Front-line staff are an integral part of the visitor experience at museums and science centers across the country, facilitating activities and programs, leading classes, and more. But do these staff make a difference for visitor learning? And what are the most effective facilitation strategies and approaches? In 2013, the Oregon Museum of Science and Industry (OMSI) received funding from the National Science Foundation for a three-year study, Researching the Value of Educator Actions for Learning (REVEAL), to begin to address these questions. Building on the Design Zone exhibition, REVEAL
This study was a longitudinal summative evaluation of repeat visitors’ experiences in four Math Moves! exhibitions that were developed as part of a large collaborative exhibition development project called Math Core for Museums, and mounted at four museums around the country: Museum of Science (Boston); Museum of Life & Science (Durham, NC); Explora (Albuquerque); and Science Museum of Minnesota (St. Paul). The summative evaluation purposively selected four family groups at each institution and collected naturalistic data as the 16 groups engaged with the exhibits from 4-6 times over a two
In December the Science Museum will open Mathematics: The Winton Gallery. The new gallery tells mathematical stories in relation to a broad spectrum of fundamental human concerns. One of the key exhibits is a newly acquired machine for modelling storm surges in the North Sea. Designed by Japanese engineer Shizuo Ishiguro, the object offers a way to explore the far-reaching impact and relevance of mathematical work.
The REVEAL project is an NSF funded project to learn about how facilitation impacts family’s experiences of math exhibits. The goal of the project was to iteratively develop and refine a theoretical model of how staff facilitation deepens and extends family mathematical discourse at interactive exhibits. This model underwent rigorous testing and ultimately provided the evidence and research-based tools to support PD efforts for informal STEM educators. As part of this testing the learnings from developing at OMSI (Oregon Museum of Science and Industry, in Portland, Oregon) were applied in an
This essay is an account of the making of England and her Soldiers (1859) by Harriet Martineau and Florence Nightingale. The book is a literary account of the Crimean War, written by Martineau and based on Nightingale’s statistical studies of mortality during the conflict. Nightingale was passionate about statistics and healthcare. Whilst working as a nurse in the Crimea, she witnessed thousands of soldiers die of infectious diseases that might have been prevented with proper sanitation. After the war, she launched a campaign to convince the British government to make permanent reforms to
This poster was presented at the 2016 Advancing Informal STEM Learning (AISL) PI Meeting held in Bethesda, MD on February 29-March 2. REVEAL is using a two-phase research design, including a phase 1 design-based research study followed by a phase 2 experimental study, to investigate and measure the impact of staff facilitation on family mathematical discourse at exhibits and identify factors that influence the outcomes of these interactions. The project has an emphasis on culturally responsive research and education approaches.
The project "Microetching of the Human Brain" endeavors to create the most comprehensive illustration of the human brain that has ever existed. Investigators will utilize reflective microetching, a process combining mathematics and optics to create an art piece that evolves based on the position of the viewer. Microetching allows the depiction of very complex brain activity at incredibly fine detail. The final piece will be a wall-sized piece of fine art experienced by a diverse population of thousands daily at the Franklin Institute in Philadelphia. Additionally, this project is an educational opportunity for undergraduate students through direct involvement in the creation of the piece. As this project spans many scientific and artistic disciplines, students will be given an opportunity to learn about fields apart from their own, to broaden their skill set, and to learn how to communicate scientific concepts effectively. This project is a collaboration between neuroscientists, engineers, physicists, and artists to address the question of whether art can be used in the dissemination of scientific understanding to new audiences in a way that gives a visceral sense of the underlying concepts. The human brain is massively complex and challenging to portray clearly. Conveying a sense of its complexity through art may inspire an interest in the brain's scientific content and inspire a new generation of neuroscientists. To produce a piece of fine art capable of sufficient detail to depict the brain at near full complexity, the piece will be executed by a technique called reflective microetching. Microetching is a high-resolution lithographic process that patterns a microtopography of periodic ridges into the surface. These ridges are engineered to reflect a point-source illumination toward a viewer when standing at a specific angle relative to the painting. Similar to darkfield microscopy, this can yield incredibly fine detail. Additionally, the angular dependence of the light adds an extra dimension that can be used to convey time, depth, or motion as the viewer walks past. The piece will feature neurons, glia, vasculature, white and gray matter, and reflectively animated circuit dynamics between areas of the brain corresponding to neural processes involved in visual self-recognition. This will infuse the piece with additional meaning, as the circuits activated within viewers' brains will be the same that are depicted in the artwork.
STEMtastic: NASA in Our Community is a two-year project designed to educate and inspire teachers, students and life-long learners to embrace NASA STEM content. The project will increase awareness of NASA activities, while educating and inspiring students to train for careers that are critical to future economic growth of the country in general, and NASA’s future missions in particular. The Virginia Air & Space Center (VASC) will partner with the Virginia Space Grant Consortium and Analytical Mechanics Associates, Inc. to accomplish this project. VASC will deliver NASA STEM content through (1) STEMtastic Teacher Institutes and Education Modules: (a) a series of two five-day professional development institutes for educators which will result in the (b) development and dissemination of new education modules for grades 4-9; and (2) STEMtastic Exhibits and Demonstrations: new interactive exhibits to used for live demonstrations at VASC; those demonstrations will also be delivered to traditionally underserved schools in the region. All classroom and teaching materials—educator institutes, education modules, exhibit software and demonstration modules—will be developed using NASA content and shared with other institutions to promote the expansion of knowledge about best practices in providing STEM education in both formal and informal education settings. STEMevals, a robust evaluation plan, will be implemented to assess success in each project area. Adjustments will be made along the pipeline to increase effectiveness in reaching the target audience. The project has the potential to reach countless educators, students and museum visitors throughout the U.S."
