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Michael Savery

What are the major questions concerning the Darness in El Dorado controversy? - 72 views

I think the whole point of the article was to not only bring attention to Chagnon and Neel's flawed vaccination program but bring to light potential atrocities that other anthropologists have commi...

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J Scott Hill

The Structure of Scientific Revolutions - Wikipedia, the free encyclopedia - 1 views

  • The Structure of Scientific Revolutions by Thomas S. Kuhn, is an analysis of the history of science, published in 1962 by the University of Chicago Press. Its publication was a landmark event in the history, philosophy, and sociology of scientific knowledge and it triggered an ongoing worldwide assessment and reaction in—and beyond—those scholarly communities. In this work, Kuhn challenged the then prevailing view of progress in "normal science". Scientific progress had been seen primarily as "development-by-accumulation" of accepted facts and theories. Kuhn argued for an episodic model in which periods of such conceptual continuity in normal science were interrupted by periods of revolutionary science.
  • What is arguably the most famous example of a revolution in scientific thought is the Copernican Revolution. In Ptolemy's school of thought, cycles and epicycles (with some additional concepts) were used for modeling the movements of the planets in a cosmos that had a stationary Earth at its center. As accuracy of celestial observations increased, complexity of the Ptolemaic cyclical and epicyclical mechanisms had to increase to maintain the calculated planetary positions close to the observed positions. Copernicus proposed a cosmology in which the Sun was at the center and the Earth was one of the planets revolving around it.
  • Copernicus' contemporaries rejected his cosmology, and Kuhn asserts that they were quite right to do so: Copernicus' cosmology lacked credibility.
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  • One of the aims of science is to find models that will account for as many observations as possible within a coherent framework. Together, Galileo's rethinking of the nature of motion and Keplerian cosmology represented a coherent framework that was capable of rivaling the Aristotelian/Ptolemaic framework.
  • In any community of scientists, Kuhn states, there are some individuals who are bolder than most. These scientists, judging that a crisis exists, embark on what Thomas Kuhn calls revolutionary science, exploring alternatives to long-held, obvious-seeming assumptions. Occasionally this generates a rival to the established framework of thought. The new candidate paradigm will appear to be accompanied by numerous anomalies, partly because it is still so new and incomplete. The majority of the scientific community will oppose any conceptual change, and, Kuhn emphasizes, so they should. To fulfill its potential, a scientific community needs to contain both individuals who are bold and individuals who are conservative.
  • Those scientists who possess an exceptional ability to recognize a theory's potential will be the first whose preference is likely to shift in favour of the challenging paradigm. There typically follows a period in which there are adherents of both paradigms. In time, if the challenging paradigm is solidified and unified, it will replace the old paradigm, and a paradigm shift will have occurred.
  • Chronologically, Kuhn distinguishes between three phases. The first phase, which exists only once, is the pre-paradigm phase, in which there is no consensus on any particular theory, though the research being carried out can be considered scientific in nature. This phase is characterized by several incompatible and incomplete theories.
  • If the actors in the pre-paradigm community eventually gravitate to one of these conceptual frameworks and ultimately to a widespread consensus on the appropriate choice of methods, terminology and on the kinds of experiment that are likely to contribute to increased insights, then the second phase, normal science, begins, in which puzzles are solved within the context of the dominant paradigm. As long as there is consensus within the discipline, normal science continues.
  • Over time, progress in normal science may reveal anomalies, facts that are difficult to explain within the context of the existing paradigm. While usually these anomalies are resolved, in some cases they may accumulate to the point where normal science becomes difficult and where weaknesses in the old paradigm are revealed. Kuhn refers to this as a crisis. Crises are often resolved within the context of normal science. However, after significant efforts of normal science within a paradigm fail, science may enter the third phase, that of revolutionary science, in which the underlying assumptions of the field are reexamined and a new paradigm is established. After the new paradigm's dominance is established, scientists return to normal science, solving puzzles within the new paradigm.
  • SSR is viewed by postmodern and post-structuralist thinkers as having called into question the enterprise of science by demonstrating that scientific knowledge is dependent on the culture and historical circumstances of groups of scientists rather than on their adherence to a specific, definable method.
  • SSR has also been embraced by creationists who see creationism as an incommensurate worldview in contrast to naturalism while holding science as a valuable tool.[7]
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    Good highlights of Kuhn's book and the notion of Paradigm shift in science.
J Scott Hill

Marcel Mauss - Wikipedia, the free encyclopedia - 1 views

  • n his classic work The Gift, Mauss argued that gifts are never "free". Rather, human history is full of examples that gifts give rise to reciprocal exchange. The famous question that drove his inquiry into the anthropology of the gift was: "What power resides in the object given that causes its recipient to pay it back?" (1990:3). The answer is simple: the gift is a "total prestation", imbued with "spiritual mechanisms", engaging the honour of both giver and receiver (the term "total prestation" or "total social fact" (fait social total) was coined by his student Maurice Leenhardt after Durkheim's social fact).
  • The giver does not merely give an object but also part of himself, for the object is indissolubly tied to the giver: "the objects are never completely separated from the men who exchange them" (1990:31). Because of this bond between giver and gift, the act of giving creates a social bond with an obligation to reciprocate on part of the recipient. To not reciprocate means to lose honour and status, but the spiritual implications can be even worse: in Polynesia, failure to reciprocate means to lose mana, one's spiritual source of authority and wealth.
  • In a gift economy, however, the objects that are given are inalienated from the givers; they are "loaned rather than sold and ceded". It is the fact that the identity of the giver is invariably bound up with the object given that causes the gift to have a power which compels the recipient to reciprocate. Because gifts are inalienable they must be returned; the act of giving creates a gift-debt that has to be repaid
J Scott Hill

Michael Shermer: What Is Skepticism, Anyway? - 1 views

  • Consider global warming: Are you a global warming skeptic? Or are you skeptical of the global warming skeptics? In this case, I used to be a global warming skeptic, but now I'm skeptical of the global warming skeptics, which makes me a global warming believer based on the facts as I understand them at the moment. The "at the moment" part is what makes conclusions in science and skepticism provisional.
  • Thus, science and skepticism are synonymous, and in both cases it's okay to change your mind if the evidence changes. It all comes down to this question: What are the facts in support or against a particular claim?
  • Being a skeptic just means being rational and empirical: thinking and seeing before believing.
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  • Skepticism is not "seek and ye shall find," but "seek and keep an open mind."
  • Skepticism is the rigorous application of science and reason to test the validity of any and all claims.
  • Typically pseudoscientists will make statements that are unverified, or verified by a source within their own belief circle.
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    This Article highlights the connection between skepticism, science, and belief.  This dovetails with our discussion of paradigm shifts and how scientific results gain credibility through the peer review process where the data and methods are scrutinized along with the truth claims by qualified peers.
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