Marshall Barnes was chosen by Larry Bock, founder of the USA Science and Engineering Festival as a late addition to the USASEF after viewing Marshall's impressive SuperScience for High School Physics activities for National Lab Day and his emphasis on advanced concept science and technologies. Marshall was given free booth space to set-up an exhibit that featured what is now being called "STEAM" or Science, Technology, Engineering, Art, Math and was fairly interactive. Marshall's booth emphasized his actual research that the visitors could take part in or analyze themselves. He had a VCR, TV, CD player, MacBookPro laptop and his own invention - the Visual Reduction Window. There were four elements to the exhibit. There was a TV monitor that showed a scene from a movie that you could view with 3D glasses for TV that Marshall invented that work even with one eye closed. At different times that same monitor would feature footage from an experiment that Marshall conducted to produce one of Nikola Tesla's ideas that Tesla never accomplished - a wall of light. This same footage could be analyzed by the visitors - frame by frame, on the Mac computer to see exactly how the principle of resonance produced the wall of light from the build-up of reflections off a physical wall created by strobe lights. Visitors could also listen to hyperdimensional music that Marshall produced that takes any kind of music to a new listening experience. Based on the concept that music is a coded language with cues and instructions that are cognitively recognizable when translated, Marshall invented techniques and technologies that allow such translations and brought examples for visitors to listen to. They included an upcoming radio show theme and the soundtrack to a documentary on the reality behind Fox TV's FRINGE. The music featured song elements that move around between the speakers and make you feel like the music is alive. The most dramatic of all was the Visual Reduction Window, again invented by Marshall, that made kids look transparent and at times, almost completely invisible. Based on his famous research into invisibility, which is documented at the Santa Maria Experiment exhibit in the Santa Maria Education Visitor's Center in Columbus, Ohio, the effect of real life transparency is stunning and Marshall, the world's leading expert on invisibility research was able to describe the physics behind what he was doing and its applications in the real world. His approach to invisibility is superior to those methods pursued by Duke University and others, trying to do the same with metamaterials, and is based on a completely different model of invisibility that he calls, Visual Density Reduction or VDR. Using VDR techniques, Marshall can make attack helicopters, small gun boats, tanks and many other things invisible, which is why he doesn't reveal the current level of his research, due to National Security reasons. Overall, the exhibit was a wild success and serves as a model for a traveling exhibit for informal science at malls, fairs, science centers, and other festivals.
This project was an early example of STEAM (Science, Technology, Engineering, Art, Math) and was produced for the 2004 BLD Studios art exhibition, Time Machines, in Columbus, OH. This project included a chair and a desk made of drawers, on top of which was a audio/video work station where visitors sat and interacted with the technology by using the headphones and listening to one tape deck for instructions and then listening to music on the other while watching the TV screen with special HyperSpeks(tm). There was also a panel of photos above the TV designed to simulate time travel. The instructions explained the purpose of the exhibit and how to use the TV to tune into various channels to pick-up a variety of video static on empty UHF frequencies. The music was designed to put the visitor into a certain frame of mind. It was futuristic sounding and created using DEMI sampling, a proprietary sampling technique also created by Marshall Barnes. The intent was to set the mood. Training Session was supposed to simulate training prospective transdimensional travelers in the cognitive exercises required to deal with the psychological rigors of time/parallel universe travel. The HyperSpeks(tm) allowed the visitors to search for various shapes in the TV static on a number of selcted channels which would resemble such cosmological constructs as black holes and wormholes. The static was live and not prerecorded and so the interaction on all levels was live and in real time. Visitors were to write their observations down on paper which was provided via a note pad and pen at the exhibit. In this way, a record of their experiences existed for subsequent visitors to review. The visitors were also told to view the photo panel, which consisted of pictures taken in 1977, but not developed until 2004. As a result, the pictures were somewhat faded and all tinted pink, however, when the visitors viewed them with the HyperSpeks(tm) they appeared not only normal color, but almost as if the scenes they depicted were views outside a window. Thus, the visitor was able to travel optically back in time and see the images the way they looked when they were originally photographed.