This three-year research project will study the impact of science center staff facilitation strategies in the area of mathematics learning in a museum exhibit environment. The three main deliverables are: (1) Iteratively developing and refining a theoretical model of how staff facilitation can deepen and extend family mathematical discourse at interactive exhibits; (2) Rigorously testing key components of this model, including the relationship between staff facilitation and the nature of family mathematical discourse; and (3) Providing evidence and research-based tools to support PD efforts for informal STEM educators. The project will leverage the success of the NSF-funded Access Algebra project (DRL-0714634) to advance the field's understanding of socially mediated, informal math learning and identify effective, evidence-based facilitation approaches. The project's research will build from theoretical notion of sociomathematical norms (Yackel & Cobb, 1996), which is currently based on classroom research. A key element of the project will be to determine whether and how, the norms can be applied to informal learning environments. The first phase of the project begins with a qualitative, design-based research (DBR) study to develop a theoretical model of staff-facilitated family math learning, including staff facilitation strategies that support family mathematical discourse and contextual factors that influence that discourse. In the second phase of the project, the team will use an experimental approach to rigorously test the staff facilitation model developed during Phase 1. This mixed-method design will allow the team to both study the complexities of informal math learning and rigorously test causal connections between staff facilitation and the level of family math discourse. Finally, the project staff will provide tools to support PD efforts for informal STEM educators across the country.
This research project led by the Exploratorium will use a combination of tracking and timing, cluster analysis, and focus groups to seek to answer the research question: To what extent and in what ways do female-responsive designs more effectively engage girls at STEM exhibits? This project addresses the need for more research in this area by pioneering the study of potential female-responsive design (FRD) principles for exhibits across a wide variety of STEM topics and exhibit types. This project includes four phases that will build from the work of the PI that developed an initial Female-Responsive Design (FRD) Framework regarding female engagement and learning in STEM -- based on extensive literature review and practitioner interviews. This project will expand on and validate this FRD Framework, with the ultimate goal of having a set of criteria for female-responsive designs (FRD) that effectively engage girls at STEM exhibits. The four phases of the research project are: Phase 1: Track 1000 boys and girls across three institutions using over 300 physics, engineering, and math exhibits to identify which exhibits engage boys and girls equally, and which are less engaging for girls. Phase 2: A panel of experts and girl advisors identify additional female-responsive design principles, expanding on those identified to date in literature and practice. Phase 3: Combining results from the first two phases, the third phase employs statistical analyses to reveal the most effective combinations of design principles for engaging girls across a variety of exhibits. Phase 4: This qualitative phase conducts focus groups with girls to explore how the final FRD Framework works to better engage them, and how their learning differs at exhibits that exemplify the principles in the Framework.
The National Federation of the Blind (NFB), with six science centers across the U.S., will develop, implement, and evaluate the National Center for Blind Youth in Science (NCBYS), a three-year full-scale development project to increase informal learning opportunities for blind youth in STEM. Through partnerships and companion research, the NCBYS will lead to greater capacity to engage the blind in informal STEM learning. The NCBYS confronts a critical area of need in STEM education, and a priority for the AISL program: the underrepresentation of people with disabilities in STEM. Educators are often unaware of methods to deliver STEM concepts to blind students, and students do not have the experience with which to advocate for accommodations. Many parents of blind students are ill-equipped to provide support or request accessible STEM adaptations. The NCBYS will expose blind youth to non-visual methods that facilitate their involvement in STEM; introduce science centers to additional non-visual methods that facilitate the involvement of the blind in their exhibits; educate parents as to their students' ability to be independent both inside and outside the STEM classroom; provide preservice teachers of blind students with hands-on experience with blind students in STEM; and conduct research to inform a field that is lacking in published material. The NCBYS will a) conduct six regional, two-day science programs for a total of 180 blind youth, one day taking place at a local science center; b) conduct concurrent onsite parent training sessions; c) incorporate preservice teachers of blind students in hands-on activities; and d) perform separate, week-long, advanced-study residential programs for 60 blind high school juniors and seniors focused on the design process and preparation for post-secondary STEM education. The NCBYS will advance knowledge and understanding in informal settings, particularly as they pertain to the underrepresented disability demographic; but it is also expected that benefits realized from the program will translate to formal arenas. The proposed team represents the varied fields that the project seeks to inform, and holds expertise in blindness education, STEM education, museum education, parent outreach, teacher training, disability research, and project management. The initiative is a unique opportunity for science centers and the disability population to collaborate for mutual benefit, with lasting implications in informal STEM delivery, parent engagement, and teacher training. It is also an innovative approach to inspiring problem-solving skills in blind high school students through the design process. A panel of experts in various STEM fields will inform content development. NCBYS advances the discovery and understanding of STEM learning for blind students by integrating significant research alongside interactive programs. The audience includes students and those responsible for delivering STEM content and educational services to blind students. For students, the program will demonstrate their ability to interface with science center activities. Students will also gain mentoring experience through activities paired with younger blind students. Parents and teachers of blind students, as well as science center personnel, will gain understanding in the experiences of the blind in STEM, and steps to facilitate their complete involvement. Older students will pursue design inquiries into STEM at a more advanced level, processes that would be explored in post-secondary pursuits. By engaging these groups, the NCBYS will build infrastructure in the informal and formal arenas. Society benefits from the inclusion of new scientific minds, resulting in a diverse workforce. The possibility for advanced study and eventual employment for blind students also reduces the possibility that they would be dependent upon society for daily care in the future. The results of the proposed project will be disseminated and published broadly through Web sites; e-mail lists; social media; student-developed e-portfolios of the design program; an audio-described video; and presentations at workshops for STEM educators, teachers of blind students, blind consumer groups, researchers in disability education, and museum personnel.