The Museum of Science partnered with the Center for High-rate Nanomanufacturing to create a sequence of professional development experiences in science communication and hands-on learning for graduate students and post-docs. The Sharing Science Workshops were intended to help graduate students who work with the CHN program to improve their abilities to present their research to a variety of scientific and nonscientific audiences. The sequence included a half-day "Sharing Science" workshop, a half-day guided "Practicum" with museum visitors, and optional participation in NanoDays events at MOS
Project LIFTOFF works with local, regional, and national partners to engineer statewide systems for Informal Science Education that inspire: YOUTH to pursue STEM education and careers through increased opportunities for quality, hands-on STEM learning. AFTERSCHOOL STAFF to facilitate STEM learning experiences that contribute to the overall STEM education and aspirations of youth in their programs. PROGRAM ADMINISTRATORS to encourage and support staff in the integration of STEM enrichment into the daily programming. STATE LEADERS to sustain and expand afterschool learning opportunities so that all students have access to engaging STEM experiences outside of the regular school day. Project LIFTOFF is dedicated to the development of the following essential elements of statewide systems for informal science education:
Access to appropriate STEM Curriculum for youth of all ages, abilities, and socio-cultural backgrounds that meets the needs and interests of individual community programs
Systematic STEM Professional Development that matches individual skills in positive youth development with abilities to facilitate discovery and science learning
A diverse Cadres of Trainers who will deliver the professional development, technical assistance and curriculum dissemination in their local communities
Authentic Evaluation of informal science efforts that determine the impacts on youth aspirations and the capacity of youth programs to provide quality STEM experiences
Local STEM education leadership to identify the ways in which collaborative education efforts can advance the development of 21st Century Skills and the preparedness for STEM workforce and higher education
Partnerships in support of youth development and informal science education that convene local, regional, and statewide organizations and stakeholders
To advance national initiatives and states' sySTEM engineering efforts, LIFTOFF coordinates an annual convening, the Midwest Afterschool Science Academy, that brings together national informal science experts, system leaders and youth development professionals to elevate the levels of science after school. The 5th MASA will be in the spring of 2014 in Kansas City, MO
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TEAM MEMBERS:
Missouri AfterSchool NetworkJeff Buehler
Carl Batt of Cornell University is a Discovery Corps Senior Fellow for the 2007-2008 academic year. the natural ability of bacterial surface-layer proteins to self-assemble into two-dimensional, nanoscale arrays. These biological arrays will be exploited to produce a variety of nanoscale structures, including silicon nano pillars, which have potential use in new optical and electronic devices. Batt will use the scientific discoveries arising from his research to expand outreach to the public through interactive, traveling museum exhibits and to develop improved models for understanding and describing nanoscale phenomena. The goals of the project include the development of the "Chronicles of a Science Experiment," which will provide the public with a view of the evolution of a science project over time. This Discovery Corps Senior Fellowship is supported by the Division of Chemistry and the Informal Science Education (ISE) program of the Division of Research on Learning in Formal and Informal Settings (EHR/DRL). The Discovery Corps Fellowship Program seeks new postdoctoral and professional development models that combine research expertise with professional service. Discovery Corps Fellows leverage their research expertise through projects that address areas of national need.
This proposal is based on the PI's active research investigating the physical, chemical, spectroscopic and biological properties of boronic acid substituted chalcones, a subclass of flavonoid plant pigments. Functions of flavonoids include disease resistance, sunscreen protection, plant pigmentation and fertility. This project targets youth in Berrien County, Michigan providing them with hands-on activities involving natural plant pigments and their function. It also provides teachers with supplementary materials to Michigan's core science curriculum and informs the general public about the importance of research in developing a robust R&D sector in Berrien County's mixed economy. Outreach tools include the websites, DVDs, PowerPoint, poster presentations and the Benton Spirit Community Newspaper.
