Focusing on climate change and its impact on coastal zones and marine life, Visualizing Change will build educator capacity in the aquarium community and informal science education field. Building on NOAA datasets and visualizations, we will provide interpreters with strategic framing communication tools and training using the best available social and cognitive research so that they can become effective climate change educators. Objectives are to (1) Develop and test four exemplary interpretive "visual narratives" that integrate research-based strategic communication with NOAA data visualization resources; (2) Test the application of the visual narratives in a variety of geographic regions, institution types (aquarium, science center, etc.), and using multiple technology platforms (Science on a Sphere, Magic Planet portable globe display, iPad/tablets, and video walls); (3) Build a professional development program for climate change interpretation with data visualization; and (4) Leverage existing networks for dissemination and peer support.
This project supports environmental education and outreach activities that promote the ocean and coastal stewardship and climate literacy goals of NOAA and the National Marine Sanctuary Foundation. Specifically, the partnership supports: (1) development of education and outreach materials; (2) professional development to educators and science communicators, (3) competitions that promote the goals of the partnership; (4)the activities of the Science on a Sphere Users' Collaborative Network; and (4) evaluation of partners' programs.
Previous studies on public engagement with science have identified various difficulties in the encounters between experts and lay people. However, there is a scarcity of research investigating expert-youth interaction. In this paper we focus on the interactive framings of an informal PES event. Based on a case study involving a climate change panel discussion and a simultaneous online chat, both aimed at young people, we discuss the multiplicity of framing. Further, we look for “misbehaviours” which challenge the rationality and norms of the event. Our findings indicate that the frame of
Discover NASA is the Discovery Museum’s endeavor to engage students in grades K through 12 as well as members of the general public in innovative space science and STEM-focused learning through the implementation of two modules: upgrades to the Challenger Learning Center, and the creation of K through 12 amateur rocketry and spacecraft design programming. The programming will be piloted at the Discovery Museum and Planetarium, and at the Inter-district Discovery Magnet School and the Fairchild-Wheeler Multi-Magnet High School, with an additional strategic partnership with the University of Bridgeport, which will provide faculty mentors to high school seniors participating in the rocketry program. Through these two modules, the Discovery Museum and Planetarium aims to foster an early interest in STEM, increase public awareness about NASA, promote workforce development, and stimulate an interest in the future of human space exploration. Both modules emphasize design methodologies and integration of more advanced space science into the STEM curriculum currently offered by Discovery Museum to visitors and public schools. The Challenger Learning Center upgrades will enable the Museum to deliver simulated human exploration experiences related to exploration of the space environment in Low Earth Orbit and simulated human exploration of Moon, Mars, and beyond, which will increase public and student awareness about NASA and the future of human space exploration. The development of an amateur rocketry and spacecraft development incubator for education, the general public, and commercial space will stimulate the development of key STEM concepts.
Prince George’s County Public Schools (PGCPS) Howard B. Owens Science Center (HBOSC) will infuse NASA Earth, Heliophysics, and Planetary mission science data into onsite formal and informal curriculum programs to expand scientific understanding of the Earth, Sun, and the universe. The goal of the project is to develop a pipeline of programs for grades 3-8 to enhance teacher and student understanding of NASA Science Mission Directorate (SMD) Earth, Planetary, and Heliophysics science and promote STEM careers and understanding of NASA career pathways using the HBOSC Planetarium, Challenger Center and classrooms. During the school year, PGCPS students in Grades 3 through 8 will experience field trip opportunities that will feature NASA Sun-Earth connection, comparative planetology, Kepler Exoplanet data, and NASA Space Weather Action Center data. PGCPS Grade 3 through 8 teachers will receive summer, day, and evening professional development in comparable earth and space science content both engaging the HBOSC Planetarium and Challenger facility and its resources. The students and teachers in four PGCPS academies (Grades 3 through 8) will serve as a pilot group for broader expansion of the program district-wide. ESPSI will provide opportunities for county-wide participation through community outreach programs that will promote NASA Earth, Heliophysics, and Planetary mission data. Community outreach will be offered through piloting the Maryland Science Center outreach program to four of PGCPS southern located schools and monthly evening planetarium shows along with quarterly family science nights that will include guest speakers and hands-on exhibits from the local science community and Goddard Space Flight Center (GSFC).
