In his latest book “The scientific life. A moral history of a late modern vocation”, the social historian of science Steven Shapin addresses the public image of contemporary scientists, their virtues and vocations. Who are, and how they represent themselves, those scientists who work on the edge between industry and academy, and who are responsible for the radical uncertainty embedded in the contemporary production of scientific knowledge? If “people matter”, as Shapin states, the genealogy he provides should encourage us to dig more deeply in the main stage of the virtues and ethos of
The digitalization process of historical archives, which has been taking place over the past few years, shows that the study of history of science is undergoing major changes. Easier access to online resources (manuscripts, catalogues of scientific machinery and tools that would otherwise be virtually impossible to consult) has spurred and created the preconditions for the development of new quantitative methodologies in the study of history of science as well as the creation of international research groups.
We live in a period where new media develops at amazing speed: the case of Youtube, becoming in few months one of the most visited website in the world, or the incredibly fast diffusion of audio and video podcasting, or the acquired relevance and authoritativeness of blogs in the dissemination of scientific information, are paradigmatic. Yet, there is little doubt that old media such as traditional television remain a reference for the largest sector of the population. Indeed, all surveys show that when dealing with scientific information, television remains the most relevant medium by a large
In recent years, courses, events and incentive programs for scientific journalism and the divulgation of science have proliferated in Brazil. Part of this context is “Sunday is science day, history of a supplement from the post-war years”, a book published this year that is based on the Master’s degree research of Bernardo Esteves, a journalist specialized in science.
Science Journalism has been through a huge transition period in the past two decades as digital outlets compete with print media ― and that transition is continuing. It's left many science journalists unsure of their place in this new ecosystem and unsure of how best to use the new tools they have been presented with, such as social media. Now is an important time for training in this sector to ensure that journalists ― and the publications they work for ― can find their place again. There is also a real need for training for new writers ― to bridge the gap between their degree and their first
The ‘traditional’ media industry ― newspapers and magazines and the like ― have had a difficult time lately thanks to increasing competition online. This book's chapters consider ways the traditional media can reinvent themselves to secure their future. Two key themes that emerge from the chapters are the importance of building communities and the increasing role of credibility in today's highly-competitive media landscape. While this book does not focus on the science media, many of the conclusions are relevant to it, in fact some are cause for comfort for those involved with science
The use and availability of digital media is changing researchers' roles and simultaneously providing a route for a more engaging relationship with stakeholders throughout the research process. Although the digital realm has a profound influence on people's day-to-day lives, some researchers have not yet professionally embraced digital technologies. This paper arises from one aspect of a project exploring how university research and professional practices are evolving as researchers engage with stakeholders via digital media to create, share and represent knowledge together. Using researchers
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TEAM MEMBERS:
Ann GrandRichard HollimanTrevor CollinsAnne Adams
This article provides a first statistical analysis of the typologies and characteristics of popular science web videos on YouTube. An analysis of 190 videos from 95 online video channels was conducted. Several factors such as narrative strategies, video editing techniques, and design tendencies with regard to cinematography, the number of shots, the kind of montage used, and even the use of sound design and special FX point to a notable professionalism among science communicators independent of institutional or personal commitments. This analysis represents an important step in understanding
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TEAM MEMBERS:
Jesus Munoz MorcilloKlemens CzurdaCaroline Robertson-von Trotha
Looking back over the past 5 years of articles published in JCOM, this editorial looks at the topics covered and the geographies represented and asks: are we tackling all main contemporary issues in science communication/popularisation or public engagement? It invites you to contribute with your papers, letters, essays and news to help address the holes in our coverage and to enter into dialogue on our Facebook page.
We investigate the development of scientific content knowledge of volunteers participating in online citizen science projects in the Zooniverse (http://www.zooniverse.org). We use econometric methods to test how measures of project participation relate to success in a science quiz, controlling for factors known to correlate with scientific knowledge. Citizen scientists believe they are learning about both the content and processes of science through their participation. We don't directly test the latter, but we find evidence to support the former — that more actively engaged participants
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TEAM MEMBERS:
Karen MastersEun Young OhJoe CoxBrooke SimmonsChris LintottGary GrahamAnita GreenhillKate Holmes
Online citizen science projects have demonstrated their usefulness for research, however little is known about the potential benefits for volunteers. We conducted 39 interviews (28 volunteers, 11 researchers) to gain a greater understanding of volunteers' motivations, learning and creativity (MLC). In our MLC model we explain that participating and progressing in a project community provides volunteers with many indirect opportunities for learning and creativity. The more aspects that volunteers are involved in, the more likely they are to sustain their participation in the project. These
The Department of Computer Science and Engineering and DO-IT IT (Disabilities, Opportunities, Internetworking and Technology) at the University of Washington propose to create the AccessComputing Alliance for the purpose of increasing the participation of people with disabilities in computing careers. Alliance partners Gallaudet University, Microsoft, the NSF Regional Alliances for Persons with Disabilities in STEM (hosted by the University of Southern Maine, New Mexico State University, and UW), and SIGACCESS of the Association for Computing Machinery (ACM) and collaborators represent stakeholders from education, industry, government, and professional organizations nationwide.
Alliance activities apply proven practices to support persons with disabilities within computing programs. To increase the number of students with disabilities who successfully pursue undergraduate and graduate degrees, the alliance will run college transition and bridge, tutoring, internship, and e-mentoring programs. To increase the capacity of postsecondary computing departments to fully include students with disabilities in coursers and programs, the alliance will form communities of practice, run capacity-building institutes, and develop systemic change indicators for computing departments. To create a nationwide resource to help students with disabilities pursue computing careers and computing educators and employers, professional organizations and other stakeholders to develop more inclusive programs and share effective practices, the alliance will create and maintain a searchable AccessComputing Knowledge Base of FAQs, case studies, and effective/promising practices.
These activities will build on existing alliances and resources in a comprehensive, integrated effort. They will create nationwide collaborations among individuals with disabilities, computing professionals, employers, disability providers, and professional organizations to explore the issues that contribute to the underrepresentation of persons with disabilities and to develop, apply and assess interventions. In addition, they will support local and regional efforts to recruit and retain students with disabilities into computing and assist them in institutionalizing and replicating their programs. The alliance will work with other Alliances and organizations that serve women and underrepresented minorities to make their programs accessible to students with disabilities. Finally they will collect and publish research and implementation data to enhance scientific and technological understanding of issues related to the inclusion of people with disabilities in computing.
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TEAM MEMBERS:
Richard LadnerLibby CohenSheryl BurgstahlerWilliam McCarthy