The Santa Maria Experiment exhibit concerns the original and successful invisibility research that initially took place in Columbus, OH in 1994 and documents the scientific principles behind how and why this research worked. It consists of two display panels filled with charts, articles and photographs and is written so that elementary children can easily read and understand the information. It also includes a video documentary for viewing that shows the research in progress and demonstrates its abilities as well as limitations. The exhibit gets its name from the fact that the largest target used for the invisibility tests in 1994, was the full scale replica of Christopher Columbus' flag ship, the Santa Maria. The ship was made to appear almost complete invisible when viewed through a special light bending material that lead investigator, Marshall Barnes, used to see if refracted light would indeed produce "mirages of invisibility". The story about this research eventually went around the world and in 2006 it was suggested that a permanent exhibit be set-up for educational purposes and be a positive draw for visitors. Housed at the Santa Maria Seeds of Change Visitor Education Center on the Scioto riverfront in downtown Columbus, OH,and officially opened on Columbus Day 2007, this is the only exhibit in the world that brings this much fantasized, as well as scientifically misunderstood subject, into accurate, scientific focus.
DATE:
TEAM MEMBERS:
Marshall Barnes
resourceprojectProfessional Development, Conferences, and Networks
This MSP-Start Partnership, led by Widener University, in partnership with Bryn Mawr College, Delaware County Community College, Philadelphia University, Lincoln University, and Haverford Township School District, is developing the Greater Philadelphia Environment, Energy, and Sustainability Science (ES)2 Teacher Leader Institute. Additional partners include the Center for Social and Economic Research at West Chester University, Delaware Valley Industrial Resource Center, Energy Coordinating Agency, US EPA Region 3 Office of Innovation, National Center for Science and Civic Engagement and its SENCER program, Pennsylvania Campus Compact, Philadelphia Higher Education Network for Neighborhood Development, Project Kaleidoscope, Sustainable Business Network of Greater Philadelphia, and the 21st Century Partnership for STEM Education. Building on a base of relationships developed over the past five years by many partners in the Math Science Partnership of Greater Philadelphia, the project brings together faculty and resources from multiple institutions (a "Mega-University" model) to develop a coherent, innovative, and content-rich, multi-year curriculum in environment, energy, and sustainability science for an Institute that leads to a newly developed Master's degree. Teachers participating in the Institute (A) improve their STEM content knowledge in areas critical to human environmental sustainability, (B) improve their use of project based/service learning and scientific teaching pedagogies in their teaching, (C) engage in real-world sustainability problem solving in an externship with a local business, non-profit or government organization that is active in the newly emerging green economy, and (D) develop important leadership skills as change agents in their schools to improve student interest, learning, and engagement in STEM education. The Institute aims to serve as a regional hub, connecting educational, business, non-profit and government organizations to strengthen the STEM education and workforce development pipelines in the region and simultaneously support positive social change toward environmental sustainability and citizenship. The project's "Mega-University" and "Institute as a regional connector-hub" approaches are powerful models of collaboration that could have widespread and significant national applicability as organizations and systems adjust to the new challenges of our global economy and to the needed transition to sustainability.
DATE:
-
TEAM MEMBERS:
Stephen MadigoskyWilliam KeilbaughVictor DonnayBruce GrantThomas Schrand
The Climate Change Toolkit includes a suite of resources that address the science behind climate change while encouraging participants to take action to reduce the effects of climate change. Each resource has been designed to be low cost and easy for educators to reproduce. Contents of the Toolkit include: (1) Ten Hands-on Cart Activities - These hands-on, cart-type science activities for families in an informal education setting or for children in an afterschool setting, engage participants with the science of climate change. The activities are divided into two categories, those that address the science behind climate change, and those that address how individual choices affect the rate of climate change. (2) Four Portable Self-Guided Exhibits Kits - These self-guided science kits use four hands-on activities per kit to explore how climate change is affecting the forest, ocean, urban, and atmosphere environments. Each kit can be packaged in a small bag or box and bundled together with an activity map box for check-out by families in an informal education setting. (3) Public Presentation - CO2 and You is a twenty-minute presentation that provides the option of using interactive clickers to introduce the science behind how fossil fuel consumption leads to climate change. The interactive presentation also explores how simple energy choices can have a positive effect on the climate. (4) Museum Field Trip Program - The Power the Future field trip uses an interactive diagram to explain how carbon based fossil fuels such as coal emit carbon dioxide and contribute to climate change. The program then discusses the need to transition away from carbon based energy sources such as fossil fuels to those that do not emit carbon dioxide, such as wind power. The second section of the program guides visitors through a hands-on inquiry activity where they explore their own windmills.
