The importance of reporting current science to the general public is more important now than ever before. The best way to ensure enthusiastic support for science is to engage the general public as directly as possible. Unlike schooling, learning in a museum is self-motivated, self-directed, and can be lifelong. The partnership between Columbia University's MRSEC (Materials Research Science and Engineering Center) and the New York Hall of Science will do this in an exciting manner by development of innovative 'rolling exhibits' (Discovery Carts) that are visually attractive, intellectually stimulating and demonstrate current research. This project will unite a dynamic University research faculty, dedicated graduate students, and high school teachers from one of the largest and best known teacher research experience programs in the country. NY Hall of Science, specialists in public science education, have developed exhibitions, over the past 20 years, for school and family group visitors in biology, chemistry and physics. Most recently, the Hall opened an 800-foot biochemistry discovery lab featuring ten experiments that teach visitors about the role of molecules in everyday life. The lab is facilitated by an explainer, and hundreds of families use the lab throughout the year. All exhibits and programs have rigorous science presented in an engaging manner in an educationally non-threatening environment. Columbia University is one of the premier research institutions in the country. Columbia's MRSEC is engaged in multi-faceted educational outreach activities in the New York metropolitan area, including a close working relationship with Columbia's 16 year old RET program. Together these institutions are well situated to involve the research community in public education activities that will inform the public about the current advances in science. Teachers and graduate students who have worked in MRSEC labs will assist in bringing new skills and ideas to the development of museum programming and exhibits. The teachers have experienced both the research projects first-hand and have had the experience in translating the research into meaningful classroom activities for their students. The graduate students have worked alongside the teachers, assisting them in making the research meaningful to high school students. Broader Impact: Highly skilled educators who can improve a young person's chances for success are like gold for the nation's schools, which are under pressure for tough accountability standards. Teachers will influence over a thousand students during the course of their careers. The Hall's Explainers are of high school and college age. These two groups will have positive impacts on our society for years to come. They will benefit from participation, and the tens of thousands of visitors to the museum will learn about cutting edge research.
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.
Front-line educators are arguably critical to the visitor experience at museums and science centers across the country. However, little research exists to inform staff facilitation strategies or professional development efforts. In this article, we describe the results of a qualitative study of 63 staff-family interactions in a science center, focusing particularly on the role of adult family members.We observed three distinct phases of interaction, during which adult family members acted as gatekeepers to deeper staff engagement. The results suggest that in order to successfully facilitate
Presentation on NSF grant DRL-1114568 (""Fusion Science Theater National Training and Dissemination Program"") presented at the CAISE Convening on Professional Development and Informal Science Education, February 2nd, 2012.
Presentation on the evaluation of NSF grant DRL-0917640 (The Energy Project) presented at the CAISE Convening on Sustainability Science and Informal Science Education, February 6th, 2012.
Presentation on NSF grant DRL-0917640 (The Energy Project) presented at the CAISE Convening on Sustainability Science and Informal Science Education, February 6th, 2012.
Presentation on NSF grant DRL-1011086 (""The Nexus of Energy, Water, and Climate: From Understanding to Action"") presented at the CAISE Convening on Sustainability Science and Informal Science Education, February 6th, 2012.
Presentation on NSF funded Nanoscale Informal Science Education Network (DRL-0940143), presented at the CAISE Convening on Organizational Networks, November 17th, 2011.
Annotated, integrated, illustrated practical instructions result in higher levels of performance on task; lower completion time, task difficulty, and perceived cognitive load; higher relative efficiency score and post-test scores than the conventional instructions; and makes practical work instructions easier to understand for students with no prior knowledge of the subject matter.
Transitioning from textbook-style problems to ""real-world"" physics problem-solving requires participants to set limiting assumptions. In textbook-style questions these assumptions aren't necessary because all the numerical values are provided by the textbook. However, in real-world challenges this is often not the case. The article has implications for educators who are thinking about how to use real-world problems in their work.
In this paper, the learning resources and museum visit that formed part of an undergraduate teaching sequence on the special theory of relativity are described and discussed. Findings highlight the importance of integrating pre- and post-visit activities, although the methods used to evaluate the impact of the experience do not offer conclusive results.
This study reports on how high school students use scientifically correct language to articulate the concept of ‘force’. Although the analysis is somewhat complex, the importance of this study is its research of how the students engage with scientific concepts and language, and moreover, how they use and apply it.