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A '''pseudoscience''' is any theory, or system of theories, that is claimed to be scientific by its proponents but that the scientific community deems flawed, usually because independent attempts at reproducing evidence for specific claims made on the basis of these theories have failed repeatedly and rarely if ever succeeded. The term is pejorative, and its use is inevitably controversial;<ref>Still A, Dryden W (2004)[http://onlinelibrary.wiley.com/doi/10.1111/j.0021-8308.2004.00248.x/pdf The Social Psychology of "Pseudoscience": A Brief History] ''J Theory Social Behav'' 34:267-90 ("The word has asserted the scientific credentials of the user at the same time as it denies these credentials
to the pseudoscientist.")</ref> the term is also problematical because of the difficulty in defining rigorously what [[science]] is. Some ideas (like [[phrenology]]) were once considered respectable sciences, but were later dismissed as pseudoscience. There are some areas today, such as [[psychoanalysis]], about which there is a serious dispute as to whether they may properly be considered pseudoscience.


[[Image:Phrenologychart.png|thumb|right|250px|[[Phrenology]] is regarded today as a classic example of pseudoscience.]]
The term "pseudoscience", which combines the [[Greek language|Greek]] root ''pseudo'', meaning "false", and the [[Latin language|Latin]] ''scientia'', meaning "knowledge", seems to have been used first in 1843 by the French physiologist [[François Magendie]] (1783–1855), who referred to phrenology as "a pseudo-science of the present day". Among its early uses was one in 1844 in the ''Northern Journal of Medicine'', I 387: "That opposite kind of innovation which pronounces what has been recognized as a branch of science, to have been a pseudo-science, composed merely of so-called facts, connected together by misapprehensions under the disguise of principles".
A '''pseudoscience''' is any body of alleged knowledge, methodology, belief, or practice that claims to be scientific but does not follow the [[scientific method]].<ref>"''Pseudoscientific - pretending to be scientific, falsely represented as being scientific''", from the ''Oxford American Dictionary'', published by the [[Oxford English Dictionary]].</ref>&nbsp;<ref>http://skepdic.com/pseudosc.html</ref>


The term ''pseudoscience'' appears to have been first used in 1843<ref> Magendie, F. (1843). ''An Elementary Treatise on Human Physiology.'' 5th Ed. Tr. John Revere. New York: Harper, p. 150. Magendie refers to phrenology as "''a pseudo-science of the present day''" (note the hyphen).</ref> as a combination of the [[Greek language|Greek]] root ''pseudo'', meaning false, and the [[Latin]] ''scientia'', meaning knowledge or a field of knowledge. It generally has [[pejorative|negative connotations]], because it asserts that things so labeled are inaccurately or deceptively described as science.<ref>However, from the "them vs. us" polarization that its usage engenders, the term may also have a positive function because "''[the] derogatory labeling of others often includes an unstated self-definition'' "(p.266); and, from this, the application of the term also implies "''a unity of science, a privileged tree of knowledge or space from which the pseudoscience is excluded, and the user's right to belong is asserted'' " (p.286) -- Still, A. & Dryden, W., "The Social Psychology of "Pseudoscience": A Brief History", ''Journal for the Theory of Social Behaviour'', Vol.34, No.3, (September 2004), pp.265-290.</ref>  As such, those labeled as practicing or advocating a "pseudoscience" normally reject this classification.
== Introduction ==
[[Image:Phrenologychart.png|thumb|right|270px|[[Phrenology]] is a classic example of pseudoscience. Popular in the middle of the 19th century, phrenology held that mental faculties are localised to different parts of the brain, that they develop differently in different individuals, and that these differences are reflected in measurable differences in the external form of the cranium.]]


==Introduction==
Casting [[horoscope]]s based on the night sky has been used to predict the future for at least two thousand years, long before the establishment of the [[scientific method]]. Although many contemporary [[astrology|astrologers]] continue in this mystical tradition, some of them argue that their methods are scientific - a view that opens them to the charge of pseudoscience. Astrology is generally regarded as nonsense by scientists, but sometimes it can be hard to tell the difference between an idea that is plausible but not generally accepted and one that is simply unsound.
The standards for determining whether a body of alleged [[knowledge]], [[methodology]], or [[practice]] is scientific can vary from field to field, but involve agreed principles including [[reproducibility]] and [[intersubjective verifiability]].<ref>''See, e.g., '' Gauch, Hugh G., Jr., ''Scientific Method in Practice'' (2003) 3-5 ''ff''.</ref> Such principles aim to ensure that relevant evidence can be reproduced and/or measured given the same conditions, which allows further investigation to determine whether a [[hypothesis]] or [[theory]] related to given [[phenomena]] is both [[validity (statistics)|valid]] and [[reliability (statistics)|reliable]] for use by others, including other [[scientists]] and [[researchers]]. [[Scientific method]]s are expected to be applied throughout, and [[bias]] is expected to be controlled or eliminated, by [[double blind|double-blind]] studies, or statistically through fair sampling procedures. All gathered data, including experimental/environmental conditions, are expected to be documented for scrutiny and made available for [[peer review]], thereby allowing further [[experiments]] or [[studies]] to be conducted to confirm or [[falsify]] results, as well as to determine other important factors such as [[statistical significance]], [[confidence interval]]s, and [[margin of error|margins of error]].<ref>Gauch (2003), 191 ''ff'', especially Chapter 6, "Probability", and Chapter 7, "inductive Logic and Statistics"</ref> Fulfillment of these requirements allows others a reasonable opportunity to assess whether to rely upon the reported results in their own scientific work or in a particular field of [[applied science]], [[technology]], [[therapy]], or other form of practice.


