Exploratorium’s The Phenomenal Genome: Evolving Public Understanding of Genetics in the Post-Mendelian Era project addresses the increasing need to develop genomic literacy in the public at large. The explosion of genomics research over the past two decades has led to an increasingly complex picture of the determinants of human health and human phenotypes, and the applications of this research are now making their way into the clinic, the media, and the hands of consumers. The goal of this project is to create a model for increasing genomic literacy through Informal Science Education programming (ISE), creating a pathway for better decision making for the health of individuals and society at large. The Phenomenal Genome focuses on general science museum visitors and teachers of middle and high school students.
The core of the Exploratorium’s approach to science education is the creation of intriguing, provocative and investigable phenomena that are experienced directly and personally through exhibits, facilitated explorations, programs, and teacher professional development. Over two years, we will develop, test, and iterate inquiry-based professional development to help teachers develop understanding and integrate the principles of contemporary genomics and genetics into their classrooms. 120 middle and high school teachers will be served during this period, and many more beyond that, as the activities and workshops developed become a regular part of our teacher professional development programming. A learning scientist specializing in teacher learning will conduct research to determine which approaches and experiences are most effective for this context, and why.
In a parallel process, we will develop and test exhibits and experiences on the museum floor for museum visitors, using a similar iterative process of prototype testing with an embedded learning scientist to study visitor learning. We plan to define the approaches that work across audiences and contexts, as well as those that work best in particular contexts.
Through this work, we will develop new resources for teaching and learning contemporary genomics and genetics, and identify promising practices in communicating contemporary genomics and genetics in informal spaces across audiences. We will disseminate our findings via conferences, peer-reviewed articles, and workshops for the ISE community.
Biology has become a powerful and revolutionary technology, uniquely poised to transform and propel innovation in the near future. The skills, tools, and implications of using living systems to engineer innovative solutions to human health and global challenges, however, are still largely foreign and inaccessible to the general public. The life sciences need new ways of effectively engaging diverse audiences in these complex and powerful fields. Bio-Tinkering Playground will leverage a longtime partnership between the Stanford University Department of Genetics and The Tech Museum of Innovation to explore and develop one such powerful new approach.
The objective of Bio-Tinkering Playground is to create and test a groundbreaking type of museum space: a DIY community biology lab and bio-makerspace, complete with a unique repertoire of hands-on experiences. We will tackle the challenge of developing both open-ended bio-making activities and more scaffolded ones that, together, start to do for biology, biotech, and living systems what today’s makerspaces have done for engineering.
A combined Design Challenge Learning, making, and tinkering approach was chosen because of its demonstrated effectiveness at fostering confidence, creative capacity, and problem solving skills as well as engaging participants of diverse backgrounds. This educational model can potentially better keep pace with the emerging and quickly evolving landscape of biotech to better prepare young people for STEM careers and build the next generation of biotech and biomedical innovators.
Experience development will be conducted using an iterative design process that incorporates prototyping and formative evaluation to land on a final cohort of novel, highly-vetted Bio-Tinkering Playground experience. In the end, the project will generate a wealth of resources and learnings to share with the broader science education field. Thus, the impacts of our foundational work can extend well beyond the walls of The Tech as we enable other educators and public institutions around the world to replicate our model for engagement with biology.
Science museums have made a concerted effort to work with researchers to incorporate current scientific findings and practices into informal learning opportunities for museum visitors. Many of these efforts have focused on creating opportunities and support for researchers to interact face-to-face with the public through, for example, speaker series, community forums, and engineering competitions. However, there are other means by which practicing scientists can find a voice on the museum floor—through the design and development of exhibits. Here we describe how researchers and museum
Genetics was developed by The Tech staff in collaboration with Stanford University and was funded by the National Institutes of Health Science Education Partnership Award (SEPA) program. The evaluation documents the impact and effectiveness of the exhibition using timing and tracking observations and exit interviews. It also examines the partnership between The Tech and Stanford University through interviews with graduate students, who conduct programs in the exhibition, and their supervisor (results are not included in this summary).
