Merging art and science, "Self Reflected" aims to communicate the incredible complexity of the neural signaling in our brains that makes us who we are. The artists, Dr. Greg Dunn and Dr. Brian Edwards, invented a novel technique called reflective microetching to simulate the microscopic behavior of neurons in the viewer’s brain as they observe this work of art. "Self Reflected" is currently on display in the Your Brain exhibit at The Franklin Institute in Philadelphia. This summative evaluation study explores museum visitors’ behavior, reactions, and learning outcomes as they interact with
Nowadays, India is experiencing a widespread diffusion of science communication activities. Public institutions, non-governmental organisations and a number of associations are busy spreading scientific knowledge not only via traditional media but also through specific forms of interaction with a varied public. This report aims to provide a historical overview of the diffusion of science communication in India, illustrating its current development and its future prospects.
In this article, Michael John Gorman, founding director of Science Gallery at Trinity College Dublin, Ireland, examines the recent emergence of many museum exhibits that meld art and science together to foster creative exploration of science rather than instruction. As an exemplar, Gorman discusses the design of Science Gallery, their "INFECTIOUS" project, and lessons learned.
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.
This is an abstract of Barbara J. Soren's 1990 Ph.D. Dissertation at Toronto University. Soren used an interpretive approach to understand the educational function of museums in curriculum-making terms. Soren conducted research at three informal sites in Ontario and found that planning for public education has features typical of a formal. curriculum-making process.
This study showcases the two of the most recent exhibits in the Art/Science gallery at the Museum of Science: What I Eat: Around the World in 25 Diets and Bonsai: Creating Art with Nature. By analyzing information from two different exhibits that were shown in the same space, themes emerged across both exhibit experiences that can inform the exhibit team more broadly about the gallery's audience and effect on visitors. Evaluation Questions: In what ways are visitors interacting with the exhibits? What do visitors find most interesting about the exhibits? Which connections are visitors making
Revealing Bodies was an experimental exhibition that explored the messages and meanings found in biomedical and anatomical representations of human bodies. It further explored what happens when these images are removed from their original context and reinterpreted for other purposes such as arts, advertising and politics. The exhibition also examined how the culture and point of view of the original creator may have shaped the image and what happens to this intent with the iterations of time and societal change. The exhibition was approximately 4000 square feet. It was a mix of artworks
The Children's Museum of Indianapolis will develop a 6,000-sq. ft. traveling exhibition about bones, helping children and adults learn about the science of bones, maintenance of healthy bone structures and the cultural and artistic uses of bones. Also, the exhibition will help inform upper elementary and middle school audiences of career possibilities in science, further an understanding of bones as revealed through modern technology and promote understanding of the skeletal system. A Web site, teacher workshops, kits and other materials and events will support learning through this exhibition.