In the mid-20th Century [[Karl Popper]] suggested the additional criterion of [[falsifiability]].<ref>Popper, Karl, "Science, Conjectures and Refutations" (orig. 1963), in Cover, J.A., Curd, Martin (Eds, 1998) ''Philosophy of Science: The Central Issues'', 3-10.</ref> Some theories cannot be proven false under any circumstance, for example, the theory that God created the universe. Such theories may be true or false, but are not scientific; they lie outside the scope of (at least present-day) science; Popper differentiated between mythological, religious or metaphysical formulations (which may prefigure later scientific theories but do not follow a scientific methodology), and pseudoscientific formulations &mdash; though without providing a clear definition of each.<ref>Popper, Karl, "Science: Conjectures and Refutations", reprinted in Grim, Patrick, ''Philosophy of Science and the Occult'', Albany 1990, pp. 104-110.</ref> Popper said a hypothesis or theory must be [[empirical|empirically]] verifiable and that scientific propositions should be limited to statements that are capable of being shown false through experiment. Another criterion applicable to theoretical work is the [[heuristic]] of [[parsimony]], also known as [[Occam's Razor]]. This principle says the most simple explanation for the evidence is preferred over explanations needing additional assumptions.<ref>Gauch (2003) 269 ''ff'', "Parsimony and Efficiency".</ref>
Generally, pseudoscientific claims either (1) lack supporting evidence, or (2) are based on evidence that is not established by [[scientific method]]s or (3) cite well-established evidence but misuse it or misinterpret it to support the conclusions asserted in the claim. Science has considerable prestige in modern societies; often, to call something  "scientific" is to suggest that it is true. Conversely, theories that do not follow the methods of science are likely to be dismissed not only as "unscientific" or "pseudoscientific", but also as fallacious.  


Some historians and philosophers of science (including [[Paul Feyerabend]]) argue, from a [[sociology of knowledge]] perspective, that a distinction between science and pseudoscience is neither possible nor desirable.<ref>Feyerabend, Paul, ''Against Method: Outline of an Anarchistic Theory of Knowledge,'' (1975)[http://www.marxists.org/reference/subject/philosophy/works/ge/feyerabe.htm] </ref>&nbsp;<ref>For a perspective on Feyerabend from within the scientific community, see, e.g., Gauch (2003) at p.4: "Such critiques are unfamiliar to most scientists, although some may have heard a few distant shots from the so-called science wars."</ref> Among the issues which can make the distinction difficult are that both the theories and methodologies of science evolve at differing rates in response to new data.<ref>Thagard, Paul R. "Why Astrology is a Pseudoscience" (1978) In PSA 1978, Volume 1, ed PD Asquith and I Hacking (East Lansing: Philosophy of Science Association, 1978) 223 ff. Thagard writes, at 227, 228: "We can now propose the following principle of demarcation: A theory or discipline which purports to be scientific is pseudoscientific if and only if: it has been less progressive than alternative theories over a long period of time, and faces many unsolved problems; but the community of practitioners makes little attempt to develop the theory towards solutions of the problems, shows no concern for attempts to evaluate the theory in relation to others, and is selective in considering confirmations and disconfirmations."</ref> In addition, the specific standards applicable to one field of science may not be those employed in other fields.<ref>Gauch HG, Jr., Scientific Method in Practice (2003) 3-5 ff.</ref>
For those whose sincerely held theories are dismissed as "pseudoscience," that label often cuts to the quick. The charge can imply poor training, inadequate education, faulty judgment, or outright fraud, and thereby prompts defensive outrage from its targets.


Some critics of pseudoscience such as [[Richard Dawkins]], [[Mario Bunge]], [[Carl Sagan]], and [[James Randi]] consider all forms of pseudoscience to be harmful, whether or not they result in immediate harm to their adherents. These critics generally consider that pseudoscience may occur for a number of reasons, ranging from simple naïveté about the nature of science and the [[scientific method]], to deliberate deception for financial or political gain. At the extreme, issues of personal health and safety may be very directly involved, for example in the case of physical or mental therapy or treatment, or in assessing safety risks. In such instances the potential for direct harm to patients, clients or even the general public may be an issue in assessing pseudoscience. (See also: [[Junk science]].)
==How pseudoscience flourishes==
It is often wondered why so many people seem to be willing to believe some extraordinarily improbable things on the basis of the flimsiest of evidence.  


The concept of pseudoscience as antagonistic to ''bona fide'' science appears to have emerged in the mid-[[19th century]]. The second recorded use of the word "pseudo-science" appears to have been in 1844 in the ''Northern Journal of Medicine'', I 387: "That opposite kind of innovation which pronounces what has been recognised as a branch of science, to have been a pseudo-science, composed merely of so-called facts, connected together by misapprehensions under the disguise of principles".
Some nonsense is given credence because it validates particular religious or political beliefs. [[Creationism]] and [[intelligent design]] are both adopted primarily because they support certain religious – often Christian – beliefs. Moral and political thought also comes into it: many fear that an evolutionary view of the universe has negative moral consequences and so prefer ''any'' alternative theory.


==Identifying pseudoscience==
Lies, fallacies, misrepresentations, distortions and other nonsense sometimes enter the public consciousness because of how the news media works. Newspapers have increased in size and there are now many more broadcast outlets than ever before – hundreds more channels on cable and satellite television, thousands of news blogs and websites. To fill this gap, reporters spend less time checking facts, and often simply report on press releases delivered to them by public relations agencies, including by some who commission studies to fit various corporate or political agendas. Many of these are novelty or fun pieces, others are fluffy pieces on shaky social science research, but some cover serious health and medical topics. Few science reporters have any training in science, and often seem woefully poor at telling the difference between good science and rubbish.


A field, practice, or body of knowledge is reasonably called pseudoscience or pseudoscientific when (1) it has presented itself as scientific (i.e., as empirically and experimentally verifiable); and (2) it fails to meet the accepted [[norm (sociology)|norms]] of scientific research. <ref>Cover, J.A., Curd, Martin (Eds, 1998) ''Philosophy of Science: The Central Issues'', 1-82.</ref> Within the various expectations of legitimate scientific methodology, by far the most important is that of making data and methodology available for close  scrutiny by other [[scientists]] and [[researchers]], as well as making available any additional relevant information used to arrive at particular results or methods of practice.<ref>''See, e.g.,'' Gauch, Hugh G., Jr. (2003) ''Scientific Method in Practice'', 124 ''ff'', esp. section on "Full Disclosure".</ref> To the degree that thorough documentation of data and method is unavailable for detailed scrutiny by others, a body of knowledge, practice, or field of inquiry will tend, to have some of the characteristics below.
Pseudoscience is often promoted by reference to the "underdog" credentials of the proponents. Frequent mention is made of Galileo and others who were persecuted for ideas that later turned out to be correct. [[Carl Sagan]] commented on this:


