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Ng can be considered an enactment of scientific literacy, visible to other people in the community [15]. Research conducted on user comments on news websites has Dalfopristin msds indicated that comments correlate moderately positively with clicks (r = 0.71) and that there are differences in the Nutlin-3a chiral chemical information topics that tend to receive clicks and those that tend to receive comments: The former topics tend toPLOS ONE | DOI:10.1371/journal.pone.0156409 May 27,2 /Engagement with Particle Physics on CERN’s Social Media Platformsarouse curiosity, whereas the latter tend to create controversy [16]. Comment sections foster discourse on science-related issues, such as animal experimentation, in unexpected directions, introduced by the user community. Arguments raised in these discussions may go against scientific consensus. User-introduced topics were also more fruitful than topics featured in the articles, in terms of the number of comments [14]. In comment sections of stories about the scientific evidence for breastfeeding, the implications of findings on daily life are critiqued through the lens of personal experience [17]. Exposure to online, user-to-user uncivil comments about emerging technologies, such as nanotechnology, can affect how readers perceive the risks of these technologies [18]. Whereas the comment sections on news articles and blog posts are originally intended to allow responses to topics raised by the editors of the hosting websites, any commenter can raise an issue on online discussion forums. These forums are increasingly being used to discuss science-related topics, such as headlice eradication [19] and infant weaning [20] among parents. On these forums, personal experience of parents may be placed on a par with, and sometimes regarded more highly than, formal scientific knowledge [19]. Participants may also use forums to critique the quality of media coverage of scientific research [20]. Sharing. Like commenting, sharing is a visible action that users can take, which may foster science-related online discussion. Studies conducted on observational data from the New York Times website and from an experimental setting have indicated that users tend to share science-related content that is surprising, interesting, otherwise entertaining, positive, useful, or inspiring awe, anger or anxiety. Users are motivated to share such content for a variety of reasons, including: (1) to make themselves “look good” in the eyes of others, and (2) to enhance their social bonds with others [21,22]. Sharing is the behaviour underlying virality, a phenomenon which has increased in speed, reach and frequency. Viral information flow is unique in that a specific piece of information is forwarded (or “shared”) by many people to their social networks over a short period of time, and then that message spreads to different, often distant networks. This pattern has the power to capture public attention, and subsequently transform attitudes and change courses of action [23]. Inducing this type of information flow could be considered the holy grail of science communicators. Some examples of popular and perhaps viral science videos on YouTube include a demonstration of what happens to a cheeseburger dipped in concentrated hydrochloric acid [24] and a discussion of whether it is better to walk or run in the rain, if one wishes to remain as dry as possible [25]. These studies have contributed to our understanding of engagement with science on news websites and search engines, and to u.Ng can be considered an enactment of scientific literacy, visible to other people in the community [15]. Research conducted on user comments on news websites has indicated that comments correlate moderately positively with clicks (r = 0.71) and that there are differences in the topics that tend to receive clicks and those that tend to receive comments: The former topics tend toPLOS ONE | DOI:10.1371/journal.pone.0156409 May 27,2 /Engagement with Particle Physics on CERN’s Social Media Platformsarouse curiosity, whereas the latter tend to create controversy [16]. Comment sections foster discourse on science-related issues, such as animal experimentation, in unexpected directions, introduced by the user community. Arguments raised in these discussions may go against scientific consensus. User-introduced topics were also more fruitful than topics featured in the articles, in terms of the number of comments [14]. In comment sections of stories about the scientific evidence for breastfeeding, the implications of findings on daily life are critiqued through the lens of personal experience [17]. Exposure to online, user-to-user uncivil comments about emerging technologies, such as nanotechnology, can affect how readers perceive the risks of these technologies [18]. Whereas the comment sections on news articles and blog posts are originally intended to allow responses to topics raised by the editors of the hosting websites, any commenter can raise an issue on online discussion forums. These forums are increasingly being used to discuss science-related topics, such as headlice eradication [19] and infant weaning [20] among parents. On these forums, personal experience of parents may be placed on a par with, and sometimes regarded more highly than, formal scientific knowledge [19]. Participants may also use forums to critique the quality of media coverage of scientific research [20]. Sharing. Like commenting, sharing is a visible action that users can take, which may foster science-related online discussion. Studies conducted on observational data from the New York Times website and from an experimental setting have indicated that users tend to share science-related content that is surprising, interesting, otherwise entertaining, positive, useful, or inspiring awe, anger or anxiety. Users are motivated to share such content for a variety of reasons, including: (1) to make themselves “look good” in the eyes of others, and (2) to enhance their social bonds with others [21,22]. Sharing is the behaviour underlying virality, a phenomenon which has increased in speed, reach and frequency. Viral information flow is unique in that a specific piece of information is forwarded (or “shared”) by many people to their social networks over a short period of time, and then that message spreads to different, often distant networks. This pattern has the power to capture public attention, and subsequently transform attitudes and change courses of action [23]. Inducing this type of information flow could be considered the holy grail of science communicators. Some examples of popular and perhaps viral science videos on YouTube include a demonstration of what happens to a cheeseburger dipped in concentrated hydrochloric acid [24] and a discussion of whether it is better to walk or run in the rain, if one wishes to remain as dry as possible [25]. These studies have contributed to our understanding of engagement with science on news websites and search engines, and to u.

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Author: heme -oxygenase