paid to including explanations for the young girls, in addition to the usual conversations about manipulating the exhibits and about the visual, auditory, and tactile information produced by the exhibit. Results of the research and the toolbox will be broadly disseminated via the World Wide Web and published research reports.
Through a collaboration of the DuPage Children's Museum, Argonne National Laboratory, and National-Louis University, a three-element project is being conducted focusing on the following: 1) a research component that studies children's naive perceptions of the phenomena of air and wind energy, 2) an exhibition component that uses the project research to design, develop, and construct a 3- 4,000 square foot "process" oriented exhibition with a 2-story exhibit tower and 12-15 replicable exploratory workstations, 3) a program component that offers explorations for children adapted for museums, preschools and elementary school classrooms. Target audiences include young children and their parents, pre- and in- service early childhood teachers, and museum professionals interested in reaching very young children.
Found in gravesites. Buried in the backyard. Lurking and scaring neighbors at Halloween. The stuff of legendary Hollywood horror films. But, in reality, bones are so much more. They are the living, growing framework of life. Bone Zone, a dynamic traveling exhibit to be developed by the Children's Museum of Indianapolis, will let visitors explore the mystery inside the body so long hidden by skin, fur or other outside covering. By capitalizing on the fact that visitors bring a portion of the exhibit into the gallery with them (their own bones), these visitors will learn that they too have bones and that their bones live and grow along with them. A great need for this type of exhibit exists because most people do not identify the skeleton as one of the body's major functioning systems. The cardiovascular and respiratory systems are most commonly cited. However, the skeletal system provides key functions. Visitors will learn the key functions this system fulfills as well as learn that bones are alive - most youth have the misconception that their bones are dead. The exhibit will showcase myriad human and animal bone scenarios in well-developed contexts that will help visitors understand the information presented. Interactive, hands-on activities will be highlighted in Bone Zone. Visitors will see the skeletons of other animals, and play a game where they learn the difference between bone and pseudo-bones, such as scales. In another area, visitors will observe bone cells in a microscope, see a large-scale depiction of a bone, and watch the bone cells at "work." The exciting and innovative 5,000-square-foot exhibit will be showcased at the museum beginning in 2001. The goals of the Bone Zone project are to (1) Develop an interactive, traveling exhibit about bones to promote an understanding of the skeletal system and bone-related diseases among children and the public; (2) Develop curriculum materials and workshops for teachers; and (3) Stimulate interest in health science careers.