An effective communication of astronomy cannot take place without considering the view the general public has on the universe. Through a number of narrative interviews with non-experts, a research was carried out on personal cosmologies, to outline the public’s heterogeneous astronomical imagery. The result is a bundle of conceptions, perceptions and attitudes which are useful to interpret the difficulties the public experiences when facing the contents of astrophysics, and to establish an ongoing dialogue.
Before analysing the role of the mediators in relation to scientific education, I deem it important to provide a short overview on how scientific museums evolved from the early curiosity cabinets to the modern web cast. Although the term “museum” is no longer adapted to the new structures employed for the diffusion of scientific and technical culture, the evolution of the means of presentation has indeed led to several forms of human mediation. This is of course the main topic we are going to take into consideration today, as it is an important element for the impact our exhibitions may have
If we wish to attempt an initial analysis of the inquiry on the communication of science in Brazil, India and China that JCOM proposed in its three most recent issues, we should paraphrase Chinese science and science-fiction writer, Yan Wu: even though these three countries are emerging in the fields of economy and science, and are now part of a wide group of communicators, promoting numerous methods to divulge information, they don't yet have a sound theory on the communication of science to the public. This is not an insignificant problem because according to David Dickson, the director of
Science and technology: these are the mainstays China wants to concentrate on in order to stabilise its future as an emerging world power. Beijing plans to have the whole, enormous Chinese population literate in the scientific field within a few years. Scientific popularization is the key to what now, due to political influences and deep social disparities, seems remote.
The scientific institution in Brazil is marching to a good rhythm. Despite problems in funding (and in the very irregular distribution of such funds), universities and private research centers changed and grew over the last few years. In 1999, Brazil (whose external debt is over 50% of GDP), invested 0.87% of GDP in Research & Development: a percentage comparable to that of several Mediterranean countries.
In the field of scientific communication in Europe, science centres have gained increasing importance over the last ten years. Italy, beyond the City of Science in Naples, is also planning the set up of more science centres throughout the country. Their hands-on style makes them something between a museum and a fun fair and, beyond the issue of merit, no doubt the success of many science centres also depends on the fun offered. It is important then to be able to assess to what extent people can actually make use of the proposed themes. This report tries to point out the dialogue opportunities
The Nanoscale Informal Science Education Network (NISE Network) is a national infrastructure that links science museums and other informal science education organizations with nanoscale science and engineering research organizations. The Network’s overall goal is to foster public awareness, engagement, and understanding of nanoscale science, engineering, and technology. As part of the front-end effort, this report, Part IIB, documents 19 nanoscale STEM programming, media, and school-based projects that have been completed or are in development as of 2005.
Supported in major part by the National Science Foundation, The Human Spark (THS) project includes a three-part national PBS television series hosted by Alan Alda and a multifaceted outreach initiative to engage public television stations and their partner science museums nationwide in order to extend the utilization and impact of the project. As an independent evaluator, Multimedia Research was contracted by Thirteen to capture how the collaboration between television station and science museum outreach grantees and their respective outreach activities meet the stated goals of the outreach
Through this review of research on public engagement with science, Feinstein, Allen, and Jenkins advocate supporting students as “competent outsiders”—untrained in formal sciences, yet using science in ways relevant to their lives. Both formal and informal settings can be well suited for work in which students translate scientific content and practices into meaningful actions.
This poster was presented at the 2016 Advancing Informal STEM Learning (AISL) PI Meeting held in Bethesda, MD on February 29-March 2. This project develops and researches the integration of Peg + Cat (an animated, math-based PBS television series for preschoolers), accompanying digital media, and early childhood educator professional development (PD). PD is designed to enhance educators’ abilities to support preschoolers’ social-emotional learning in the context of math activities, and in turn, their interest and engagement in math. The project also includes recommendations for engaging
This poster was presented at the 2016 Advancing Informal STEM Learning (AISL) PI Meeting held in Bethesda, MD on February 29-March 2. Dr. Discovery addresses the immediate and pressing need for affordable, ongoing, large-scale museum evaluation while encouraging visitors to engage deeply with museum content. The app features a front-end scientist astronaut for use by museum visitors that doubles as an unobtrusive data-gatherer as well as a back-end analytics portal for museum staff, evaluators, and researchers.
In 2011 the Bishop Museum and two collaborating organizations, University of Hawai’i at Manoa (UH) and the Pacific Voyaging Society (PVS), were awarded a multi-year grant from the Native Hawaiian Education Program (NHEP) to develop classroom and dockside curricula, an online resource center for educators, teacher workshops, a planetarium show, and a field-trip program for middle school students. The overall goal of these educational products and programs is to make STEM content accessible to Native Hawaiian students by presenting it through the lens of ancient Hawaiian navigational systems.