Results for 'Scientific community'

945 found
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  1. Formal models of the scientific community and the value-ladenness of science.Vincenzo Politi - 2021 - European Journal for Philosophy of Science 11 (4):1-23.
    In the past few years, social epistemologists have developed several formal models of the social organisation of science. While their robustness and representational adequacy has been analysed at length, the function of these models has begun to be discussed in more general terms only recently. In this article, I will interpret many of the current formal models of the scientific community as representing the latest development of what I will call the ‘Kuhnian project’. These models share with Kuhn (...)
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  2. Does the Scientific Community Misconstrue the Nature of Science?Nicholas Maxwell - 2021 - Global Journal of Research and Review 8 (5):83.
    The scientific community takes for granted a view of science that may be called standard empiricism. This holds that the basic intellectual aim of science is truth, nothing being presupposed about the truth, the basic method being to assess theories with respect to evidence. A basic tenet of the view is that science must not accept any thesis about the world as a part of scientific knowledge independent of evidence, let alone in violation of evidence. But physics (...)
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  3. Reflection on the scientific communication to the government and public.Thi Mai Anh Tran - 2024 - Sm3D Portal (2/6/2024).
    There were 30 of us in a conference room preparing to give a brief talk about our research.
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  4. The Distribution of Ethical Labor in the Scientific Community.Vincenzo Politi & Alexei Grinbaum - 2020 - Journal of Responsible Innovation 7:263-279.
    To believe that every single scientist ought to be individually engaged in ethical thinking in order for science to be responsible at a collective level may be too demanding, if not plainly unrealistic. In fact, ethical labor is typically distributed across different kinds of scientists within the scientific community. Based on the empirical data collected within the Horizon 2020 ‘RRI-Practice’ project, we propose a classification of the members of the scientific community depending on their engagement in (...)
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  5. Trusting the Scientific Community: The Development and Validation of an Instrument to Measure Trust in Science.Matthew Slater -
    Trust in the scientific enterprise — in science as an institution — is arguably important to individuals’ and societies’ well-being. Although some measures of public trust in science exist, the recipients of that trust are often ambiguous between trusting individual scientists and the scientific community at large. We argue that more precision would be beneficial — specifically, targeting public trust of the scientific community at large — and describe the development and validation of such an (...)
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  6.  27
    Collaborative research, scientific communities, and the social diffusion of trustworthiness.Torsten Wilholt - 2016 - In Michael Brady & Miranda Fricker (eds.), The Epistemic Life of Groups: Essays in the Epistemology of Collectives. Oxford, United Kingdom: Oxford University Press UK.
    The main thesis of this paper is that when we trust the results of scientific research, that trust is inevitably directed at least in part at collective bodies rather than at single researchers, and that accordingly, reasonable assessments of epistemic trustworthiness in science must attend to these collective bodies. In order to support this claim, I start by invoking the collaborative nature of most of today’s scientific research. I argue that the trustworthiness of a collaborative research group does (...)
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  7. Believing to Belong: Addressing the Novice-Expert Problem in Polarized Scientific Communication.Helen De Cruz - 2020 - Social Epistemology 34 (5):440-452.
    There is a large gap between the specialized knowledge of scientists and laypeople’s understanding of the sciences. The novice-expert problem arises when non-experts are confronted with (real or apparent) scientific disagreement, and when they don’t know whom to trust. Because they are not able to gauge the content of expert testimony, they rely on imperfect heuristics to evaluate the trustworthiness of scientists. This paper investigates why some bodies of scientific knowledge become polarized along political fault lines. Laypeople navigate (...)
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  8. A Problem for Generic Generalisations in Scientific Communication.Mark Bowker - 2023 - Journal of Applied Philosophy 40 (1):123-132.
    Generic generalisations like ‘Opioids are highly addictive’ are very useful in scientific communication, but they can often be interpreted in many different ways. Although this is not a problem when all interpretations provide the same answer to the question under discussion, a problem arises when a generic generalisation is used to answer a question other than that originally intended. In such cases, some interpretations of the generalisation might answer the question in a way that the original speaker would not (...)
