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| title | chunk | source | category | tags | date_saved | instance |
|---|---|---|---|---|---|---|
| Science communication | 5/7 | https://en.wikipedia.org/wiki/Science_communication | reference | science, encyclopedia | 2026-05-05T04:21:07.802664+00:00 | kb-cron |
As the audience for scientific texts expanded, the interest in public science did as well. "Extension lectures" were installed in some universities, like Oxford and Cambridge, which encouraged members of the public to attend lectures. In America, traveling lectures were a common occurrence in the nineteenth century and attracted hundreds of viewers. These public lectures were a part of the lyceum movement and demonstrated basic scientific experiments, which advanced scientific knowledge for both the educated and uneducated viewers. Not only did the popularization of public science enlighten the general public through mass media, but it also enhanced communication within the scientific community. Although scientists had been communicating their discoveries and achievements through print for centuries, publications with a variety of subjects decreased in popularity. Alternatively, publications in discipline-specific journals were crucial for a successful career in the sciences in the nineteenth century. As a result, scientific journals such as Nature or National Geographic possessed a large readership and received substantial funding by the end of the nineteenth century as the popularization of science continued.
=== Science communication in contemporary media === Science can be communicated to the public in many different ways. According to Karen Bultitude, a science communication lecturer at University College London, these can be broadly categorized into three groups: traditional journalism, live or face-to-face events, and online interaction.
==== Traditional journalism ==== Traditional journalism (for example, newspapers, magazines, television and radio) has the advantage of reaching large audiences; in the past, this is way most people regularly accessed information about science. Traditional media is also more likely to produce information that is high quality (well written or presented), as it will have been produced by professional journalists. Traditional journalism is often also responsible for setting agendas and having an impact on government policy. The traditional journalistic method of communication is one-way, so there can be no dialogue with the public, and science stories can often be reduced in scope so that there is a limited focus for a mainstream audience, who may not be able to comprehend the bigger picture from a scientific perspective. However, there is new research now available on the role of newspapers and television channels in constituting "scientific public spheres" which enable participation of a wide range of actors in public deliberations. Another disadvantage of traditional journalism is that, once a science story is taken up by mainstream media, the scientist(s) involved no longer has any direct control over how his or her work is communicated, which may lead to misunderstanding or misinformation. Research in this area demonstrates how the relationship between journalists and scientists has been strained in some instances. On one hand scientists have reported being frustrated with things like journalists oversimplifying or dramatizing of their work, while on the other hand journalists find scientists difficult to work with and ill-equipped to communicate their work to a general audience. Despite this potential tension, a comparison of scientists from several countries has shown that many scientists are pleased with their media interactions and engage often. However, the use of traditional media sources, like newspapers and television, has steadily declined as primary sources for science information, while the internet has rapidly increased in prominence. In 2016, 55% of Americans reported using the internet as their primary source to learn about science and technology, compared to 24% reporting TV and 4% reporting newspapers were their primary sources. Additionally, traditional media outlets have dramatically decreased the number of, or in some cases eliminated, science journalists and the amount of science-related content they publish.
==== Live or face-to-face events ==== The second category is live or face-to-face events, such as public lectures in museums or universities, debates, science busking, "sci-art" exhibits, Science Cafés and science festivals. Citizen science or crowd-sourced science (scientific research conducted, in whole or in part, by amateur or nonprofessional scientists) can be done with a face-to-face approach, online, or as a combination of the two to engage in science communication. Research has shown that members of the public seek out science information that is entertaining, but also helping citizens to critically participate in risk regulation and S&T governance. Therefore, it is important to bear this aspect in mind when communicating scientific information to the public (for example, through events combining science communication and comedy, such as Festival of the Spoken Nerd, or during scientific controversies). The advantages of this approach are that it is more personal and allows scientists to interact with the public, allowing for two-way dialogue. Scientists are also better able to control content using this method. Disadvantages of this method include the limited reach, it can also be resource-intensive and costly and also, it may be that only audiences with an existing interest in science will be attracted. Another opportunity for budding science communicators is through FameLab. This programme was created by Cheltenham Festivals in 2005 and is the largest science communication competition and training programme in the world. FameLab discovers, trains and promotes the best new voices in science (including social sciences), technology, engineering and maths. Participants have just three minutes to convey a scientific concept of their choice to an audience and expert panel of judges. The winner is the speaker who best demonstrates FameLab's 3 C's – Content, Clarity and Charisma.