DATE:
TEAM MEMBERS:
Charlie TrautmannKatie LevedahlAlberto López
Passport to Health is a new program from the Denver Museum of Nature & Science, supported by the Colorado Health Foundation. It engages students, their families, and their teachers in discovering how incredibly unique their bodies are. Passport to Health expands upon the Museum’s newest permanent exhibition, Expedition Health. This interactive health exhibit has an expedition theme of climbing a mountain, which creates an environment for visitors to learn the science behind their amazing bodies. Passport to Health is a comprehensive hands-on program that deepens and extends the exhibit experience for 5th graders at about 30 participating Passport to Health schools, which are all low-income schools in the Denver metro area. Expedition Health and Passport to Health share the idea that health depends on genetics, lifestyle, and environment. The objective of Passport to Health is to increase students’ understanding of health science, raise their health literacy, and inspire them toward healthy lifestyles.
Realizing the power of CyberLearning to transform education will require vision, strategy, and an engaged, talented community. Activities are needed to energize the community, refine and sharpen the path forward, and provide a more active and ongoing forum for clarifying the big ideas and challenging questions. In response to this need, SRI International, together with the Lawrence Hall of Science and with key support from the National Geographic Society, will organize a set of activities to advance a shared vision of the future of learning, encompassing the systems, people, and technology dimensions mutually necessary for any scalable and lasting advances in education. The innovative format for these activities is inspired by the TED talks, Wikipedia, and social networking. As in TED, a small set of leading researchers will be selected to give very short, very high quality, stimulating talks. These CyberLearning Talks will be featured at a 1-day summit meeting in Washington, DC, streamed so that local cyberlearning research communities may participate at a distance, and posted on a website. As in Wikipedia, CyberLearning Pages will be created, each page featuring a synopsis of a big idea in CyberLearning and the relevant research challenges. The 1-day conference will be followed by a small 1-day workshop focusing on how to evaluate cyberlearning efforts, identify progress, and identify important new directions. Finally, to disseminate and stimulate conversation about both the video talks and Wikipedia entries, a presence for the community will be created on social networking sites. The target outcomes of the effort will be (i) a cyberlearning research community with participants from across the many current constituent communities, and fostered awareness and appreciation of the broad range of expertise and interests across that wider community; (ii) foundations for sustained discussion of big ideas, insights, and challenges to help this new community define a more engaged, crisper vision of its own future, (iii) a community resource that can become a site for interconnecting stakeholders in the CyberLearning community and supporting investigators in improving field-generated proposals, and (iv) an emerging sense of direction for CyberLearning among a wider audience of leaders. Such community building and awareness is expected to foster collaborations that will lead to innovative and research-grounded ways of using technology to transform education -- formal and informal and across a lifetime.