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Randi KornThe Tech Museum of Innovation
In 2006, the Science Museum of Minnesota carried out a formative evaluation of the traveling exhibition, Disease Detectives. Disease Detectives features an immersive environment where visitors investigate a case by meeting a patient (an interactive mannequin), interpreting lab tests, and exploring specific environments to learn more about disease transmission and prevention. Each case highlights a different mode of disease transmission and the relevant illnesses. The purpose of this evaluation was to look at the usability and learning outcomes of one of the three proposed scenarios for the
The Yale Peabody Museum of Natural History asked Ellen Giusti to evaluate visitor learning in its temporary exhibition, Invasion of the Bloodsuckers: Bedbugs and Beyond! The exhibition, supported by a grant from the SEPA division of the National Institutes of Health, focuses on six blood-feeding species: bedbug, flea, head louse, pubic louse, mosquito and tick. The centerpieces of the exhibition are greatly enlarged, highly detailed models of the six organisms. A text panel with images and information accompanies each model. Two displays contain live animals mosquitos and bedbugs. An
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Ellen GiustiYale Peabody Museum of Natural History
Bio Med Tech: Engineering for Your Health was a 2,750 square foot exhibition at the Great Lakes Science Center (GLSC) that dealt with issues related to biomedical technology. Partially funded by a grant from the National Institutes of Health Science Education Partnership Awards program (NIH/SEPA), the project was developed through a partnership between GLSC and Case Western Reserve University. The SEPA grant also funded a variety of programming activities, including informal Exploration Cart activities in the exhibition, presentations in the exhibition's theater space, and teacher training
The Science Museum of Minnesota (SMM) contracted with Randi Korn & Associates, Inc. (RK&A) to evaluate Disease Detectives, a traveling exhibition made possible by a Science Education Partnership Award from the National Center for Research Resources, a component of the National Institutes of Health. RK&A conducted a summative evaluation to investigate how visitors experienced the exhibition and how effectively the exhibition conveyed information about infectious diseases. Data were collected through standardized questionnaires and in-depth interviews.
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Randi Korn & Associates, Inc.Science Museum of Minnesota
The Science Museum of Minnesota (SMM) contracted Randi Korn & Associates, Inc. (RK&A) to simultaneously conduct a remedial evaluation of the exhibition Tissues of Life and its associated elements: the Web site with the same name, presentations at the Demonstration Station, and the What is Life?, play. The National Institutes of Health funded all elements. Data collection took place between July and October 2003. Three data collection strategies were employed: timing and tracking observations, uncued exit interviews, and telephone interviews. Additionally, to understand presenters' experiences
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Randi Korn & Associates, Inc.Science Museum of Minnesota
Randi Korn & Associates, Inc. (RK&A) was contracted by the Science Museum of Minnesota (SMM) to evaluate Tissues of Life, an exhibition funded by the National Institutes of Health. Data collection took place at the SMM in July and August 2004. The evaluation documents the impact and effectiveness of the exhibition through timing and tracking observations and exit interviews.
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Randi Korn & Associates, Inc.Science Museum of Minnesota
This report summarizes a summative evaluation of Amazing Feats of Aging, an exhibition developed by staff at the Oregon Museum of Science and Industry (OMSI) in Portland, Oregon. Patricia McNamara, an independent evaluator, designed this study to document the exhibition's impact on visitors at two locations: its permanent installation at OMSI itself and at the installation of the exhibit's traveling version at the Lafayette Museum of Natural History (LMNH) in Lafayette, Louisiana. Data collection strategies included visitor interviews, self-administered questionnaires and unobtrusive
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Patricia McNamaraOregon Museum of Science and Industry
The Great Lakes Science Center, in collaboration with Case Western Reserve University (CASE), proposes to develop a permanent exhibition and related programs on biomedical engineering. The successful implementation of this project would allow CASE and GLSC to inform a broad constituency about select biomedical research advancements, applied technologies, and their relevance to society. When the project is completed, we will be able to expose many thousands of visitors each year to the updated exhibition - increasing their interest in and understanding of important science concepts underlying advancements in biomedical technology. The exhibition would encompass approximately 2000 square feet and feature approximately 20 exhibits, most of which would be interactive. The major audiences for the exhibition include families, school groups, and general museum visitors. The BioMedTech exhibition is located on the Science Center's main floor, which places an emphasis on the science and technology of particular importance to Northeast Ohio. The exhibition will be accompanied by educational programming, public programs, and wide dissemination around the region and within the Science Center world. When fully implemented, the project could reach many hundreds of thousands of visitors and garner national attention through dissemination efforts. Visitors to the exhibition and participants in related programs will come to a better understanding of the connections between biology and technology while learning of science and engineering's role in improving the quality of life in our society.