'''Use of vague, exaggerated or untestable claims'''
<blockquote>"The fact that some geniuses were laughed at does not imply that all who are laughed at are geniuses. They laughed at Columbus, they laughed at Fulton, they laughed at the Wright brothers. But they also laughed at Bozo the Clown."<ref>From ''Broca's Brain: Reflections on the Romance of Science'' by Carl Sagan (1986) ISBN-10: 0345336895. Perhaps they were right to laugh at [[Christopher Columbus|Columbus]]; his plan to reach the East by sailing West was founded on the mistaken beliefs that the Asian continent stretched much farther to the east than it actually does and that Japan lay about 2,400 km east of the Asian mainland; he also greatly underestimated the circumference of the earth.</ref></blockquote>
* Assertion of scientific claims that are vague rather than precise, and that lack specific measurements as a basis&nbsp;<ref>See, e.g., Gauch (2003), ''op cit'' at 211 ''ff'' (Probability, "Common Blunders").</ref>. 
* Failure to make use of [[operational definition]]s&nbsp;<ref>For a well-developed explanation of operational definitions, see, e.g., [http://www.wadsworth.com/psychology_d/templates/student_resources/workshops/res_methd/op_def/op_def_01.html]</ref>
* Failure to adhere to the principle of [[parsimony]], i.e. failing to seek an explanation that requires the fewest possible additional assumptions when multiple viable explanations are possible (''see'': [[Occam's Razor]])&nbsp;<ref>Gauch, ''op cit'' (2003) 269 ff, "Parsimony and Efficiency"</ref>
* Use of [[obscurantist]] language. Many proponents of pseudoscience use grandiose or highly technical jargon in an effort to provide their disciplines with the superficial trappings of science.<ref name=Lilienfeld20/>
* Lack of boundary conditions: Most well-supported scientific theories possess boundary conditions (well articulated limitations) under which the predicted phenomena do and do not apply. In contrast, many or most pseudoscientific phenomena are purported to operate across an exceedingly wide range of conditions.<ref>Hines, T. (1988) ''Pseudoscience and the Paranormal: A Critical Examination of the Evidence.'' Buffalo, NY: Prometheus Books. A Skeptical Inquirer Reader.</ref>


'''Over-reliance on confirmation rather than refutation'''
The "Gish Gallop" is an argument style used by the creationist [[Duane Gish]] where many claims are made in a short time during a formal, timed debate. It can take just a few seconds to make a claim, but much longer to refute it. When the respondent doesn't have enough time to address ''all'' of the claims, he appears to be leaving questions "still unanswered". Some prominent pseudoscientists are savvy media operators, while scientists become famous for their work in the lab, not their skills as public performers; the pseudoscientist can often be cast in the "everyman" role while the scientist is portrayed as an ivory-tower intellectual, an elitist or as somehow anti-democratic.
* Assertion of scientific claims that cannot be falsified in the event they are incorrect, inaccurate, or irrelevant (''see also'': [[falsifiability]])&nbsp;<ref>Lakatos, Imre. "Falsification and the Methodology of Scientific Research Programmes." in Lacatos, Imre, and Musgrave, Alan. (eds.). ''Criticism and the Growth of Knowledge'' (1970) 91-195.</ref>&nbsp;<ref>Popper, Karl (1959) ''The Logic of Scientific Discovery''.</ref>
* Assertion of claims that a theory predicts something that it has not been shown to predict (''see, e.g.'':[[validity]], [[relevance]], [[Ignoratio elenchi]]; [[Argument from ignorance]])&nbsp;<ref>See, e.g., Gauch (2003), ''op cit'' at 178 ''ff'' (Deductive Logic, "Fallacies"), and at 211 ''ff'' (Probability, "Common Blunders").</ref>&nbsp;<ref>See, e.g., [http://www.skeptics.org.uk/explanation.php?dir=articles/explanations&article=ignoratio_elenchi.php]</ref>&nbsp;<ref>''Macmilllan Encyclopedia of Philosophy'', Vol 3, "Fallacies" 174 'ff'', esp. section on "Ignoratio elenchi".</ref>
* Assertion that claims which have not been proven false must be true, and vice versa (''see'': [[Argument from ignorance]])&nbsp;<ref>Argument from ignorance is also properly termed "argument to ignorance", "argumentum ad ignorantiam". For a definition, see, e.g.,[http://skepdic.com/ignorance.html]</ref>&nbsp;<ref>''Macmillan Encyclopedia of Philosophy'', Vol 3, "Fallacies" 174 'ff'', esp. 177-178.</ref>
* Overreliance on testimonials and anecdotes. Testimonial and anecdotal evidence can be useful for discovery (i.e., hypothesis generation) but should not be used in the context of justification (i.e., hypothesis testing). Proponents of pseudoscientific claims frequently invoke reports from selected cases as evidence for these claims.<ref>Bunge, Mario (1983) "Demarcating science from pseudoscience," Fundamenta Scientiae 3: 369-388, 381.</ref>
* Selective use of experimental evidence: presentation of data that seems to support its own claims while suppressing or refusing to consider data that conflict with its claims&nbsp;<ref>Thagard, ''op cit'' (1978) at 227, 228.</ref>
* Reversed burden of proof. In science, the burden of proof rests on the individual making a claim, not on the critic. Proponents of a pseudoscience frequently neglect this principle and demand that [[skeptic]]s demonstrate beyond a reasonable doubt that a claim (e.g., an assertion regarding the efficacy of a novel therapeutic technique) is false. It is essentially impossible to prove a universal negative, so this tactic incorrectly places the burden of proof on the skeptic rather than the claimant.<ref>Lilienfeld S.O. (2004) Science and Pseudoscience in Clinical Psychology. Guilford Press (2004) ISBN 1-59385-070-0</ref>
* Appeals to [[holism]]:  Proponents of pseudoscientific claims, especially in organic medicine, alternative medicine, naturopathy and mental health, often resort to the “mantra of holism” to explain negative findings.<ref>Ruscio, J. (2001) ''Clear thinking with psychology: Separating sense from nonsense'', Pacific Grove, CA: Wadsworth.</ref>