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  9. Different motivations, similar proposals: objectivity in scientific community and democratic science policy.Jaana Eigi - 2017 - Synthese 194 (12):4657-4669.
    The aim of the paper is to discuss some possible connections between philosophical proposals about the social organisation of science and developments towards a greater democratisation of science policy. I suggest that there are important similarities between one approach to objectivity in philosophy of science—Helen Longino’s account of objectivity as freedom from individual biases achieved through interaction of a variety of perspectives—and some ideas about the epistemic benefits of wider representation of various groups’ perspectives in science policy, as analysed by (...)
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  10. What is in it for me? The benefits of diversity in scientific communities.Carla Fehr - 2011 - In Heidi Grasswick (ed.), Feminist Epistemology and Philosophy of Science: Power in Knowledge. Springer. pp. 133-154.
    I investigate the reciprocal relationship between social accounts of knowledge production and efforts to increase the representation of women and some minorities in the academy. In particular, I consider the extent to which feminist social epistemologies such as Helen Longino’s critical contextual empiricism can be employed to argue that it is in researchers’ epistemic interests to take active steps to increase gender diversity. As it stands, critical contextual empiricism does not provide enough resources to succeed at this task. However, considering (...)
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  11. Scientific Explanation: Putting Communication First.Angela Potochnik - 2016 - Philosophy of Science 83 (5):721-732.
    Scientific explanations must bear the proper relationship to the world: they must depict what, out in the world, is responsible for the explanandum. But explanations must also bear the proper relationship to their audience: they must be able to create human understanding. With few exceptions, philosophical accounts of explanation either ignore entirely the relationship between explanations and their audience or else demote this consideration to an ancillary role. In contrast, I argue that considering an explanation’s communicative role is crucial (...)
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  12. Expert Communication and the Self-Defeating Codes of Scientific Ethics.Hugh Desmond - 2021 - American Journal of Bioethics 21 (1):24-26.
    Codes of ethics currently offer no guidance to scientists acting in capacity of expert. Yet communicating their expertise is one of the most important activities of scientists. Here I argue that expert communication has a specifically ethical dimension, and that experts must face a fundamental trade-off between "actionability" and "transparency" when communicating. Some recommendations for expert communication are suggested.
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  13. Scientific Images as Circulating Ideas: An Application of Ludwik Fleck’s Theory of Thought Styles.Nicola Mößner - 2016 - Journal for General Philosophy of Science / Zeitschrift für Allgemeine Wissenschaftstheorie 47 (2):307-329.
    Without doubt, there is a great diversity of scientific images both with regard to their appearances and their functions. Diagrams, photographs, drawings, etc. serve as evidence in publications, as eye-catchers in presentations, as surrogates for the research object in scientific reasoning. This fact has been highlighted by Stephen M. Downes who takes this diversity as a reason to argue against a unifying representation-based account of how visualisations play their epistemic role in science. In the following paper, I will (...)
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  14. Scientific Networks on Data Landscapes: Question Difficulty, Epistemic Success, and Convergence.Patrick Grim, Daniel J. Singer, Steven Fisher, Aaron Bramson, William J. Berger, Christopher Reade, Carissa Flocken & Adam Sales - 2013 - Episteme 10 (4):441-464.
    A scientific community can be modeled as a collection of epistemic agents attempting to answer questions, in part by communicating about their hypotheses and results. We can treat the pathways of scientific communication as a network. When we do, it becomes clear that the interaction between the structure of the network and the nature of the question under investigation affects epistemic desiderata, including accuracy and speed to community consensus. Here we build on previous work, both our (...)
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  15. Scientific Rationality, Decisions and Choice.Vihren Bouzov - 2003 - In Dimitri Ginev (ed.), Boston Studies in the Philosophy of Science, Vol.236. Springer. pp. 17-31.
    Herein below I will try to set out certain innate traits of scientific rationality, by means of making a comparison between leading subjective and objective accounts of it in aspects representative for their explanatory potential. Scientific rationality might well be taken in as a system of specific norms, originating from, and upheld by, a scientific community; norms offering a choice of best decisions in a set of rival alternatives. Hence, a study may be developed up to (...)
