In science, objectivity refers to attempts to do higher quality research by eliminating personal biases (or prejudices), irrational emotions and false beliefs, while focusing mainly on proven facts and evidence. [1] It is often linked to observation as part of the scientific method. It is thus intimately related to the aim of testability and reproducibility. To be considered objective, the results of measurement must be communicated from person to person, and then demonstrated for third parties, as an advance in a collective understanding of the world. Such demonstrable knowledge has ordinarily conferred demonstrable powers of prediction or technology.
The problem of philosophical objectivity is contrasted with personal subjectivity, sometimes exacerbated by the overgeneralization of a hypothesis to the whole. For example, Newton's law of universal gravitation appears to be the norm for the attraction between celestial bodies, but it was later refined and extended—and philosophically superseded—by the more general theory of relativity.
The scientific method was argued for by Enlightenment philosopher Francis Bacon, rose to popularity with the discoveries of Isaac Newton and his followers, and continued into later eras. In the early eighteenth century, there existed an epistemic virtue in science which has been called truth-to-nature. [1] : 55–58 This ideal was practiced by Enlightenment naturalists and scientific atlas-makers, and involved active attempts to eliminate any idiosyncrasies in their representations of nature in order to create images thought best to represent "what truly is". [1] : 59–60 [2] : 84–85 Judgment and skill were deemed necessary in order to determine the "typical", "characteristic", "ideal", or "average". [2] : 87 In practicing, truth-to-nature naturalists did not seek to depict exactly what was seen; rather, they sought a reasoned image. [1] : 98
In the latter half of the nineteenth-century, objectivity in science was born when a new practice of mechanical objectivity appeared. [1] : 121 "'Let nature speak for itself' became the watchword of a new brand of scientific objectivity." [2] : 81 It was at this time that idealized representations of nature, which were previously seen as a virtue, were now seen as a vice. [1] : 120 Scientists began to see it as their duty to actively restrain themselves from imposing their own projections onto nature. [2] : 81 The aim was to liberate representations of nature from subjective, human interference and in order to achieve this scientists began using self-registering instruments, cameras, wax molds, and other technological devices. [1] : 121
In the twentieth century trained judgment [1] : 309 supplemented mechanical objectivity as scientists began to recognize that, in order for images or data to be of any use, scientists needed to be able to see scientifically; that is, to interpret images or data and identify and group them according to particular professional training, rather than to simply depict them mechanically. [1] : 311–314 Since the latter half of the nineteenth century, objectivity has come to involve a combination of trained judgment and mechanical objectivity.
Another methodological aspect is the avoidance of bias, which can involve cognitive bias, cultural bias, or sampling bias. Methods for avoiding or overcoming such biases include random sampling and double-blind trials. [3] However, objectivity in measurement can be unobtainable in certain circumstances. Even the most quantitative social sciences such as economics employ measures that are constructs (conventions, to employ the term coined by Pierre Duhem).
Various scientific processes, such as peer reviews, the discussions at scientific conferences, and other meetings where scientific results are presented, are part of a social process whose purpose is to strengthen the objective aspect of the scientific method.[ attribution needed ]
Next to unintentional and systematic error, there is always the possibility of deliberate misrepresentation of scientific results, whether for gain, fame, or ideological motives. When such cases of scientific fraud come to light, they usually give rise to an academic scandal, but it is unknown how much fraud goes undiscovered. For important results, other groups will try to repeat the experiment. If they consistently fail, they will bring these negative results into the scientific debate.[ according to whom? ]
A critical argument on scientific objectivity and positivism is that all science has a degree of interpretivism. [4] : 29 In the 1920s, Percy Bridgman's The Logic of Modern Physics and the operationalism presented was centered in such recognition. [4] : 29
Based on a historical review of the development of certain scientific theories in his book, The Structure of Scientific Revolutions , scientist and historian Thomas Kuhn raised some philosophical objections to claims of the possibility of scientific understanding being truly objective. In Kuhn's analysis, scientists in different disciplines organise themselves into de facto paradigms within which scientific research is done, junior scientists are educated, and scientific problems are determined. [5]