Communicating Ocean Sciences to Informal Audiences (COSIA) is an innovative project that creates unique partnerships between informal science education institutions and local colleges conducting research in ocean sciences, with an emphasis on earth, biological and geochemical sciences. The project enables over 100 undergraduate and graduate students that are enrolled in the Communicating Ocean Sciences college course to create engaging learning activities and teaching kits in conjunction with their informal education partners. Institutional teams include: Long Beach Aquarium and California State University-Long Beach; Hatfield Marine Science Center and Oregon Sea Grant at Oregon State University; Virginia Aquarium and Science Center and Hampton University; Liberty Science Center and Rutgers University; and Lawrence Hall of Science and University of California-Berkeley. Students learn valuable outreach skills by providing visiting families and children with classes, guided tours and interactive learning experiences. Deliverables include a three-day partner workshop, a series of COSIA Handbooks (Collaboration Guide, Informal Education Guide and Outreach Guide), an Informal Science Education Activities Manual and Web Bank of hands-on activities. Strategic impact will be realized through the creation of partnerships between universities and informal science education institutions and capacity building that will occur as informal science institutions create networks to support the project. It is also anticipated the evaluation outcomes will inform the field abut the benefits of museum and university partnerships. The project will impact more than 30,000 elementary and middle school children and their families, as well as faculty, staff and students at the partnering institutions.
The project will develop and study the impact of science simulations, referred to as sims, on middle school childrens' understanding of science and the scientific process. The project will investigate: 1) how characteristics of simulation design (e.g., interface design, visual representations, dynamic feedback, and the implicit scaffolding within the simulation) influence engagement and learning and how responses to these design features vary across grade-level and diverse populations; 2) how various models of instructional integration of a simulation affect how students interact with the simulation, what they learn, and their preparation for future learning; 3) how these interactions vary across grade-level and diverse populations; and 4) what critical instructional features, particularly in the type and level of scaffolding, are needed. Working with teachers, the team will select 25 existing sims for study. Teachers and students will be interviewed to test for usability, engagement, interpretation, and learning across content areas. The goal will be to identify successful design alternatives and to formulate generalized design guidelines. In parallel, pull-out and classroom-based studies will investigate a variety of use models and their impact on learning. Ten new simulations will then be developed to test these guidelines. Products will include the 35 sims with related support materials available for free from a website; new technologies to collect real-time data on student use of sims; and guidelines for the development of sims for this age population. The team will also publish research on how students learn from sims.
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TEAM MEMBERS:
Katherine PerkinsDaniel SchwartzMichael DubsonNoah Podolefsky
The Physics and Chemistry Education Technology (PhET) Project is developing an extensive suite of online, highly-interactive simulations, with supporting materials and activities for improving both the teaching and learning of physics and chemistry. There are currently over 70 simulations and over 250 associated activities available for use from the PhET website (http://phet.colorado.edu). These web-based resources are impacting large number of students. Per year, there are currently over 4 million PhET simulations run online and thousands of full website downloads for offline use of the simulations. The goal is that this widespread use of PhET's research-based tools and resources will improve the education of students in physics and chemistry at colleges and high schools throughout the U.S. and around the world. This PhET project combines a unique set of features. First, the simulation designs and goals are based on educational research. Second, using a team of professional programmers, disciplinary experts, and education research specialists enables the development of simulations involving technically-sophisticated software, graphics, and interfaces that are highly effective. Third, the simulations embody the predictive visual models of expert scientists, allowing many interesting advanced concepts to become widely accessible and revealing their relevance to the real world. And finally, the project is actively involved in research to better understand how the design and use of simulations impacts their effectiveness - e.g. investigating questions such as "How can these new technologies promote student understanding of complex scientific phenomena?" and "What factors inhibit or enhance their use and effectiveness?".
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TEAM MEMBERS:
Katherine PerkinsMichael DubsonNoah FinkelsteinRobert ParsonCarl Weiman