'''Lack of openness to testing by other experts'''
In the public debate over [[climate change]], scientists are often portrayed as accepting conclusions regarding anthropogenic global warming because of the pressure to continue getting funding. This charge is promoted by climate change denial groups that are themselves massively funded by the oil industry.<ref>[http://www.guardian.co.uk/environment/2009/jul/01/exxon-mobil-climate-change-sceptics-funding ExxonMobil continuing to fund climate sceptic groups] ''Guardian'' 1 July 2009</ref><ref>
* Evasion of [[peer review]] before publicizing them (called "[[science by press conference]]")&nbsp;<ref>[http://www.senseaboutscience.org.uk/PDF/peerReview.pdf Peer review and the acceptance of new scientific ideas] (''Warning:'' 469 [[kilobyte|kB]] [[Portable Document Format|PDF]])</ref>&nbsp;<ref>*[http://www.jpgmonline.com/article.asp?issn=0022-3859;year=2001;volume=47;issue=3;spage=210;epage=4;aulast=Gitanjali Peer review – process, perspectives and the path ahead]</ref>&nbsp;<ref name=Lilienfeld>Lilienfeld Scott O. (2004) ''Science and Pseudoscience in Clinical Psychology.'' Guilford Press (2004)  ISBN 1-59385-070-0</ref>&nbsp;<ref>For an opposing perspective, see, e.g.: [http://www.uow.edu.au/arts/sts/bmartin/dissent/documents/ss/ss5.html Peer Review as Scholarly Conformity]</ref> Many proponents of pseudoscience avoid subjecting their work to the often ego-bruising process of peer review, sometimes on the grounds that peer review is inherently biased against claims that contradict established paradigms, and sometimes on the grounds that assertions cannot be evaluated adequately using standard scientific methods. By remaining insulated from the peer review process, some proponents of pseudoscience forego an invaluable opportunity to obtain corrective feedback from informed colleagues.<ref name=Ruscio>Ruscio, J. (2001) ''Clear thinking with psychology: Separating sense from nonsense.'' Pacific Grove, CA: Wadsworth.</ref>.
[http://www.telegraph.co.uk/earth/environment/climatechange/7538934/Oil-conglomerate-secretly-funds-climate-change-deniers.html Oil conglomerate 'secretly funds climate change deniers'] ''Telegraph'' 25 Nov 2010</ref>  
* Failure to provide adequate information for other researchers to [[reproducibility|reproduce]] the claimed results&nbsp;<ref>Gauch, ''op cit'' (2003) at 124 ff, "Full Disclosure"</ref>
* Assertion of claims of secrecy or proprietary knowledge in response to requests for review of data or methodology&nbsp;<ref>Gauch, ''op cit'' (2003) at 124 ff, "Full Disclosure"</ref>


'''Lack of progress'''
The issue of conflict of interest is a serious one, as conflicts can cloud judgement, but to assign motives to any speaker is to avoid the issues under debate, and is a disreputable strategy whether used by scientists ("he would say that wouldn't he, because he's a homeopath") or by their critics ("he has to say that or he wouldn't get grants"). There have been some well-publicised cases of fraudulent science, but for most scientists, their careers ultimately depend on being right, and advantages gained through being parsimonious with the truth or selective with facts are likely to be short term - any ''important'' claim is likely to be quickly put to the test - and the reputational risk of being proved wrong is great.
* Failure to progress towards additional evidence of its claims&nbsp;<ref name = Lakatos1>Lakatos, Imre. "Falsification and the Methodology of Scientific Research Programmes." in Lakatos, Imre, and Musgrave, Alan. (eds.). ''Criticism and the Growth of Knowledge'' (1970) 91-195.</ref>&nbsp;<ref>Thagard, Paul R. "Why Astrology is a Pseudoscience" (1978) In PSA 1978, Volume 1, edited by P.D. Asquith and I. Hacking (East Lansing: Philosophy of Science Association, 1978) 223 ''ff''. Thagard writes, at 227, 228: "We can now propose the following principle of demarcation: A theory or discipline which purports to be scientific is pseudoscientific if and only if: it has been less progressive than alternative theories over a long period of time, and faces many unsolved problems; but the community of practitioners makes little attempt to develop the theory towards solutions of the problems, shows no concern for attempts to evaluate the theory in relation to others, and is selective in considering confirmations and disconfirmations."</ref>
* Lack of self correction: both scientific and pseudoscientific research programmes make mistakes, but most scientific research programs tend to eliminate these errors over time, whereas most pseudoscientific research programs do not. Intellectual stagnation is a hallmark of most pseudoscientific research programs.<ref name=Ruscio120>Ruscio, J. (2001) ''Clear thinking with psychology: Separating sense from nonsense.'' Pacific Grove, CA: Wadsworth, p120.</ref>&nbsp;<ref> In contrast to sciences, in which erroneous claims tend to be gradually ferreted out by a process akin to natural selection, pseudosciences tend to remain stagnant in the face of contradictory evidence. The work ''Scientists Confront Velikovsky'', 1976, Cornell University, also delves into these features in some detail, as does the work of Thomas Kuhn, e.g., ''The Structure of Scientific Revolutions'' (1962) which also discusses some of the items on the list of characteristics of pseudoscience.</ref>


==Paradigmatic examples==
{|align="right" cellpadding="10" style="background-color:#FFFFCC; width:50%; border: 1px solid #aaa; margin:20px; font-size: 92%;"
|
''"As the new Darwinian orthodox' swept through Europe, its most brilliant opponent, the aging embryologist Karl Ernst von Baer, remarked with bitter irony that every triumphant theory passes through three stages: first it is dismissed as untrue; then it is rejected as contrary to religion; finally, it is accepted as dogma and each scientist claims that he had long appreciated its truth.