When observational data arises which appears to contradict or falsify a given scientific paradigm, scientists within that paradigm historically have not immediately rejected it, as Karl Popper's philosophical theory of falsificationism would have them do. Instead they have gone to considerable lengths to resolve the apparent conflict without rejecting the paradigm. Through ad hoc variations to the theory and sympathetic interpretation of the data, supporting scientists will resolve the apparent conundrum. In extreme cases, they may ignore the data altogether. Thus, the failure of a scientific paradigm will go into crisis when a significant portion of scientists working in the field lose confidence in it. The corollary of this observation is that a paradigm is contingent on the social order amongst scientists at the time it gains ascendancy. [5]
Kuhn's theory has been criticised by scientists such as Richard Dawkins and Alan Sokal as presenting a relativist view of scientific progress. [6] [7]
In Situated Knowledges: The Science Question in Feminism and the Privilege of Partial Perspective (1988), Donna Haraway argues that objectivity in science and philosophy is traditionally understood as a kind of disembodied and transcendent "conquering gaze from nowhere." [8] : 581 She argues that this kind of objectivity, in which the subject is split apart and distanced from the object, is an impossible "illusion, a god trick." [8] : 583–587 She demands a re-thinking of objectivity in such a way that, while still striving for "faithful accounts of the real world," [8] : 579 we must also acknowledge our perspective within the world. She calls this new kind of knowledge-making "situated knowledges." Objectivity, she argues, "turns out to be about particular and specific embodiment and ... not about the false vision promising transcendence of all limits and responsibility". This new objectivity, "allows us to become answerable for what we learn how to see." [8] : 581–583
A paradigm shift is a fundamental change in the basic concepts and experimental practices of a scientific discipline. It is a concept in the philosophy of science that was introduced and brought into the common lexicon by the American physicist and philosopher Thomas Kuhn. Even though Kuhn restricted the use of the term to the natural sciences, the concept of a paradigm shift has also been used in numerous non-scientific contexts to describe a profound change in a fundamental model or perception of events.
The Sokal affair, also called the Sokal hoax, was a demonstrative scholarly hoax performed by Alan Sokal, a physics professor at New York University and University College London. In 1996, Sokal submitted an article to Social Text, an academic journal of cultural studies. The submission was an experiment to test the journal's intellectual rigor, specifically to investigate whether "a leading North American journal of cultural studies—whose editorial collective includes such luminaries as Fredric Jameson and Andrew Ross—[would] publish an article liberally salted with nonsense if (a) it sounded good and (b) it flattered the editors' ideological preconceptions."
Philosophy of science is the branch of philosophy concerned with the foundations, methods, and implications of science. Amongst its central questions are the difference between science and non-science, the reliability of scientific theories, and the ultimate purpose and meaning of science as a human endeavour. Philosophy of science focuses on metaphysical, epistemic and semantic aspects of scientific practice, and overlaps with metaphysics, ontology, logic, and epistemology, for example, when it explores the relationship between science and the concept of truth. Philosophy of science is both a theoretical and empirical discipline, relying on philosophical theorising as well as meta-studies of scientific practice. Ethical issues such as bioethics and scientific misconduct are often considered ethics or science studies rather than the philosophy of science.
Relativism is a family of philosophical views which deny claims to objectivity within a particular domain and assert that valuations in that domain are relative to the perspective of an observer or the context in which they are assessed. There are many different forms of relativism, with a great deal of variation in scope and differing degrees of controversy among them. Moral relativism encompasses the differences in moral judgments among people and cultures. Epistemic relativism holds that there are no absolute principles regarding normative belief, justification, or rationality, and that there are only relative ones. Alethic relativism is the doctrine that there are no absolute truths, i.e., that truth is always relative to some particular frame of reference, such as a language or a culture. Some forms of relativism also bear a resemblance to philosophical skepticism. Descriptive relativism seeks to describe the differences among cultures and people without evaluation, while normative relativism evaluates the word truthfulness of views within a given framework.
The Logic of Scientific Discovery is a 1959 book about the philosophy of science by the philosopher Karl Popper. Popper rewrote his book in English from the 1934 German original, titled Logik der Forschung. Zur Erkenntnistheorie der modernen Naturwissenschaft, which literally translates as, "Logic of Research: On the Epistemology of Modern Natural Science"'.
Donna J. Haraway is an American professor emerita in the history of consciousness and feminist studies departments at the University of California, Santa Cruz, and a prominent scholar in the field of science and technology studies. She has also contributed to the intersection of information technology and feminist theory, and is a leading scholar in contemporary ecofeminism. Her work criticizes anthropocentrism, emphasizes the self-organizing powers of nonhuman processes, and explores dissonant relations between those processes and cultural practices, rethinking sources of ethics.