SETAC is funded by the Lifelong Learning Programme of the European Union and emerges out of the need to undertake specific action for the improvement of science education. It regards science education as among the fundamental tools for developing active citizens in the knowledge society. SETAC draws on the cooperation between formal and informal learning institutions, aiming to enhance school science education and active citizenship looking further into the role of science education as a lifelong tool in the knowledge society. On the day of the project’s conclusion, 31 October 2010, after two years of work SETAC contributes the following products and results to the field: 1. “Quality Science Education: Where do we stand? Guidelines for practice from a European experience” This is the concluding manifesto that presents the results of the SETAC work in the form of recommendations for practitioners working in formal and informal science learning institutions; 2. “Teaching and Learning Scientific Literacy and Citizenship in Partnership with Schools and Science Museums” This paper constitutes the theoretical framework of the project and innovative ways of using museums for science education and develop new modes of linking formal and informal learning environments; 3. Tools for teaching and learning in science: misconceptions, authentic questions, motivation. Three specific studies, leading to three specific reports, have been conducted in the context of the project, looking in particular into notions with an important role in science teaching and learning. These are on: Children’s misconceptions; Authentic questions as tool when working in science education; Students’ attitudes and motivation as factors influencing their achievement and participation in science and science-related issues; 4. Activities with schools: SETAC developed a series of prototype education activities which were tested with schools in each country. Among the activities developed between the partners, two have been chosen and are available on-line for practitioners to use and to adapt in their own context. These are: The Energy role game, a role game on Energy invites students to act in different roles, those of the stakeholders of an imaginary community, called to debate and decide upon a certain common problem; MyTest www.museoscienza.org/myTest, which aims to encourage students to engage in researching, reflecting and communicating science-oriented topics; 5. European in-service training course for primary and secondary school teachers across Europe. The training course is designed in such a way as to engage participants in debate and exploration of issues related to science education and active citizenship. The course is open to school teachers, headteachers and teacher trainers from all EU-member and associate countries. Professionals interested can apply for a EU Comenius grant. All the products of the project as well as information about the training course are available at the project website, some of them in more than one languages: www.museoscienza.org/setac
The Learning and Youth Research and Evaluation Center (LYREC) is a collaboration of the Exploratorium, Harvard University, Kings College London, SRI International and UC Santa Cruz. LYREC provides technical assistance to NSF AYS projects, collects and synthesizes their impact data, and oversees dissemination of progress and results. This center builds on the Center for Informal Learning in Schools (CILS) that has developed a theoretical approach that takes into account the particular strengths and affordances of both Out of School Teaching (OST) and school environments. This foundation will permit strengthening the potential of the NSF AYS projects to develop strong local models that can generate valid and reliable data that can guide future investment, design and research aimed at creating coherence across OST and school settings. The overarching questions for the work are: 1. How can OST programs support K-8 engagement and learning in science, and in particular how can they contribute to student engagement with K-8 school science and beyond? 2. What is the range of science learning outcomes OST programs can promote, particularly when in collaboration with schools, IHE's, businesses, and other community partners? 3. How can classroom teachers and schools build on children's OST experiences to strengthen children's participation and achievement in K-12 school science Additionally, the data analysis will reveal: 1. How OST programs may be positioned to support, in particular, high-poverty, female and/or minority children traditionally excluded from STEM academic and career paths; and 2. The structural/organizational challenges and constraints that exist to complicate or confound efforts to provide OST experiences that support school science engagement, and conversely, the new possibilities which are created by collaboration across organizational fields. Data will be gathered from surveys, interviews, focus groups, evaluation reports, and classroom and school data.
Safe Techniques Advance Research – Laboratory Interactive Training Environment (STAR-LITE) is an innovative laboratory safety training created by the National Institutes of Health, Office of Research Services, Division of Occupational Health and Safety, for high school and undergraduate students. The training was designed to incorporate laboratory safety and risk assessment with the architecture of game-based learning. In this respect, STAR-LITE provides student users with a salient educational experience that uses visual and audio clues, strategic thinking, and physical action to enhance the learning experience. The goal of STAR-LITE is to expand the student’s knowledge base with an introduction to safe laboratory and common risk assessment techniques. STAR-LITE comprises a series of pursuit or Quest-based activities that occur in a virtual laboratory environment. Users direct individualized characters, or avatars, to interact and engage with the features in the virtual laboratory to progress through continuous challenges. STAR-LITE provides users with a significant, repeatable educational experience using visual and audio clues, strategic thinking, and physical action to enhance the learning process. This training offers a unique method of instruction by integrating development of critical thinking proficiencies and application of problem solving skills with visualization of consequences, which result from unsafe behaviors. STAR-LITE’s educational content is presented in a virtual laboratory environment in which virtual characters experience exposures to hazardous biological, chemical, and physical hazards with real-life consequences. Student users participate in a series of Quests that require interaction with characters and laboratory equipment. Basic laboratory safety skills and techniques are presented in the training. These skills and techniques include an introduction to potential biological, chemical, and physical hazards that may be present in multi-discipline laboratories; methods to prevent injuries in the laboratory; methods to protect students, colleagues, and the environment from potential hazards in the laboratory; and emergency preparedness and response basics. STAR-LITE was designed to ensure student users walk through a risk assessment process during each Quest. Because STAR-LITE is a digital game-based learning experience, users can repeat the training as many times as they like. The repeatability of this training enhances the student’s learning experience and allows them to pursue different risk assessment decision paths as they progress through the Quest.
