Research systems are increasingly required to be more practically oriented and to address issues which appear more promising in economic and social results, with special reference to trans-disciplinary research fields, such as nanotechnology or ICTs; policy makers show a sharp tendency to establish research priorities and to drive research systems; universities and research institutions are asked to be more transparent and open to dialogue with social actors on contents, impacts, ethical implications and practical applications of scientific and technological research. These transformations
Formative evaluation should play a key role in the development of a science communication project or initiative. Such research is vital to understanding the needs and interests of the audience or participants; meeting these needs and interests helps ensure the project’s success. However, there can be a temptation to plough ahead without undertaking adequate formative evaluation. Using ScienceComics as a case study, this article explores both the challenges and benefits of using formative evaluation to guide project development. It focuses on the actors involved in the formative stages and the
This study explores the presence of science programs on the Flemish public broadcaster between 1997 and 2002 in terms of length, science domains, target groups, production mode, and type of broadcast. Our data show that for nearly all variables 2000 can be marked as a year in which the downward spiral for science on television was reversed. These results serve as a case study to discuss the influence of public policy and other possible motives for changes in science programming, as to gain a clearer insight into the factors that influence whether and how science programs are broadcast on
Comics are a popular art form especially among children and as such provide a potential medium for science education and communication. In an attempt to present science comics in a museum exhibit I found many science themed comics and graphic books. Here I attempt to provide an overview of already available comics that communicate science, the genre of ‘science comics’. I also provide a quick literature review for evidence that comics can indeed be efficiently used for promoting scientific literacy via education and communication. I address the issue of lack of studies about science comics and
Astronomy from the Ground Up (AFGU) was a five year project directed by the Astronomical Society of the Pacific (ASP) and funded by the NSF Informal Science Education (ISE) division (DRL- 0451933). The primary partner institutions were the National Optical AstronomyObservatory (NOAO) and the Association of Science-Technology Centers (ASTC). Between 2006 and 2008, the AFGU project hosted 6 onsite and 6 online workshops. The project provided professional development for informal science educators in the area of astronomy educational
programming. The project’s primary goal was to encourage more
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 Handbook on the socialisation of scientific and technological research, edited by Wiebe Bijker and Luciano d’Andrea, ‘socialisation’ is used to both describe and prescribe the ways in which science and technology are used in society. In this comment, ‘socialisation’ is discussed from two other points of view. First, the ways in which science and technology are sometimes used to organize, structure and dominate the social are identified. Second, drawing on Merton’s norms of science, an argument is made against over-socialising science and in favour of acknowledging and preserving the
Recent data delivered by Eurobarometer show how Europeans tend not to perceive science and technology as important factors for the Europe’s future. While showing the scarce development of scientific culture in Europe, these data allow to understand how science and technology are exposed to risk of social marginalization, notwithstanding the results they are attaining. In order to interpret this quite contradictory picture, an analytical framework revolving around the notion of “science and technology socialization” is proposed and developed. Implications of such an approach on research
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