The January 2013 issue includes articles and features on crowdsourcing, partnerships in natural history museums, communicating science through art, theater as climate change education, case studies on informal science education-related projects like gigapixel imaging and museum educators collaborating with scientists to engage visitors, and more.
In October 2009, the Tennessee Aquarium began an ambitious program, Connecting Tennessee to the World Ocean (CTWO), funded by a grant from the National Oceanic and Atmospheric Administration. CTWO consists of several individual projects, all intended to increase the ocean literacy of Aquarium audiences and to promote their adoption of an ocean stewardship ethic. This evaluation report summarizes the extent to which the Aquarium accomplished these goals over the 3-year project period. The five project components and their key associated evaluation findings follow. 1. Classroom-based activities
In October 2007, The Franklin Institute Science Museum (FI) in partnership with the Free Library of Philadelphia was awarded a 5-year National Science Foundation grant to build a model museum/library partnership. This partnership project, called LEAP into Science, integrates science content and inquiry into an existing afterschool program at the Library, called LEAP. More specifically, LEAP into Science has three overarching goals: 1) To increase the capacity of influential adults for science teaching and learning; 2) To increase the capacity of libraries for science teaching and learning; 3)
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TEAM MEMBERS:
Jessica LukeFranklin InstituteJeanine E. AnceletClaudia Figueiredo
User Experience Research Consulting (UXR) conducted a summative evaluation of the NSF-ISE funded project, STEPS (Science Theater Education Programming System). The STEPS project brought together a network of informal science educators and contractors to create an interactive museum theater authoring and presentation system to increase educational capacity for small and large museums across the country. The software package includes an authoring tool for the creation of multimedia science theater productions; a presentation player for displaying the shows to audiences in museum theaters
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Jes A. KoepflerUniversity of Colorado, Denver
Throughout the year, El Museo del Barrio hosts various cultural programs that are open to the public and often free. To explore the effectiveness of the Museum's cultural programs, Randi Korn & Associates, Inc. (RK&A) conducted case studies for three programs Day of the Dead, Three Kings Day, and Super Sabado - Carnival. RK&A conducted naturalistic observations of visitors to the three programs. Trained data collectors unobtrusively observed program attendees and took notes on select behaviors using observation guides specific to each program. RK&A interviewed program participants 18 years and
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Randi Korn & Associates, Inc.El Museo del Barrio
A research study was conducted to help inform UC Davis's Tahoe Environmental Research Center (TERC) about the greater Lake Tahoe area community's perceived value of the center and two 3D visualizations included as part of their guided tour of the center. Research questions focused on how various local groups perceived the center, how TERC can better engage locals and tourists alike, the potential for the current 3D visualizations (Lake Tahoe, Earthquakes) for impacting attitudes and behaviors about the Lake and how the Lake Tahoe 3D visualization impacted middle school students during a school
CENTC's (Center for Enabling New Technologies Through Catalysis) outreach is focused on partnerships with science centers. Initially we worked with the Pacific Science Center (PSC) to train our students in effective communication of science concepts to public audiences. Later we developed a short-term exhibit, Chemist - Catalysts for Change in the Portal to Current Research space. As part of the CCI/AISL partnership program, we partnered with Liberty Science Center to create an activity on a multi-touch media table, "Molecule Magic." We are currently developing another exhibit with PSC.
This Pathways Project connects rural, underserved youth and families in Eastern Washington and Northern Idaho to STEM concepts important in sustainable building design. The project is a collaboration of the Palouse Discovery Science Center (Pullman, WA), Washington State University and University of Idaho, working in partnership with rural community organizations and businesses. The deliverables include: 1) interactive exhibit prototype activities, 2) a team cooperative learning problem-solving challenge, and (3) take-home materials to encourage participants to use what they have learned to investigate ways to make their homes more energy-efficient and sustainable. The project introduces youth and families to the traditionally difficult physics concept of thermal energy, particularly as it relates to sustainable building design. Participants explore how building materials and their properties can be used to control all three types of heat transfer: conduction, convection, and radiation. The interactive exhibit prototypes are coupled with an Energy Efficient Engineering Challenge in which participants, working in cooperative learning teams, use information learned from the exhibit prototype activities to retrofit a model house, improving its energy efficiency. The project components are piloted at the Palouse Discovery Science Center, and then travel to three underserved rural/tribal communities in Northern Idaho and Eastern Washington. Front-end and formative evaluation studies will demonstrate whether this model advances participant understanding of and interest in STEM topics and careers. The project will yield information about ways that other ISE practitioners can effectively incorporate cooperative learning strategies in informal settings to improve the transferability of knowledge gained from exhibits to real-world problem-solving challenges, especially for rural and underserved audiences. This project will also provide the ISE field with: 1) a model for increasing the capacity of small, rural science centers to form collaborative regional networks that draw on previously unused resources in their communities and provide more effective outreach to the underrepresented populations they serve, and 2) a model for coupling cooperative learning with outreach exhibits, providing richer experiences of active engagement.