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  16. Scientific Consensus and Expert Testimony in Courts: Lessons from the Bendectin Litigation.Boaz Miller - 2016 - Foundations of Science 21 (1):15-33.
    A consensus in a scientific community is often used as a resource for making informed public-policy decisions and deciding between rival expert testimonies in legal trials. This paper contains a social-epistemic analysis of the high-profile Bendectin drug controversy, which was decided in the courtroom inter alia by deference to a scientific consensus about the safety of Bendectin. Drawing on my previously developed account of knowledge-based consensus, I argue that the consensus in this case was not knowledge based, (...)
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  17. Scientific revolutions, specialization and the discovery of the structure of DNA: toward a new picture of the development of the sciences.Politi Vincenzo - 2018 - Synthese 195 (5):2267-2293.
    In his late years, Thomas Kuhn became interested in the process of scientific specialization, which does not seem to possess the destructive element that is characteristic of scientific revolutions. It therefore makes sense to investigate whether and how Kuhn’s insights about specialization are consistent with, and actually fit, his model of scientific progress through revolutions. In this paper, I argue that the transition toward a new specialty corresponds to a revolutionary change for the group of scientists involved (...)
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  18. Science Communication and the Problematic Impact of Descriptive Norms.Uwe Peters - 2023 - British Journal for the Philosophy of Science 74 (3):713-738.
    When scientists or science reporters communicate research results to the public, this often involves ethical and epistemic risks. One such risk arises when scientific claims cause cognitive or behavioural changes in the audience that contribute to the self-fulfilment of these claims. I argue that the ethical and epistemic problems that such self-fulfilment effects may pose are much broader and more common than hitherto appreciated. Moreover, these problems are often due to a specific psychological phenomenon that has been neglected in (...)
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  19. Scientific Realism and the Rationality of Science.Howard Sankey - 2008 - Ashgate.
    Scientific realism is the position that the aim of science is to advance on truth and increase knowledge about observable and unobservable aspects of the mind-independent world which we inhabit. This book articulates and defends that position. In presenting a clear formulation and addressing the major arguments for scientific realism Sankey appeals to philosophers beyond the community of, typically Anglo-American, analytic philosophers of science to appreciate and understand the doctrine. The book emphasizes the epistemological aspects of (...) realism and contains an original solution to the problem of induction that rests on an appeal to the principle of uniformity of nature. (shrink)
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  20. Basic Paradigm Change: Communicative Rationality Approach.Rinat M. Nugayev (ed.) - 2003 - Dom Pechati.
    Special Relativity and the Early Quantum Theory were created within the same programme of statistical mechanics, thermodynamics and maxwellian electrodynamics reconciliation. I shall try to explain why classical mechanics and classical electrodynamics were “refuted” almost simultaneously or, in more suitable for the present congress terms, why did quantum revolution and the relativistic one both took place at the beginning of the 20-th century. I shall argue that quantum and relativistic revolutions were simultaneous since they had common origin - the clash (...)
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  21. (1 other version)Communicating Toward Personhood.Susan T. Gardner - 2009 - Analytic Teaching and Philosophical Praxis 29 (1).
    Marshalling a mind-numbing array of data, Harvard political scientist Robert D. Putnam, in his book Bowling Alone, shows that on virtually every conceivable measure, civic participation, or what he refers to as “social capital,” is plummeting to levels not seen for almost 100 years. And we should care, Putnam argues, because connectivity is directly related to both individual and social wellbeing on a wide variety of measures. On the other hand, social capital of the “bonding kind” brings with it the (...)
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  22. We are not Witnesses to a New Scientific Revolution.Gregor Schiemann - 2011 - In Alfred Nordmann, Hans Radder & Gregor Schiemann (eds.), Science Transformed?: Debating Claims of an Epochal Break. University of Pittsburgh Press. pp. 31-42.
    Do the changes that have taken place in the structures and methods of the production of scientific knowledge and in our understanding of science over the past fifty years justify speaking of an epochal break in the development of science? Gregor Schiemann addresses this issues through the notion of a scientific revolution and claims that at present we are not witnessing a new scientific revolution. Instead, Schiemann argues that after the so-called Scientific Revolution in the sixteenth (...)
