Science Under Sail: Russia's Great Voyages to America 1728-1867 opened in May 2000 at the Anchorage Museum of History and Art (AMHA) for a five-month run. Developed by Curator Barbara Sweetland Smith and designed by Presentation Design Group, Science Under Sail was a 5,340-square-foot exhibition consisting of 44 elements, including text and graphic panels, cases with artifacts and specimens, audio stations, ship models, dioramas, and interactive elements. Overhead banners separated the exhibition into five sections: Why did they sail? Where did they go? How did they get there? What did they
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TEAM MEMBERS:
Beverly SerrellAnchorage Museum of History and Art
This report presents the findings of a summative evaluation of Invention at Play, conducted by Randi Korn & Associates, Inc. (RK&A), for the Lemelson Center for the Study of Invention and Innovation at the Smithsonian Institution's National Museum of American History. Invention at Play is a traveling exhibition developed by the Lemelson Center in partnership with the Science Museum of Minnesota and is funded by The Lemelson Foundation and the National Science Foundation. Data collection took place at two venues: in December 2002 at the National Museum of American History in Washington, D.C.,
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Randi Korn & Associates, Inc.Smithsonian Institution
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'
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TEAM MEMBERS:
Douglas SpencerCornell UniversityVictoria AngelottiSciencenter
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
Design It! Building Design Challenges in After School Programs, funded by the National Science Foundation, is a collaboration between the Education Development Center (EDC), the National Institute for Out-of-School Time (NIOST) and science centers/museums and after school programs located in community-based organizations (CBOs) in six cities. The project's primary goal was to improve the quality of programming in after school programs by establishing long term relationships between science centers/museums and after school programs and developing, incorporating and institutionalizing hands-on
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TEAM MEMBERS:
Patricia CampbellEducation Development CenterLesley PerlmanEarl Hadley
The Undergraduate Engineering Mentor instruments are used to measure the impact of peer mentoring (or similar peer support activities) on the undergraduate women students who serve as the mentors during peer mentoring.
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TEAM MEMBERS:
Pennsylvania State UniversityUniversity of Missouri
Using the pre-college suite of surveys you can determine whether specific activities met your objectives and use this information to improve activities and make evaluation decisions. Specifically, the instruments assess the following topics: Course-taking plans for high school, whether participant intends to study science, engineering, or computer, what participant knows about what engineers, scientists, or computer scientists do, what factors (if any) about being an engineer, scientist, or computer scientist appeal to participant, events or persons that influenced participants' study plans
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Pennsylvania State UniversityUniversity of Missouri
Retention of students in engineering continues to be of concern. To best address this area, we need to know what contributes to both students persisting in engineering and what contributes to their leaving.
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TEAM MEMBERS:
Pennsylvania State UniversityUniversity of Missouri
Retention of students in engineering continues to be of concern. To best address this area, we need to know what contributes to both students persisting in engineering and what contributes to their leaving. The persisting in engineering instrument is designed to measure both male and female student’s reasons for persisting in engineering programs.
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TEAM MEMBERS:
Pennsylvania State UniversityUniversity of Missouri
The tool was created by 4H Nebraska to measure students’ (7-10th graders ) learning and attitudes towards science, technology, engineering, and mathematics. The tool also assesses students’ attitude about GPS (Global Positioning Systems) and GIS (Geographical Imaging Systems).
To evaluate the reasons for students in abandoning the science, engineering, and medical (SEM) pipeline while others choosing to continue. The influence of family and teachers on students’ goals in science, activities, and science identity is considered.
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TEAM MEMBERS:
Pamela R. AschbacherErika LiEllen J. Roth
LAESE is designed to identify longitudinal changes in the self-efficacy of undergraduate students studying engineering. (see AWE Self-Efficacy Literature Overview and Information on Self-Efficacy). LAESE can be used with any students studying engineering. A High School instrument, based on LAESE, was developed and tested by the Female Recruits Explore Engineering (FREE) Project.
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TEAM MEMBERS:
Pennsylvania State UniversityUniversity of Missouri