This broader implementation project will create a professional network of individuals and institutions increasing their capacity to develop, implement, and evaluate the impact of large scale community science festivals. The project builds on a previous award that supported the implementation of science festivals in Cambridge, MA; San Francisco, San Diego, and Philadelphia. Each festival reached 50-70,000 attendees, many of them families from low-income, ethnic communities. Festival organizers and participants include science center practitioners, Science, Technology, Engineering and Mathematics (STEM) researchers, STEM related businesses, public television STEM producers, universities, K-12 schools, and government and foundation stakeholders. The summative evaluation indicated significant impacts on participant's STEM interest, learning, and connections to STEM resources in their community. The number of science festivals across the country is increasing. Consequently this new project will create a professional network with numerous benefits to professionals in the Informal Science Education (ISE) field and other stakeholders including: timely access to information, knowledge and experience related to science festivals; rich relationships to draw on when facing challenges; credibility of the festival concept; ability to partner with multiple festivals and magnify the reach of existing ISE institutions and program; diffusion of knowledge and innovation; and collective intelligence and inclusive consultation. It is expected that the network will involve supporting approximately 50 science festivals during the grant period. A business plan will be developed for long term sustainability of the network and the subsequent growth of science festivals. This is a collaborative proposal with 4 project partners who have distinct roles in creating and sustaining the network: MIT, University of California at San Francisco, University of North Carolina/Morehead Planetarium and Science Center, and The Franklin Institute. MIT's project deliverables include hosting the central management and administrative functions of the network and providing conferences, workshops, individual mentoring of new science festival champions, maintaining the network website, etc. UCSF will develop tools, resources, and linkages to increase participation of scientists in festivals. UNC/Morehead Planetarium and Science Center will provide expertise in statewide festival organizing. The Franklin Institute will help network participants build capacity for engaging low-income families with programming examples, community asset analysis tools, and webinars. This multi-hub approach is a new innovative strategy for creating and sustaining the first ever professional network for science festival organizers. The project evaluation will focus on the network\'s vibrancy, connectivity and effect. Network vibrancy impact data will be collected on how members share goals, enhance leadership, and expand geographic and model diversity. Network connectivity evaluation will study the strength and growth of the relationships within the SFA network. Network effects will study the ways the Science Festival Alliance (SFA) network is achieving science festival organizational capacity looking at increases in the number of science festivals, geographic spread, science festival innovations, and the presence of a SFA sustainability plan. This project will add new knowledge about the impact of networks on the development and impact of science festivals throughout the country.
This pathways project from Boston College will test the efficacy of an intergenerational interdisciplinary hydroponics program involving curriculum development and activities at the Salvation Army's Kroc Center and the STEM Garden Institute for 4-6th grade youths and seniors. The primary research includes an examination of the efficacy of intergenerational interdisciplinary community based research. Additional goals of the hydroponic program include the examination of the ways in which urban community-based hydroponic programs foster motivation and self-efficacy, and how well youths and seniors understand the scientific inquiry process involving technology, economics and plant production. The research design includes qualitative and quantitative methods. The project will evaluate the ways in which the instructors implement the program with youth and seniors. The project will also evaluate the effectiveness of the technologies associated with plant production and knowledge acquisition in the area of hydroponics from the development through the delivery of the plant products to sell at the local Farmer's Market. Interviews, focus groups and survey will be administered to seniors and youth throughout the project. The project will disseminate a science inquiry based instructional guide for informal providers and youth who are involved with informal science education programs. The guide will focus on hydroponics with an emphasis on the electromagnetic spectrum, photosynthesis, pH, and nutrients, and electrical conductivity science concepts. More than 120-150 youth and 200 seniors will participate in the hydroponics program. Additional materials on the development of economic and business planning will be developed for the use of planning and setting up a Farmer's Market retail business. The materials will be available through the Salvation Army's Kroc Center. The Kroc Center averages 500-1000 visitors per day in addition to the Center's website, which averages 1200 unique visits per day.