'''Personalization of issues'''
''I first met the theory of continental drift when it labored under the inquisition of stage two. Kenneth Caster, the only major American paleontologist who dared to support it openly, came to lecture at my alma mater, Antioch College. We were scarcely known as a bastion of entrenched conservatism, but most of us dismissed his thoughts as just this side of sane. ...
*Tight social groups and [[granfalloon]]s.  [[Authoritarian personality]], [[suppression of dissent]], and [[groupthink]] can enhance the adoption of pseudoscientific beliefs. In attempting to confirm their pseudoscience ([[confirmation bias]]), the group tends to identify critics of the pseudoscience as enemies, whereupon the group generates a set of arguments against critics.<ref name=Devilly>Devilly, Grant J. (2005) "Power Therapies and possible threats to the science of psychology and psychiatry", in Australian and New Zealand Journal of Psychiatry, Volume 39, Number 6, June 2005, pp. 437-445(9)</ref>
* Assertion of claims of a conspiracy on the part of the scientific community to suppress the results&nbsp;<ref>An example of such a Web site is [http://archivefreedom.org/ archivefreedom.org] which claims that "The list of suppressed scientists even includes Nobel Laureates!"</ref>
* Attacking the motives or character of anyone who questions the claims (see [[ad hominem|Ad hominem fallacy]].)&nbsp;<ref name=Devilly>Devilly, Grant J. (2005) "Power Therapies and possible threats to the science of psychology and psychiatry", in Australian and New Zealand Journal of Psychiatry (2005) 39 6:437-445</ref>&nbsp;<ref>See, e.g. [http://philosophy.lander.edu/logic/person.html]</ref>


Subjects may be considered pseudoscientific for various reasons and with an emphasis on particular characteristics; Popper considered  [[astrology]] to be pseudoscientific simply because astrologers keep their claims so vague that they could never be refuted, whereas Thagard considers astrology pseudoscientific because its practitioners make little effort to develop the theory, show no concern for attempts to critically evaluate the theory in relation to others, and are selective in considering evidence. More generally, Thagard also stated that pseudoscience tends to focus on resemblances rather than cause-effect relations. "Mistaking correlation for causation is the basis of most superstitious beliefs, including many in the area of [[alternative medicine]]. We have a tendency to assume that when things occur together, they must be causally connected, although obviously they need not be" (Beyerstein 1997).
''Today, just ten years later, my own students would dismiss with even more derision anyone who denied the evident truth of continental drift..."''


Some of these characteristics are also true to some extent of some new genuinely scientific work. These include:
"The Validation of Continental Drift" - [[Stephen Jay Gould]]<ref>[http://earthweb.ess.washington.edu/creager/ess202/continental_drift.htm "The Validation of Continental Drift" ] - [[Stephen Jay Gould]]</ref>
* claims or theories unconnected to previous experimental results
|}
* claims which contradict experimentally established results
Some theories, claims, and practices that, when new, were dismissed as pseudoscientific, have since become accepted. The theory of [[continental drift]] that led to the current theory of [[plate tectonics]] was first proposed by Alfred Wegener in 1910, but for many decades after Wegener's death it was largely dismissed as  "eccentric, preposterous, and improbable".<ref>[http://pubs.usgs.gov/gip/dynamic/developing.html  Developing the theory] USGS)</ref> The [[Big Bang]] was a term originally chosen by [[Fred Hoyle]] to poke fun at the idea.<ref>see a BBC article on Big Bang [http://www.bbc.co.uk/dna/h2g2/A653230]</ref> They have since won general acceptance. In retrospect, the delay in acceptance of these and other revolutionary theories was clearly a result of the challenges that they posed to the accepted doctrines of the time, and of the difficulty in gathering evidence for new theories.
* work failing to operate on standard definitions of concepts
* emotion-based resistance, by the scientific community, to new claims or theories&nbsp;<ref>Kuhn, Thomas, ''The Structure of Scientific Revolutions'' (1962)</ref>


Another class of pseudoscience dubbed [[pseudoskepticism]] by the late professor of sociology, [[Marcello Truzzi]], refers to a non-rigorous [[skepticism]] that is  erroneously presented as skepticism, and taking a stance of ''denial'', rather than ''doubt''.<ref>Marcello Truzzi, Editorial, ''[http://www.anomalist.com/commentaries/pseudo.html Zetetic Scholar]'', 12–13 (1987) 3–4. "Since 'skepticism' properly refers to doubt rather than denial — nonbelief rather than belief — critics who take the negative rather than an agnostic position but still call themselves 'skeptics' are actually  pseudo-skeptics and have, I believed, gained a false advantage by usurping that label."</ref> Truzzi noted that while "Many claims of anomalies are bunk and deserve proper debunking .. those I term scoffers often make judgements without full inquiry"<ref>Marcello Truzzi, "Pseudoscience," in Gordon Stein, editor,  ''Encyclopedia of the Paranormal''. Buffalo,  NY: Prometheus Books. Pp. 560-575. Also described in "[http://skepticalinvestigations.org/anomalistics/perspective.htm Anomalistics]" (1998)</ref> The term "pseudoscience" may also be used by adherents of fields considered pseudoscientific to criticize their mainstream critics and vice versa, in which case the appearance is of two opposing camps both accusing each other of pseudoscience.


== Pseudoscience contrasted with protoscience ==  
===Astrology===
{{verify}}
[[Astrology]] (not to be confused with [[astronomy]]) refers to 'fortune-telling' based on the position (relative to earth) of the sun, moon, stars, and/or constellations. Some astrologers claim scientific status for their discipline, or some aspects of it; the activity at least makes certain assumptions which ought to be subject to scientific testing.
Protoscience is a term sometimes used to describe a hypothesis that has not yet been adequately tested by the scientific method, but which is otherwise consistent with existing science or which, where inconsistent, offers reasonable account of the inconsistency. It may also describe the transition from a body of practical knowledge into a scientific field. <ref>Popper, op. cit.</ref> Pseudoscience, in contrast, may even be untestable in principle. If tests appear to contradict its evidence, supporters may insist that the existing scientific results are false. Pseudoscience is often unresponsive to ordinary scientific procedures (for example, peer review, publication in standard journals).  


The boundaries between pseudoscience, protoscience, and "real" science are  unclear. Especially where there is a significant cultural or historical distance (as, for example, modern [[chemistry]] reflecting on [[alchemy]]), protosciences can be misinterpreted as pseudoscientific. Many people have tried to offer objective distinctions, with mixed success. Often the term pseudoscience is used simply as a [[pejorative]] to express the speaker's low opinion of a given field, regardless of any objective measures.
However unlikely, it is not inconceivable that the movements of the moon or planets might have some influence on human activity or emotions. The major criticism of astrology is that there is no good evidence for its claims, and no rational, logical structure to its theories. It often functions essentially as a religious activity, impervious to research.


