Public images of scientific researchers –as reflected in the popular visual culture as well as in the conceptions of the public- combine traditional stereotypic characteristics and ambivalent attitudes towards science and its people. This paper explores central aspects of the public image of the researcher in Greek students’ drawings. The students participated in a drawing competition held in the context of the ‘Researcher’s Night 2007’ realized by three research institutions at different regions of Greece. The students’ drawings reveal that young people hold stereotypic and fairly traditional
Barbara Streicher is the executive manager of the Austrian Science Center Netzwerk, a network grouping over ninety Austrian institutions committed to science communication activities. Barbara used discussion games on many different occasions, all of which were outside a museum, and took place in places such as cafés, libraries, schools, but also shelters for homeless people and prisons. The communication exchange among participants always proved to be very open and respectful at the same time, even when the topics dealt with were especially sensitive and in social distress conditions. The game
Puppet interviews can be helpful for getting feedback from young children in informal learning environments like libraries, museums, or afterschool programs. While puppets are a standby for interviewing children in clinical settings and are being used more frequently in some areas of qualitative research, they tend to be under-utilized in informal learning environments - natural settings for puppets because of their connections with play (Epstein et al., 2008). Our team developed a puppet interview protocol for the Gradient research project (Gender Research on Adult-child Discussion in
Scientific communication also pertains to the domain of society, where the formation of public opinion about science and technology is taking place. Concerning this process, two main points are exposed in the commentary. The first is a proposition on how the public as a social category may be conceptualized, and the second is the extent of the participation of members of the public in strengthening socialization and democratization practices in new, highly complex, contexts of scientific research. The public is conceptualized to include all citizens no matter their professional origin
Whether we like it or not, and how many difficulties this may pose, scientific research and technology are becoming the “property” of everybody and increasingly will become subject of public guidance and political decision making. Socialization happens because what people think, want and do has become central to the development of science and technology. Socialization of research is simply happening because it is the development characteristic of a society in which knowledge is becoming the main driving force. And just like in agricultural or industrial societies in the past it leads to (re-
Technoscience is deeply linked to national cultures across terrains as diverse as medicine, agricultural biotechnologies, ICTs, energy technologies, etc. Understanding the cultural dimension of technoscience is vital for the project of socialisation. This project should be embedded in technological and political cultures, taking variation in cultural approaches to technoscience, national identity and political decision-making seriously. Socialisation of science and technology in Europe should therefore approach socio-technical developments in a way that allows for the emergence of
In the last decades, production of science and technology as well as science-society relationships started changing rapidly. Research is asked to be more effective, fast, accountable, trans-disciplinary, result-oriented, policy-driven and able to generate benefits for people and firms in the short and middle run. While a strong intensification of science-society relationships is occurring, an increasing number of actors and stakeholders are involved in research production. At the same time, pervasiveness of technology is rendering users an active part in technological development; economic and
This study investigated how eighth-grade students perceived images of women in STEM and non-STEM careers. Thirty-six images were posted on-line; we measured five characteristics of each image. Forty students participated in the study. We found that there were significant differences in attractiveness, creativity, and intelligence between STEM and non-STEM images. There were no significant differences for good at her job and organization. In addition, there were no significant differences among STEM and non-STEM images of women of the same race.
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TEAM MEMBERS:
Seung-Ho ChoMark GoodmanBonnie OppenheimerJames CodlingThomas Robinson
STEM Pathways is a collaboration between five Minnesota informal STEM (science, technology, engineering, and mathematics) education organizations—The Bakken Museum, Bell Museum of Natural History, Minnesota Zoo, STARBASE Minnesota, and The Works Museum—working with Minneapolis Public Schools (MPS) and advised by the Minnesota Department of Education. STEM Pathways (logo shown in Figure 1) aims to provide a deliberate and connected series of meaningful in-school and out-of-school STEM learning experiences to strengthen outcomes for students, build the foundation for a local ecosystem of STEM
For decades, K–12 science education researchers have echoed the need for inquiry-based teaching approaches to connect students to real scientists and science environments (AAAS 1989; NRC 1996, 2007). The Next Generation Science Standards (NGSS) amplify these needs by stressing the importance of student-developed conceptual models to explain real-world phenomena and coherent integration of authentic science practices, concepts, and core ideas across grade levels (NRC 2012; NGSS Lead States 2013).
The science education community is buzzing about STEM learning ecosystems, ecologies of learning, and ecological perspectives on learning. You may not know it, but if your teaching involves building on young people’s prior knowledge or making connections between the science curriculum and science in the broader world, your work may already reflect aspects of ecological learning theories. At the heart of an ecological perspective on learning is the need to make connections across formal, informal, and everyday learning. So, what are STEM learning ecologies all about, and how can science
My dream—many would call it a fantasy—is that someday, science will be as pervasive in society as sports. We already have professional science, but imagine the day that we have extensive programs that feature intramural science, after-school science, and that pick-up science activity at the local park. Passionate amateur scientists will exist in abundance: more amateur geologist rock collectors, more amateur paleontologist fossil collectors, more amateur astronomers who write research papers with professional astrophysicists, and more citizen science projects that provide critical data to