Researchers at the American Association of Variable Star Observers, the Living Laboratory at the Boston Museum of Science, and the Adler Planetarium are studying stereoscopic (three-dimensional or 3D) visualizations so that this emerging viewing technology has an empirical basis upon which educators can build more effective informal learning experiences that promote learning and interest in science by the public. The project's research questions are: How do viewers perceive 3D visualizations compared to 2D visualizations? What do viewers learn about highly spatial scientific concepts embedded in 3D compared to 2D visualizations? How are viewers\' perceptions and learning associated with individual characteristics such as age, gender, and spatial cognition ability? Project personnel are conducting randomized, experimental mixed-methods research studies on 400 children and 1,000 adults in museum settings to compare their cognitive processing and learning after viewing two-dimensional and three-dimensional static and dynamic images of astronomical objects such as colliding galaxies. An independent evaluator is (1) collecting data on museum workers' and visitors' perceived value of 3D viewing technology within museums and planetariums and (2) establishing a preliminary collection of best practices for using 3D viewing technology based on input from museum staff and visitors, and technology creators. Spatial thinking is important for learning many domains of science. The findings produced by the Two Eyes, 3D project will researchers' understanding about the advantages and disadvantages of using stereoscopic technology to promote learning of highly spatial science concepts. The findings will help educators teach science in stereoscopic ways that mitigate problems associated with using traditional 2D materials for teaching spatial concepts and processes in a variety of educational settings and science content areas, including astronomy.
We examined the durability of students’ understanding of lunar phenomena one year after a combination of planetarium and classroom lessons. Children (N=16) were interviewed before and after instruction during Year 1 and then again one year later. Analysis of the interview results and instruction reveals that many students retained an understanding of some of the key constructs targeted in the program. Results also suggest that students were more likely to learn and remember challenging constructs that they actively engaged with in both the planetarium and the classroom.
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Pennsylvania State UniversityJulia PlummerArcadia University
The Global Viewport for Virtual Exploration of Deep-Sea Hydrothermal Vents is a Track 2 project using spherical display systems to educate the public about the global significance of vents in the world's oceans and in the dynamic processes of Earth as a whole. The project is a collaboration between the Woods Hole Oceanographic Institution and the Ocean Explorium at New Bedford Seaport, members of the Magic Planet Community and Science On a Sphere® (SOS) Network, respectively. The proximity of the two institutions enables a unique evaluation of the learning attained with a stand-alone spherical display vs. live presentations with an SOS. The new content for spherical display systems will address key principles of Earth Science Literacy and Ocean Literacy. Imagery and data from research cruises are being used to: show how hydrothermal vents link dynamic processes in the lithosphere, hydrosphere, and biosphere; promote stewardship of life in remote environments; and excite viewers about the deep ocean frontier including exploration, research, and resources. The Global Viewport project is geared towards informal science education but also includes a component for teacher professional development from schools in towns with populations underrepresented in STEM fields. An online portal for content on Google Earth enables virtual exploration of deep-sea vents from home, extending the learning experience beyond a single visit to an informal science education institution. The online content, including interactive learning modules and games, is being promoted to marine educators and scientists at national conferences and through the COSEE social network.
The Global Viewport project was an integrative collaboration between the Woods Hole Oceanographic Institution (WHOI) and. the New Bedford Oceanarium Corporation dba Ocean Explorium at New Bedford Seaport (hereafter, Ocean Explorium). The main thematic area that was addressed is Improving Public Earth System Science Literacy. A main objective of the Global Viewport project was to address Goal 1 of the GEO Education and Diversity Strategic Plan (2010-2015): “Advancing public literacy in Earth System Science.” For this evaluation the public interacted with spherical display content in an informal
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Woods Hole Oceanographic Institution (WHOI)Meredith Emery
This report summarizes findings from an evaluation of the NSF-funded project: Two Eyes, 3D. Through collaborations with two museums, the project sought to develop and test learning outcomes for stereoscopic (3D) resources. More specifically, the external evaluation—conducted by Rockman Et Al—sought to determine the perceived value of using stereoscopic technology within museums and planetariums, uncover best practices for implementation of stereoscopic resources, and further explore best practices for research partnerships within museum settings.
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American Association of Variable Star ObservrsJennifer Borland
Stereoscopic technology (3D) is rapidly becoming ubiquitous across research, entertainment and informal educational settings. Children of today may grow up never knowing a time when movies, television and video games were not available stereoscopically. Despite this rapid expansion, the field’s understanding of the impact of stereoscopic visualizations on learning is rather limited. Much of the excitement of stereoscopic technology could be due to a novelty effect, which will wear off over time. This study controlled for the novelty factor using a variety of techniques. On the floor of an
The National Science Education Standards [National Research Council (1996) National science education standards. Washington, DC: National Academy Press] recommend that students understand the apparent patterns of motion of the sun, moon and stars by the end of early elementary school. However, little information exists on students’ ability to learn these concepts. This study examines the change in students’ understanding of apparent celestial motion after attending a planetarium program using kinesthetic learning techniques. Pre- and post-interviews were conducted with participants from seven
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Pennsylvania State UniversityJulia Plummer