If the claims of a given field can be experimentally tested and methodological standards are upheld, it is real scientific work, however odd, astonishing, or counter-intuitive. If claims made are inconsistent with existing experimental results or established theory, but the methodology is sound, caution should be used; much of science consists of testing hypotheses that turn out to be false. In such a case, the work may be better described as ''as yet unproven'' or ''research in progress''. Conversely, if the claims of any given "science" cannot be experimentally tested or scientific standards are not upheld in these tests, it fails to meet the modern criteria for a science.
Astrological researchers often complain that they cannot receive a fair hearing in scientific circles, and find it hard to have their research published in scientific journals. They claim that their critics have wrongly dismissed studies that do support astrology. An example would be [[Michel Gauquelin]]'s purported discovery of correlations between some planetary positions and certain human traits such as vocations. However, an examination of Gauquelin's  claims by the Belgian ''Comiti Para'' and by the French ''Comité Français pour l'Étude des Phénomènes Paranormaux'' concluded  that Gauquelin had selected results to support his conclusions.<ref> Kurtz P ''et al.'' (1997) Is the "Mars Effect" genuine? ''J Scientific Exploration'' [http://www.scientificexploration.org/journal/jse_11_1_kurtz.pdf 11:19-39]</ref>


==Demarcation problem and criticisms of the concept of pseudoscience==
===Alternative medicine===
{{main|Demarcation problem}}
Astrology can be dismissed as harmless nonsense. However, there are deeper concerns when ineffective health treatments are sold on the basis of pseudoscientific advertising – i.e. when advocates couch their claims in terms that make them falsely appear to have a credible scientific foundation. Patients with serious diseases may be deflected from seeking effective medical treatment by the false hopes engendered by remedies falsely promoted as being scientifically well-founded. Homeopathic remedies are safe in the sense that they contain no active ingredients and hence have no verified activity beyond that of placebos; but some homeopaths advise that their remedies are a suitable alternative to vaccinations, and such advice is considered dangerously irresponsible by public health professionals. Claims for herbal remedies, multi-vitamin supplements<ref>Multivitamin prostate warning ‘’BBC News’’ 16 May 2007 [
http://news.bbc.co.uk/1/hi/health/6657795.stm]</ref><ref>Multivitamin supplements a 'waste of time' ‘’The Independent’’ 10 February 2009 [http://www.independent.co.uk/life-style/health-and-families/health-news/multivitamin-supplements-a-waste-of-time-1605377.html]</ref> and other dietary supplements are also causes for concern: these products are extensively promoted, widely available and poorly regulated. While some supplements can be beneficial for some people, for many there is no benefit and for some there can be adverse consequences.


After over a century of dialogue among [[philosophy of science|philosophers of science]] and [[scientist]]s in varied [[science|fields]], and despite broad agreement on the basics of [[scientific method]],<ref>Gauch, Hugh G., Jr., ''Scientific Method in Practice'' (2003) 3-7.</ref> the boundaries between science and non-science continue to be debated.<ref>Cover, J.A., Curd, Martin (Eds, 1998) ''Philosophy of Science: The Central Issues'', 1-82.</ref> This is known as the [[scientific method#Problem of demarcation|problem of demarcation]].  
In general, though, the principal concern about false health claims is not that they are pseudoscientific, but simply that they are false. Some alternative medicine systems are also attacked by scientists for two main reasons: when they fail the practical test of clinical efficacy or refuse to submit to such study, and when they posit mechanisms for the supposed success of their treatment methodologies that rely on outdated notions that do not fit with modern scientific understanding.  


Many commentators and practitioners of science, as well as supporters of fields of inquiry and practices labelled as pseudoscience, question the rigor of the demarcation{{fact}}, as some disciplines now accepted as science previously had features cited as those of pseudoscience, such as lack of reproducibility, or the inability to create [[falsifiable]] experiments. Many accepted scientific concepts including: [[plate tectonics]],<ref>http://www.ucmp.berkeley.edu/geology/techist.html , regarding plate techtonics' early reception.</ref> and the [[Big Bang]],<ref>http://map.gsfc.nasa.gov/m_uni/uni_101bb1.html , regarding the Big Bang.</ref> were criticized by some as being pseudoscientific when first proposed.  
Scientists have a natural interest in defending the good name of science by exposing and debunking bad science wherever it is manifested, but medics have a different concern: to expose and discredit ineffective treatments simply ''because they are ineffective''.  Some ineffective treatments are promoted using pseudoscientific claims, others appeal to religious or spiritual rationales and don’t pretend a scientific basis, and yet others have a misguided scientific basis. In the end, if an argument is nonsense, or a claim false, the issue of whether it has also wrongly invoked the authority of science is incidental.


It has been argued that experimental verification is not in itself decisive in scientific method. [[Thomas Kuhn]] states that in neither Popper's nor his own theory "can testing play a quite decisive role."<ref>Kuhn, Thomas, "Logic of Discovery or Psychology of Research?" in Grim, op. cit., p. 125.</ref> [[Daniel Rothbart]] said that "the defining feature of science does not seem to be experimental success, for most clear cases of genuine science have been experimentally falsified."<ref>Rothbart, Daniel, "Demarcating Genuine Science from Pseudoscience", in Grim, op. cit., pp. 114.</ref> The latter proposed that a scientific theory must "account for all the phenomena that its rival background theory explains" and "must clash empirically with its rival by yielding test implications that are inconsistent with the rival theory". A theory is thus scientific or not depending upon its historical situation; if it betters the current explanations of phenomena, it marks scientific progress. "Many domains in ancient Greece, for example, domains that today are called superstition, religion, magic and the occult, were at that time clear cases of legitimate science." This is an explicitly competitive model of scientific work; Rothbart also notes that it is not a completely effective model.<ref>Rothbart, Daniel, op. cit., pp. 114-20.</ref>  
===IQ studies===
Cognitive scientists do not agree on what, if anything, [[intelligence (biology)|intelligence]] is, let alone how to test for it. Nevertheless one particular measure—scores from a range of [[standardized test | standardized]] [[Intelligence Quotient]] (IQ) tests—is widely used. Originally designed for educational and military use, the Stanford-Binet Intelligence Scale and its offshoots measure several cognitive capabilities such as language fluency, or three-dimensional thinking. While these may seem unrelated, test scores do in fact tend to correlate. The premise of IQ tests is that such capabilities all depend on some underlying factor, called the [[general intelligence factor]]. To critics, the concept smacks of metaphysics. Does "IQ" in fact measure anything at all?<ref>[http://observer.guardian.co.uk/focus/story/0,,668879,00.html The rise and fall of IQ] Vanessa Thorpe and Robin McKie, Sunday 17 March 2002, ''The Observer''</ref> Subsidiary questions relating to intelligence and IQ involve the relative importance of nature vs. nurture, and the distribution of IQ between men and women, and among the various races (cf. [[intelligence and race]]). Accusations of pseudoscience are not difficult to find in these discussions.<ref>Graves JL, Johnson A (1995) The Pseudoscience of Psychometry and The Bell Curve ''Journal of Negro Education'' 64:277-294
[http://www.jstor.org/stable/2967209]</ref>