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  23. Diversity in Epistemic Communities: A Response to Clough.Maya J. Goldenberg - 2014 - Social Epistemology Review and Reply Collective Vol. 3, No. 5.
    In Clough’s reply paper to me (http://wp.me/p1Bfg0-1aN), she laments how feminist calls for diversity within scientific communities are inadvertently sidelined by our shared feminist empiricist prescriptions. She offers a novel justification for diversity within epistemic communities and challenges me to accept this addendum to my prior prescriptions for biomedical research communities (Goldenberg 2013) on the grounds that they are consistent with the epistemic commitments that I already endorse. In this response, I evaluate and accept her challenge.
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  24. Scientific Collaboration: Do Two Heads Need to Be More than Twice Better than One?Thomas Boyer-Kassem & Cyrille Imbert - 2015 - Philosophy of Science 82 (4):667-688.
    Epistemic accounts of scientific collaboration usually assume that, one way or another, two heads really are more than twice better than one. We show that this hypothesis is unduly strong. We present a deliberately crude model with unfavorable hypotheses. We show that, even then, when the priority rule is applied, large differences in successfulness can emerge from small differences in efficiency, with sometimes increasing marginal returns. We emphasize that success is sensitive to the structure of competing communities. Our results (...)
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  25. (1 other version)Scientific Rationality as Normative System.Vihren Bouzov - 2010 - LogosandEpisteme. An International Journal of Epistemology.
    ABSTRACT: Decision-theoretic approach and a nonlinguistic theory of norms are applied in the paper in an attempt to explain the nature of scientific rationality. It is considered as a normative system accepted by scientific community. When we say that a certain action is rational, we express a speaker’s acceptance of some norms concerning a definite action. Scientists can choose according to epistemic utility or other rules and values, which themselves have a variable nature. Rationality can be identified (...)
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  26. Scientific value.Lars Bergström - 1996 - International Studies in the Philosophy of Science 10 (3):189-202.
    Abstract Criteria of scientific value are of different kinds. This paper concerns ultimate criteria, i.e. the axiology of science. Most ultimate criteria are multi?dimensional. This gives rise to an aggregation problem, which cannot be adequately solved with reference to attitudes and behaviour within the scientific community. Therefore, in many cases, there is no fact of the matter as to whether one theory is better than another. This, in turn, creates problems for methodology.
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  27. An infrastructural account of scientific objectivity for legal contexts and bloodstain pattern analysis.W. John Koolage, Lauren M. Williams & Morgen L. Barroso - 2021 - Science in Context 34 (1):101-119.
    ArgumentIn the United States, scientific knowledge is brought before the courts by way of testimony – the testimony of scientific experts. We argue that this expertise is best understoodfirstas related to the quality of the underlying scienceand thenin terms of who delivers it. Bloodstain pattern analysis (BPA), a contemporary forensic science, serves as the vaulting point for our exploration of objectivity as a metric for the quality of a science in judicial contexts. We argue that BPA fails to (...)
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  28. Challenges for ‘Community’ in Science and Values: Cases from Robotics Research.Charles H. Pence & Daniel J. Hicks - 2023 - Humana.Mente Journal of Philosophical Studies 16 (44):1-32.
    Philosophers of science often make reference — whether tacitly or explicitly — to the notion of a scientific community. Sometimes, such references are useful to make our object of analysis tractable in the philosophy of science. For others, tracking or understanding particular features of the development of science proves to be tied to notions of a scientific community either as a target of theoretical or social intervention. We argue that the structure of contemporary scientific research (...)
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  29. Scientific Evidence and the Internalism–Externalism Distinction.Jonathan Egeland - 2022 - Acta Analytica 37 (3):375-395.
    Considerations of scientific evidence are often thought to provide externalism with the dialectical upper hand in the internalism–externalism debate. How so? A couple of reasons are forthcoming in the literature. (1) Williamson (2000) argues that the E = K thesis (in contrast to internalism) provides the best explanation for the fact that scientists appear to argue from premises about true propositions (or facts) that are common knowledge among the members of the scientific community. (2) Kelly (Philosophy Compass, (...)