Climate change science is becoming a more frequent and integral part of the middle school curriculum. This project, NASA Data in My Field Trip, proposes to leverage a regional network of Informal Science Institutions (ISIs) committed to climate change education, the Global Climate Change Consortium (GC3). This project will support climate change education in the formal curriculum by creating opportunities for inquiry-based exploration of NASA data and products in class and as part of already established field trip experiences to ISIs. The ISIs of the recently formed GC3 include a broad range of science-based institutions including Carnegie Museum of Natural History (CMNH), Carnegie Science Center (CSC), Phipps Conservatory and Botanical Gardens, National Aviary, and the Pittsburgh Zoo and PPG Aquarium. Partners, Pittsburgh Public Schools and Wilkinsburg School District have respectively 70 and 99% minority populations. NASA Data in My Field Trip will build innovative connections among NASA data and products, ISI resources and experiences, curriculum standards, and educators in formal and informal environments. It has three components: (1) joint professional development for formal and informal educators, (2) in-class pre-field trip data explorations, and (3) the integration of NASA resources into ISI field trip experiences. In the first phase of NASA Data in My Field Trip, CMNH and CSC will pilot NASA resources as central components of middle school climate change field trips as well as in pre-visit experiences. In the second phase, three other GC3 ISIs will tailor the pilot products to their climate change field trips. In both phases, formal and informal educators will participate in joint professional development. Alignment with the school districts' curriculum and formative evaluation is critical at all steps of this project and will guide and inform the implementation of the project through both phases. The success of the project will be measured in terms of (1) educators’ attitudes toward and ability to use NASA resources, (2) the effectiveness of in-class and field trip experiences for students, (3) the development of a community of practice among informal and formal educators, and (4) the adoption of NASA data and products into informal and formal programming outside of the project’s specified reach. Primary strengths of this project are that it brings NASA resources to underserved schools and includes ISIs that have a commitment to climate change education but have not previously connected with NASA or its resources. Techniques developed in this project will be tailored to a diversity of ISIs and can therefore serve as a replicable model for NASA products throughout the ISI field.
DATE:
TEAM MEMBERS:
Kerry HandronEllen McCallieJohn RadzilowiczPittsburgh Public SchoolsWilkinsburg School DistrictPittsburgh Zoo and PPG AquariumNational AviaryPhipps Conservatory and Botanical Gardens
The University of Washington’s Museology Program, in partnership with the Woodland Park Zoo and the Learning in Informal and Formal Environments Research Center is developing a model of university-community collaboration where students work with client museums, zoos and aquaria to evaluate exhibits and programs under the guidance of a research mentor. Students will gain experience in audience research and evaluation, as well as in project management, collaboration, and leadership. Staff at participating museums will advance their personal knowledge about visitors and the field of museum evaluation. The project will prepare a new generation of evaluators and museum practitioners through an innovative apprentice-styled laboratory that integrates the strengths of mentoring, fieldwork, academics, and client-centered experiences. Project Advisors include John Falk, Julie Johnson, Randi Korn, Marjorie Schwarzer, and Patterson Williams. Project started January, 2009 with 24 graduate students in the first cadre.