Kuhn postulated that proponents of competing paradigms may resort to [[politics|political]] means (such as [[invective]]) to garner support from a public which lacks the ability to judge competing scientific theories on their merits. Philosopher of science Larry Laudan has suggested that ''pseudoscience'' has no scientific meaning and mostly describes our emotions: "If we would stand up and be counted on the side of reason, we ought to drop terms like ‘pseudo-science’ and ‘unscientific’ from our vocabulary; they are just hollow phrases which do only emotive work for us".<ref>Laudan, Larry, "The demise of the demarcation problem" in Ruse, Michael, ''But Is It Science?: The Philosophical Question in the Creation/Evolution Controversy '' (1996) 337-350.</ref>
===Psychotherapy===
[[Sigmund Freud|Freud]]'s proposal that mental illness might be treated through talk rather than surgery, drugs, or hypnosis was only one of the startling features of [[psychoanalysis]] contrasting it to earlier conceptions of [[psychiatry]]. The concept remains controversial today. Does [[psychotherapy]] "work"? Is it any more effective than ordinary talk? (Effective at what?)


==The ubiquity of pseudoscientific thinking==
Critics also wonder  what [[ontology | ontological]] status is being claimed for various abstract entities in psychological theory, such as Freud's [[ego]] and [[id]], which would seem unavailable for scientific inspection. In what way do [[psychoanalysis]] and its successors differ from religions? The question is even more sensitive in the case of [[Jungian psychology]] and transpersonal psychology, which are more interested in the spiritual dimension.
"A survey on public knowledge of science in the United States showed that in 1988 “50% of American adults [rejected] evolution, and 88% [believed] astrology is a science" (Bunge 1989). The National Science Foundation indicated that public belief in pseudoscience rose during the 1990's, peaked near 2001 and has mildly declined since. Nevertheless, pseudoscientific beliefs remain ubiquitous. <ref>[http://www.nsf.gov/statistics/seind06/c7/c7s2.htm] National Science Board. 2006. ''Science and Engineering Indicators 2006.'' Two volumes. Arlington, VA: National Science Foundation (volume 1, NSB-06-01; NSB 06-01A).</ref>


Pseudoscientific thinking has been explained in terms of [[psychology]] and [[social psychology]]. The human proclivity for seeking confirmation rather than refutation ([[confirmation bias]]) (Devilly 2005:439), the tendency to hold comforting beliefs, and the tendency to overgeneralize have been proposed as reasons for the common adherence to pseudoscientific thinking. Also, similar to Thagard’s notions of pseudoscience, humans are prone to associations based on resemblances only, and often prone to misattribution in cause-effect thinking. (Beyerstein 1991).
In ''The Myth of Mental Illness'' and other works, [[Thomas Szasz]] proposed that the entire concept of 'mental illness' is a tool of social control at the hands of a 'pharmacracy'. In his view, a disease must be something concrete and measurable, not an abstract condition which comes into existence by vote. In this light, current attitudes toward mental illness are no more rational than 19th-century campaigns against [[onanism]].


===Intelligent design===
[[Intelligent design]], as promoted by the [[Discovery Institute]], argues that the complexity and harmony of the universe and of life on earth implies the existence of an intelligent creator. To its critics, the theory was designed to circumvent U.S. prohibitions against the teaching of [[creation science]] as part of the scientific curricula of public schools. If so, the strategy did not work. In his decision for [[Kitzmiller v. Dover Area School District]], Judge John E. Jones III agreed that intelligent design is "a mere re-labeling of [[creationism]], and not a scientific theory". He went on to say (p.64):
<blockquote>We find that ID fails on three different levels, any one of which is sufficient to preclude a determination that ID is science. They are: (1) ID violates the centuries-old ground rules of science by invoking and permitting supernatural causation; (2) the argument of irreducible complexity, central to ID, employs the same flawed and illogical contrived dualism that doomed creation science in the 1980's; and (3) ID's negative attacks on evolution have been refuted by the scientific community.</blockquote>