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  30. The ethics of expert communication.Hugh Desmond - 2023 - Bioethics 38 (1):33-43.
    Despite its public visibility and impact on policy, the activity of expert communication rarely receives more than a passing mention in codes of scientific integrity. This paper makes the case for an ethics of expert communication, introducing a framework where expert communication is represented as an intrinsically ethical activity of a deliberative agent. Ethical expert communication cannot be ensured by complying with various requirements, such as restricting communications to one's area of expertise or disclosing conflicts of interest. Expert communication (...)
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  31. Communicating Science-Based Information about Risk: How Ethics Can Help.Paul B. Thompson - 2018 - In Ethics and Practice in Science Communication. Chicago: pp. 33-54.
    The chapter discusses two points of intersection between the communication of science-based information about risk and philosophical ethics. The first is a logically unnecessary bias toward consequentialist ethics, and a corresponding tendency to overlook the significance of deontological and virtue based ways to interpret the findings of a scientific risk analysis. The second is a grammatical bias that puts scientific communicators at odds with the expectations of a non-scientific audience.
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  32. Introduction to 'Scientific Testimony: Its roles in science and society'.Mikkel Gerken - 2022 - Oxford, UK: Oxford University Press.
    This is the Introduction and Chapter 1.1 of the book ‘Scientific Testimony. Its roles in science and society’ (OUP 2022). The introduction contains a brief survey of the book’s chapters and main conclusions, which I hope will be useful to the curious ones.
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  33. One Community or Many? From Logic to Juridical Law, via Metaphysics [in Kant].Lucas Thorpe - 2011 - In Sorin Baiasu, Howard Williams & Sami Pihlstrom (eds.), Politics and Metaphysics in Kant. University of Wales Press.
    There are at least five ‘core’ notions of community found in Kant's works: 1. The scientific notion of interaction. This concept is introduced in the Third Analogy and developed in the Metaphysical Foundations of Natural Science. 2. A metaphysical idea. The idea of a world of individuals (monads) in interaction. This idea was developed in Kant’s precritical period and can be found in his metaphysics lectures. 3. A moral ideal. The idea of a realm of ends. 4. A (...)
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  34. “Do We Need a Scientific Revolution.Nicholas Maxwell - 2008 - Journal for Biological Physics and Chemistry 8 (3):95-105.
    Many see modern science as having serious defects, intellectual, social, moral. Few see this as having anything to do with the philosophy of science. I argue that many diverse ills of modern science are a consequence of the fact that the scientific community has long accepted, and sought to implement, a bad philosophy of science, which I call standard empiricism. This holds that the basic intellectual aim is truth, the basic method being impartial assessment of claims to knowledge (...)
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  35. Local Authorities and Communicators Engaged in Science: PLACES Impact Assessment Case Study of Prague.Adolf Filáček & Jakub Pechlát - 2013 - Teorie Vědy / Theory of Science 35 (1):29-54.
    Regional aspects of science communication represent a potential asset and as such are quite suitable topic for further examination with respect to future social and economic development in Prague based on the city's main development strategies. Closer analysis of SCIP aspects at re- gional level can present a suitable complement for development of suitable measures and projects of the regional innovation and education policies. This study focuses on research questions related to regional dimension of science communication, its impacts and suitable (...)
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  36. Extended Cognition in Science Communication.David Ludwig - 2014 - Public Understanding of Science 23 (8):982-995.
    The aim of this article is to propose a methodological externalism that takes knowledge about science to be partly constituted by the environment. My starting point is the debate about extended cognition in contemporary philosophy and cognitive science. Externalists claim that human cognition extends beyond the brain and can be partly constituted by external devices. First, I show that most studies of public knowledge about science are based on an internalist framework that excludes the environment we usually utilize to make (...)
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  37. Communication vs. Information, an Axiomatic Neutrosophic Solution.Florentin Smarandache & Stefan Vladutescu - 2013 - Neutrosophic Sets and Systems 1:38-45.
