Living Laboratory® (developed at the Museum of Science, Boston in 2005) is a new model for partnerships between museums and cognitive scientists, bringing cognitive scientists to museums, where they conduct active research studies with museum visitors as their subjects. In 2011, the Museum of Science began scaling up Living Laboratory to create a National Living Lab network. In Year 1, the program expanded to three new Hub sites: Madison Children’s Museum, Maryland Science Center, and Oregon Museum of Science and Industry. This report summarizes all formative evaluation from Year 1 of the
Quarked!™ is a collaborative physics education project at the University of Kansas that provides engaging and educational science experiences for youth ages 7 and up, educators and the general public. This multimedia project material focuses on concepts of scale and matter, and presents subatomic particles as relatable characters in both human and quark or electron form that explore science through story-driven adventures. It includes a comprehensive website with a range of materials including animated videos, games, apps, FAQs and lesson plans, as well as hands-on education programs at the University of Kansas Natural History Museum. Initially, funded through an NSF EPSCoR grant (Grant No. EPS-0236913 and matching support from the State of Kansas through the Kansas Technology Enterprise Corporation and EPP-0354836), this projects continued to grow and new resources have been added through funding from the Kauffman Foundation, Google grants and other NSF awards. Quarked.org attracts more than 75,000 unique visitors annually, local PBS television stations in Kansas and Missouri broadcast the 3D animated videos, and the museum programs have reached more than than 5,000 school participants and continue to be offered.
A range of sources support science learning, including the formal education system, libraries, museums, nature and Science Centers, aquariums and zoos, botanical gardens and arboretums, television programs, film and video, newspapers, radio, books and magazines, the Internet, community and health organizations, environmental organizations, and conversations with friends and family. This study examined the impact of one single part of this infrastructure, a Science Center. This study asked two questions. First, who in Los Angeles (L.A.) has visited the California Science Center and what factors
Robotics brings together learning across mechanism, computation and interaction using the compelling model of real-time interaction with physically instantiated intelligent devices. The project described here is the third stage of the Personal Rover Project, which aims to produce technology, curriculum and evaluation techniques for use with after-school, out-of-school and informal learning environments mediated by robotics. Our most recent work has resulted in the Personal Exploration Rover (PER), whose goal is to create and evaluate a robot interaction that will educate members of the general
Science beyond the schoolhouse is the subject of this close-up look at informal science--education in non-traditional settings, including Boys and Girls Clubs, 4-H, zoos, aquariums, and public television. More than a dozen writers draw on personal experiences to tell why they became informal science educators and how they use the history and theory of traditional science education in their work. Among the features of this book for informal science educators are a resource directory and a special section on program evaluation. Articles include: (1) "The Symbiosis of Formal and Informal
Six museum education and learning researchers discuss the need to study how people learn and behave in museums and what kind of current research studies should be undertaken. Mary Ellen Munley, in "Back to the Future: A Call for Coordinated Research Programs in Museums," describes the differences between the terms "evaluation,""audience research," and "education research" and recommends establishing major systematic programs of museum-based research that are similar to ones initiated in the 1920s and 1930s. In "Educational Exhibitions: Some Areas for Controlled Research," C. G. Screven
Most people visit a science center in order to satisfy specific leisure-related needs; needs which may or may not actually include science learning. Falk proposed that an individual's identity-related motivations provide a useful lens through which to understand adult free-choice science learning in leisure settings. Over a 3-year period the authors collected in-depth data on a random sample of visitors to a large recently opened, hands-on, interactive science center; collecting information on why people visited, what they did within the science center, what they knew about the subject
Falk and Dierking’s Contextual Model of Learning was used as a theoretical construct for investigating learning within a free-choice setting. A review of previous research identified key variables fundamental to free-choice science learning. The study sought to answer two questions: (1) How do specific independent variables individually contribute to learning outcomes when not studied in isolation? and (2) Does the Contextual Model of Learning provide a useful framework for understanding learning from museums? A repeated measure design including interviews and observational and behavioral
As more and more people look to institutions of informal education os places where science education occurs (Kimche, 1978; Tressell, 1980), increased attention has focused upon assessing learning in these out-of-school settings. In particular, instituions such as museums, nature centers, and zoos have devoted considerable efforts towards developing evaluation techniques. A multitude of procedures and approaches have been tired. These include questionnaires (Eason & Linn, 1976; Borun, 1977), empirical testing designs (Screven, 1974; Snider, Eason, & Friedman, 1979; Wright, 1980), and various
Current accounts of the development of scientific reasoning focus on individual children's ability to coordinate the collection and evaluation of evidence with the creation of theories to explain the evidence. This observational study of parent–child interactions in a children's museum demonstrated that parents shape and support children's scientific thinking in everyday, nonobligatory activity. When children engaged an exhibit with parents, their exploration of evidence was observed to be longer, broader, and more focused on relevant comparisons than children who engaged the exhibit without
Interactive museum exhibits have increasingly placed replicated and virtual objects alongside exhibited authentic objects. Yet little is known about how these three categories of objects impact learning. This study of family learning in a botanical garden specifically focuses on how 12 parent-child family units used explanations as they engaged with three plant types: living, model, and virtual. Family conversations were videotaped, transcribed, and coded. Findings suggested that: 1) explanations of biological processes were more frequent than other types; 2) model and virtual plants supported
As an increasing number of robots have been designed to interact with people on a regular basis, research into human-robot interaction has become more widespread. At the same time, little work has been done on the problem of longterm human-robot interaction, in which a human uses a robot for a period of weeks or months. As people spend more time with a robot, it is expected that how they make sense of the robot - their “cognitive model” of it - may change over time. In order to identify factors that will be critical to the future development of a quantitative cognitive model of long-term human