The goal of the FOCUSSS project is to engage high school students in a need-to-know pursuit for learning science that leads to the discovery of sustainable resources and practices for use in their communities. The project is a collaboration among Loyola University Chicago, Adler Planetarium, the Chicago Museum of Science and Industry, and four local, urban high schools to construct student and family activities involving essential science concepts and tools within a sustainability context. Through this project, high school students engage in school and family activities around specific themes related to sustainable resources and practices in their communities, such as the availability and access to nutritious food, the quality of air or availability of clean water resources, the effective use of energy resources, or similar topics. The project intends to help students develop as informed and responsible citizens who utilize the principles and tools of basic science for their decisions and actions. The blended instructional model that deeply involves family and community will be studied for its potential to make formal learning relevant to the lives of children and to the health of the community. As an exploratory project, the project tests a curriculum design that bridges formal and informal education and draws upon the resources in the community. Students interact with online learning communities that include their teachers, their families, fellow students, and sustainability organizations. Participating teachers are involved in intensive workshops that focus on developing sustainability principles within inquiry-based science curricula and lessons plans. Service projects provide opportunities for students to invite their families to participate and be supported in family workshops at local museums and in site visits to organizations involved in related initiatives. Data collection includes surveys administered to students and participating family members, observations, interviews, classroom assessments, and other open-ended instruments intended to surface themes and related variables. These will inform the design of the materials and activities as well as the assessments. The project deliverables include fully implemented classroom lessons supported by family projects and online sustainability courses for students and families. The project fosters students and families connecting to their communities, resources and organizations in order to improve the quality of their neighborhoods and to promote individual, family, and public health.
Native Universe: Indigenous Voice in Museums, a collaboration between the Indigenous Education Institute, University of California-Berkeley, and the University of Hawaii at Hilo, builds on the successful NSF-funded Cosmic Serpent collaborative (DRL 07-14631/DRL 07-14629). The Cosmic Serpent professional development project explores commonalities between native and western science, enabling participants to use STEM as an entry point for museum programs and exhibits. Native Universe endeavors to move to the next level by creating a professional development program which fosters systemic institutional change through the infusion of indigenous voice in programs and exhibits focusing on environmental change. Topics to be explored include species distribution, environmental vulnerability, adaptation of human systems, and science and policy issues on the local, regional, and global levels. This project is designed to assess how cultural background and exposure to indigenous knowledge systems integrated with western science influence these perspectives; develop sustainable institutional competence in presenting multiple perspectives on environmental change; and create models for inclusion while building an enduring community of practice. The project design relies upon a conceptual framework grounded in the literature on indigenous voice and traditional ecological knowledge, as well as current models for institutional change. Front-end, summative, and process evaluation will address questions related to how science museums facilitate engagement and inclusion of indigenous voice in the presentation of environmental change content, stages of readiness, and the emergence of models for this process. Methods for data collection include reflective logs, pre-post questionnaires, and semi-structured interviews at multiple points to measure the degree and nature of change within museums, as well as how change was initiated, supported, and sustained by staff. Project deliverables include three museum case studies developed during 9-month residencies, public experiences for visitors, a culminating virtual conference, and a dynamic community of practice among museums committed to indigenous voice in informal science education. The museum residencies will take place at the Oregon Museum of Science and Industry, the Arizona-Sonora Desert Museum, and the Museum of the North in Alaska. Intensive case studies will be conducted at each site following the Diné Strategic Planning Process (consisting of initiation, growth, implementation, and renewal) and featuring the Ìmiloa Astronomy Institute as a model for institutional change. Exhibits and programs have been identified at each site that will be developed or expanded to integrate environmental change content and native perspectives. Dissemination of the project findings will be accomplished through publications, conference presentations, videos, webinars (four per year), and the virtual conference. It is anticipated that this project will impact over 1.2 million visitors at the collaborating institutions, in addition to the professional audience of museum staff. Native Universe may provide valuable interpretive tools for the field to understand and address the challenges associated with integrating cultural perspectives and science content. The museum case studies will contribute knowledge about the cultural process of science learning, and may transform the way science is presented in museums by leveraging indigenous voice to enhance public awareness and understanding of environmental change from a culturally-grounded perspective. The overall benefit is increased participation of indigenous individuals in STEM and increased public science literacy in the area of environmental change.