    Study represents an application of the neutrosophic method, for solving the contradiction between communication and information. In addition, it recourse to an appropriate method of approaching the contradictions: Extensics, as the method and the science of solving the contradictions. The research core is the reality that the scientific research of communication-information relationship has reached a dead end. The bivalent relationship communicationinformation, information-communication has come to be contradictory, and the two concepts to block each other. After the critical examination of (...)
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  38.  55
    Creating clear and reliable scientific evidence for marine stakeholders with felt responsibility to act against climate change.Minh-Hoang Nguyen, Ruining Jin, Minh-Phuong Thi Duong, Tam-Tri Le & Quan-Hoang Vuong - manuscript
    Climate change prevention necessitates the communication of transparent and reliable scientific evidence to improve public awareness and support. Felt responsibility is an essential factor influencing human environment-related psychology and behavior. However, the knowledge about the relationship between the felt responsibility and perceived uncertainty of scientific evidence regarding climate change has remained limited. The current study examines factors associated with the perceived uncertainty of scientific evidence (including felt responsibility to act on climate change) among stakeholders of marine and (...)
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  39. Dismantling the deficit model of science communication using Ludwik Fleck’s theory of thinking collectives.Victoria M. Wang - forthcoming - In Jonathan Y. Tsou, Shaw Jamie & Carla Fehr (eds.), Values, Pluralism, and Pragmatism: Themes from the Work of Matthew J. Brown. Cham: Boston Studies in the Philosophy and History of Science. Springer.
    Numerous societal issues, from climate change to pandemics, require public engagement with scientific research. Such engagement reveals challenges that can arise when experts communicate with laypeople. One of the most common frameworks for framing these communicative interactions is the deficit model of science communication, which holds that laypeople lack scientific knowledge and/or positive attitudes towards science, and that imparting knowledge will fill knowledge gaps, lead to desirable attitude/behavior changes, and increase trust in science. §1 introduces the deficit model (...)
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  40. Group Communication and the Transformation of Judgments: An Impossibility Result.Christian List - 2010 - Journal of Political Philosophy 19 (1):1-27.
    While a large social-choice-theoretic literature discusses the aggregation of individual judgments into collective ones, there is much less formal work on the transformation of judgments in group communication. I develop a model of judgment transformation and prove a baseline impossibility theorem: Any judgment transformation function satisfying some initially plausible conditions is the identity function, under which no opinion change occurs. I identify escape routes from this impossibility and argue that the kind of group communication envisaged by deliberative democats must be (...)
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  41. How Intellectual Communities Progress.Lewis D. Ross - 2021 - Episteme (4):738-756.
    Recent work takes both philosophical and scientific progress to consist in acquiring factive epistemic states such as knowledge. However, much of this work leaves unclear what entity is the subject of these epistemic states. Furthermore, by focusing only on states like knowledge, we overlook progress in intermediate cases between ignorance and knowledge—for example, many now celebrated theories were initially so controversial that they were not known. -/- This paper develops an improved framework for thinking about intellectual progress. Firstly, I (...)
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  42. How to judge scientific research articles.Hennie Lotter - 2000 - South African Journal for Language Teaching 34.
    How should scientists judge the quality of research articles? In this article I present general criteria for judging the scientific value of a research report submitted for publication. These criteria can improve the quality of research articles and produce fair referee reports that are scientifically justifiable. My view is based on four fundamental rules that guide all good science. These rules ought to determine whether scientific research reports merit publication in scientific journals. The rules for good science (...)
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  43. Science and comics: from popularization to the discipline of Comics Studies.O. Hudoshnyk & Oleksandr P. Krupskyi - 2022 - History of Science and Technology 12 (2):210-230.
    Modern scientific communication traditionally uses visual narratives, such as comics, for education, presentation of scientific achievements to a mass audience, and as an object of research. The article offers a three-level characterization of the interaction of comic culture and science in a diachronic aspect. Attention is focused not only on the chronological stages of these intersections, the expression of the specifics of the interaction is offered against the background of scientific and public discussions that accompany the comics–science (...)
