Measures students' views about the nature of knowledge and learning in the physical sciences along five non-orthogonal dimensions (structure of scientific knowledge, nature of knowing and learning, real-life applicability, evolving knowledge, & source of ability to learn.
DATE:
TEAM MEMBERS:
Andrew ElbyJohn FrederiksenChristina SchwarzBarbara White
Goodman Research Group, Inc. (GRG) conducted summative evaluation of the educational resources kit for Forgotten Genius, a program from the PBS television series Lives in Science. Forgotten Genius explored the life of the scientist Percy Julian, an African American chemist who persevered in the face of racism to become one of the great scientists and inventors of the 20th century. GRG's evaluation focused on how public librarians used and assessed the educational resources kit, as well as their suggestions for revising the kit and conducting future science-related library outreach. The
DATE:
TEAM MEMBERS:
Marianne McPhersonJennie MurackIrene F GoodmanWGBH
Nanoscale science and engineering study and create materials and devices on the molecular scale. The Nanobiotechnology Center, a National Science Foundation supported Science and Technology Center, collaborated with Ithaca, New York's Sciencenter, a hands-on museum, and Painted Universe, Inc. an exhibition design-and-fabrication team, to create It's a NanoWorld, a 3,000 square-foot, hands-on traveling exhibition. Edu, Inc., an external evaluation group, led front-end research and formative evaluation to guide and refine development of the exhibition. Summative evaluation investigated visitors'
DATE:
TEAM MEMBERS:
Douglas SpencerCornell UniversityVictoria AngelottiSciencenter
This 20-page PDF booklet provides an introduction to informal science education and to science museum practice for nano and materials science researchers. It advises researchers on ways to collaborate with science museums to increase the impact of their education outreach activities, and includes a rich bibliography.
This report evaluates the program entitled “Treating Tumors with Gold” by looking at visitor feedback in an attempt to assess the success with which the presentation was able to educate the public on a particular study using nanotechnology. The exit survey instrument is included in the appendix of this report.
The Nanomedicine Explorer kiosk at the Museum of Science, Boston provides opportunities to learn about nanomedicine, nanotechnology, cancer biology, new research in cancer diagnosis and therapy, and the process of medical research from bench to bedside. This report is the formative evaluation of the prototype of this kiosk, presenting the results of visitor observations, exit surveys, and interviews. The findings of these data served to provide the Nanomedicine Explorer production team a basis from which to make improvements to the program, which was released as Version 1.0 in May of 2009
This formative evaluation was conducted to see how the addition of an interactive media piece enhanced visitors' understanding of Nasturtium, a life sciences exhibit that demonstrates the water repelling properties of nasturtium leaves. The media piece allows the visitor to view leaf structures at progressively higher magnifications to better illustrate their scale and function. The interview questions used in this study are included in the appendix of this report.
This report documents two formative evaluations on an interactive media piece that allows its users to zoom in from a human hand to an atom. This zoom uses a spiral to connote zooming and is a departure from a more conventional zoom in which each successive image is a magnification of a portion of the preceding image. Interview protocols are included in the appendix of this report.
This report evaluates the nanotechnology-related presentations delivered at the Museum of Science, Boston, in an effort to more effectively educate the public. Interview questions used in this study are included in the appendix of this report.
A series of interview studies was conducted to determine how museum visitors interpret scale ladders that focus on the nanoscale. These studies look at different versions of an example scale ladder in order to: a.) Iteratively develop a scale ladder that may be used by other informal science institutions. b.) Formulate guidelines to inform the design and use of other scale ladders. Interview questions used for studies 1-3 are included in the appendix of this report.
This front-end study was conducted to gauge the visiting public’s interpretation of scientific images of the nanoscale. The interview questions used during this study are included in the appendix of this report.
Summative evaluation of four programs created by the NISE Network. The survey instrument used in this study is included in the appendix of this report.