The Structure of Scientific Revolutions is a book about the history of science by the philosopher Thomas S. Kuhn. Its publication was a landmark event in the history, philosophy, and sociology of science. Kuhn challenged the then prevailing view of progress in science in which scientific progress was viewed as "development-by-accumulation" of accepted facts and theories. Kuhn argued for an episodic model in which periods of conceptual continuity and cumulative progress, referred to as periods of "normal science", were interrupted by periods of revolutionary science. The discovery of "anomalies" during revolutions in science leads to new paradigms. New paradigms then ask new questions of old data, move beyond the mere "puzzle-solving" of the previous paradigm, alter the rules of the game and change the "map" directing new research.
Fashionable Nonsense: Postmodern Intellectuals' Abuse of Science, first published in French in 1997 as Impostures intellectuelles, is a book by physicists Alan Sokal and Jean Bricmont. As part of the so-called science wars, Sokal and Bricmont criticize postmodernism in academia for the misuse of scientific and mathematical concepts in postmodern writing.
The science wars were a series of scholarly and public discussions in the 1990s over the social place of science in making authoritative claims about the world. Encyclopedia.com, citing the Encyclopedia of Science and Religion, describes the science wars as the
The strong programme or strong sociology is a variety of the sociology of scientific knowledge (SSK) particularly associated with David Bloor, Barry Barnes, Harry Collins, Donald A. MacKenzie, and John Henry. The strong programme's influence on science and technology studies is credited as being unparalleled. The largely Edinburgh-based school of thought aims to illustrate how the existence of a scientific community, bound together by allegiance to a shared paradigm, is a prerequisite for normal scientific activity.
Postpositivism or postempiricism is a metatheoretical stance that critiques and amends positivism and has impacted theories and practices across philosophy, social sciences, and various models of scientific inquiry. While positivists emphasize independence between the researcher and the researched person, postpositivists argue that theories, hypotheses, background knowledge and values of the researcher can influence what is observed. Postpositivists pursue objectivity by recognizing the possible effects of biases. While positivists emphasize quantitative methods, postpositivists consider both quantitative and qualitative methods to be valid approaches.
Philosophy in this sense means how social science integrates with other related scientific disciplines, which implies a rigorous, systematic endeavor to build and organize knowledge relevant to the interaction between individual people and their wider social involvement.
Neopragmatism is a variant of pragmatism that infers that the meaning of words is a result of how they are used, rather than the objects they represent.
Rhetoric of science is a body of scholarly literature exploring the notion that the practice of science is a rhetorical activity. It emerged after a number of similarly oriented topics of research and discussion during the late 20th century, including the sociology of scientific knowledge, history of science, and philosophy of science, but it is practiced most typically by rhetoricians in academic departments of English, speech, and communication.
Factual relativism argues that truth is relative. According to factual relativism, facts used to justify claims are understood to be relative and subjective to the perspective of those proving or falsifying the proposition.
Feminist epistemology is an examination of epistemology from a feminist standpoint.
Criticism of postmodernism is intellectually diverse, reflecting various critical attitudes toward postmodernity, postmodern philosophy, postmodern art, and postmodern architecture. Postmodernism is generally defined by an attitude of skepticism, irony, or rejection towards what it describes as the grand narratives and ideologies associated with modernism, especially those associated with Enlightenment rationality. Thus, while common targets of postmodern criticism include universalist ideas of objective reality, morality, truth, human nature, reason, science, language, and social progress, critics of postmodernism often defend such concepts.
Thomas Samuel Kuhn was an American historian and philosopher of science whose 1962 book The Structure of Scientific Revolutions was influential in both academic and popular circles, introducing the term paradigm shift, which has since become an English-language idiom.
Feminist philosophy of science is a branch of feminist philosophy that seeks to understand how the acquirement of knowledge through scientific means has been influenced by notions of gender identity and gender roles in society. Feminist philosophers of science question how scientific research and scientific knowledge itself may be influenced and possibly compromised by the social and professional framework within which that research and knowledge is established and exists. The intersection of gender and science allows feminist philosophers to reexamine fundamental questions and truths in the field of science to reveal how gender biases may influence scientific outcomes. The feminist philosophy of science has been described as being located "at the intersections of the philosophy of science and feminist science scholarship" and has attracted considerable attention since the 1980s.
The Kuhn-Popper debate was a debate surrounding research methods and the advancement of scientific knowledge. In 1965, at the University of London's International Colloquium in the Philosophy of Science, Thomas Kuhn and Karl Popper engaged in a debate that circled around three main areas of disagreement. These areas included the concept of a scientific method, the specific behaviors and practices of scientists, and the differentiation between scientific knowledge and other forms of knowledge.