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  44. Imagination and Creativity in the Scientific Realm.Alice Murphy - 2024 - In Amy Kind & Julia Langkau (eds.), Oxford Handbook of Philosophy of Imagination and Creativity. Oxford University Press.
    Historically left to the margins, the topics of imagination and creativity have gained prominence in philosophy of science, challenging the once dominant distinction between ‘context of discovery’ and ‘context of justification’. The aim of this chapter is to explore imagination and creativity starting from issues within contemporary philosophy of science, making connections to these topics in other domains along the way. It discusses the recent literature on the role of imagination in models and thought experiments, and their comparison with fictions. (...)
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  45.  42
    Scientific Revolutions, Abductive Reasoning, and Autism.Alan Griswold - manuscript
    Thomas Kuhn’s depiction of scientific revolution has much in common with Charles Sanders Peirce’s portrayal of abductive reasoning, with each description outlining a template for the overthrow and reconstruction of contextual frameworks. Such upheavals are often ignited by a single individual and are frequently idiosyncratic and iconoclastic in nature. Accordingly, this essay explores the role autism plays in both scientific revolution and abductive reasoning, with an emphasis on the atypical perceptual characteristics that autistic individuals bring to the human (...)
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  46. From children’s literature to sustainability science and youth in scientific research.Quan-Hoang Vuong - 2019 - ASEAN Conference for Young Scientists 2019 2019:01-13.
    As the future of human development increasingly hinges on the need for sustainable education and science, this essay re-examines the imminent threats to humankind and the relevance of achieving the United Nations’ Sustainable Development Goals (SDGs) to science-technology research among today’s young scientists. It also discusses some socio-political and economic challenges to achieving sustainability and argues that developing sustainability science is difficult but not impossible. The hope lies in our current efforts to build productive and creative scientific communities through (...)
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  47. Total SciComm — All out science communication.Manh-Toan Ho & Manh-Tung Ho - manuscript
    This essay seeks to introduce a philosophy of science communication: Total SciComm or all out science communication. The concept is inspired by the Dutch total football, in which, every player can play at any role. Similarly, in Total Scicomm, the scientific community employs every medium to communicate scientific ideas and engages all scientist in the process. -/- この論文は、科学のコミュニケーションの哲学を紹介することを目指している:Total SciComm (トータルサイコム) またはすべての科学のコミュニケーション。 このコンセプトは、あらゆるプレーヤーがあらゆる役割を果たすことができるオランダ全土のフットボールに触発されています。 同様に、トータルサイコムでは、科学界はあらゆる媒体を使用して科学的アイデアを伝え、その過程ですべての科学者を関与させる。.
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  48. Linguistic Discrimination in Science: Can English Disfluency Help Debias Scientific Research?Uwe Peters - 2023 - International Studies in the Philosophy of Science 36 (1):61-79.
    The English language now dominates scientific communications. Yet, many scientists have English as their second language. Their English proficiency may therefore often be more limited than that of a ‘native speaker’, and their scientific contributions (e.g. manuscripts) in English may frequently contain linguistic features that disrupt the fluency of a reader’s, or listener’s information processing even when the contributions are understandable. Scientific gatekeepers (e.g. journal reviewers) sometimes cite these features to justify negative decisions on manuscripts. Such justifications (...)
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  49. Reform retractions to make them more transparent.Quan-Hoang Vuong - 2020 - Nature 582 (7811):149.
    The scientific community should agree on the essential information to be provided when pulling a paper from the scientific literature. Nature 582, 149 (2020); doi: 10.1038/d41586-020-01694-x.
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  50. Covid-19 and the Generation of Novel Scientific Knowledge: Research Questions and Study Designs.Perillat Lucie & Baigrie Brian - 2021 - Journal of Evaluation in Clinical Practice 27 (3):708-715.
    Rationale, aims, and objectives: One of the sectors challenged by the COVID-19 pandemic is medical research. COVID-19 originates from a novel coronavirus (SARSCoV- 2) and the scientific community is faced with the daunting task of creating a novel model for this pandemic or, in other words, creating novel science. This paper is the first part of a series of two papers that explore the intricate relationship between the different challenges that have hindered biomedical research and the generation of (...)
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