==Pseudoscience in psychotherapy and popular psychology==
===Cargo cult science===
Neurologists and clinical psychologists such as Drenth (2003:38) <ref>[http://www.allea.org/pdf/17.pdf]</ref>, Lilienfeld (2004:20) and Beyerstein (1991:34) are concerned about the increasing amount of what they consider pseudoscience promoted in [[psychotherapy]] and popular [[psychology]], and are also concerned about what they see as pseudoscientific therapies such as [[Neuro-linguistic programming]], [[Rebirthing]], [[Reparenting]], and [[Primal Scream Therapy]] being adopted by government and professional bodies and by the public.  They state that scientifically unsupported therapies may harm vulnerable members of the public, undermine legitimate therapies, and tend to spread misconceptions about the nature of the mind and brain to society at large. Some psychiatrists and mainstream psychologists also perceive psuodoscientific ideas in more popularly accepted branches of psychotherapy, such as [[co-counselling]], [[Gestalt Therapy]], [[Re-evaluation Counseling]] and even in the work of [[Twelve-step program]] bodies such as [[Alcoholics Anonymous]].  
For many people, at least some 'pseudoscientific' beliefs, for example that the [[Pyramids|pyramids]] were built not by men but by prehistoric astronauts, are harmless nonsense. "Horoscopes" (not what professional astrologers mean by the term but what the general public means by it) are read for fun by many, but taken seriously by few. According to [[Scott Lillenfeld]], popular psychology is rife with pseudoscientific claims: self-help books, supermarket tabloids, radio call-in shows, television infomercials and 'pseudodocumentaries', the Internet, and even the nightly news promote unsupported claims about, amongst other things, extrasensory perception, psychokinesis, [[satanic ritual abuse]], [[polygraph testing]], [[subliminal persuasion]], [[out-of-body experience]]s, [[graphology]], the [[Rorschach test]], facilitated communication, herbal remedies for memory enhancement, [[recovered memory|the use of hypnosis for memory recovery]], and [[multiple personality disorder]]. He suggests that critically interrogating these claims is a good way of introducing students of psychology to understanding the scientific method, bearing in mind [[Stephen Jay Gould]]'s aphorism that "exposing a falsehood necessarily affirms a truth".<ref>Lilienfeld SO (2004) [http://www.teachpsych.lemoyne.edu/teachpsych/eit/eit2004/eit04-06.rtf Teaching Psychology Students to Distinguish Science from Pseudoscience: Pitfalls and Rewards]
:The [[National Science Foundation]] stated that [http://www.nsf.gov/statistics/seind06/c7/c7s2.htm 'pseudoscientific' habits and beliefs are common in the USA]
:National Science Board (2006) ''Science and Engineering Indicators 2006'' Two volumes. Arlington, VA: National Science Foundation (volume 1, NSB-06-01; NSB 06-01A)</ref>


A typical pseudoscientific concept used in some fringe psychotherapies is [[Wilhelm Reich|orgone energy]]. "There is an increasing degree of overlapping and blending of orgone therapy with New Age and other therapies that manipulate the patient’s ''biofields'', such as [[Therapeutic Touch]] and [[Reiki]]. 'Biofield' is a pseudoscientific term often used synonymously with ''orgone energy''. Klee states that "there is even an organization of [[psychiatry|psychiatrists]] which promotes the theories and methods of orgone therapy. <ref>Gerald D. Klee, M.D, "The Resurrection of Wilhelm Reich and Orgone Therapy", The Scientific Review of Mental Health Practice  Summer 2005 (Vol. 4, No. 1)." [http://www.srmhp.org/0401/orgone-therapy.html | available online]</ref>
The Nobel Laureate [[Richard Feynman]] recognized the importance of unconventional approaches to science, but was bemused by the willingness of people to believe "so many wonderful things." He was however much more concerned about how ordinary people could be intimidated by experts propounding "science that isn't science" and "theories that don't work":


:''There are big schools of reading methods and mathematics methods, and so forth, but if you notice, you'll see the reading scores keep going down ... And I think ordinary people with commonsense ideas are intimidated by this pseudoscience. A teacher who has some good idea of how to teach her children to read is forced by the school system to do it some other way — Or a parent ... feels guilty ... because she didn't do 'the right thing', according to the experts... '' Richard Feynman, ''Cargo Cult Science''


==Scientific theories once criticized as pseudoscience==
For Feynmann, it came down to a certain type of integrity, a "kind of care not to fool yourself", that was missing in what he called "cargo cult science".
A number of presently accepted scientific theories were once rejected by mainstream scientists and mathematicians of their time as pseudoscientific, irrational or obviously false. None of these fields are generally considered as pseudoscientific any more. These include:


*[[Big Bang theory]]&nbsp;<ref>EOP</ref>
==Pseudoscience and the philosophy of science==
*[[Black holes]]<ref>EOP, p. 156</ref>
Distinguishing what [[science]] is from what it is not is a fundamental problem of the [[philosophy of science]], known as the [[problem of demarcation]].
*[[Continental drift]]&nbsp;<ref>EOP</ref>
*[[Cosmology]]&nbsp;<ref>Stephen Hawking, [http://books.google.com/books?vid=ISBN9810210787&id=B18DXurmFZ8C&pg=PA1&lpg=PA1&dq=pseudoscience+cosmology&sig=VURMRSztTu0NSk-GlLaZ91Zv6ZM Hawking on the Big Bang and Black Holes] (1993) World Scientific, ISBN 981-02-1078-7. "Cosmology was thought of as pseudoscience where wild speculation was unconstrained by any possible observations".</ref>
*[[Electromagnetic fields]]&nbsp;<ref>Albert Einstein: "It is possible that there exist emanations that are still unknown to us. Do you remember how electrical currents and 'unseen waves' were laughed at?"</ref>
*[[Meteors]]<ref>[http://www4.nau.edu/meteorite/Meteorite/Book-Heritage.html See here]</ref>


At the time these theories were not accepted, each was backed up by varying levels of evidence, or none at all. Fields can also reject their pseudoscientific notions in favour of the more limited range of scientifically supported element/s of their field. For example, Atwood (2004) suggested that "[[osteopathy]] has, for the most part, repudiated its pseudoscientific beginnings and joined the world of rational healthcare.".
There is disagreement not only about whether 'science' can be distinguished from 'pseudoscience' objectively, but also about whether trying to do so is even useful. The philosopher [[Paul Feyerabend]] argued that all attempts to distinguish science from non-science are flawed. He argued that the idea that science can or should be run according to fixed rules is "unrealistic and pernicious... It makes our science less adaptable and more dogmatic". Often the term 'pseudoscience' is used simply as a pejorative to express a low opinion of a field, regardless of any objective measures; thus according to McNally, it is "little more than an inflammatory buzzword for quickly dismissing one’s opponents in media sound-bites."  Similarly, Larry Laudan suggested that 'pseudoscience' has no scientific meaning: "If we would stand up and be counted on the side of reason, we ought to drop terms like 'pseudoscience' and ‘unscientific’ from our vocabulary; they are just hollow phrases which do only emotive work for us"''.


==See also==
Skepticism is generally regarded as essential in science, but skepticism is properly defined as ''doubt'', not ''denial''. The sociologist [[Marcello Truzzi]] distinguished between 'skeptics' and 'scoffers' (or 'pseudo-skeptics'). Scientists who are scoffers fail to apply the same professional standards to their criticism of unconventional ideas that would be expected in their own fields; they are more interested in discrediting claims of the extraordinary than in disproving them, using poor scholarship, substandard science, ad hominem attacks and rhetorical tricks rather than solid falsification. Truzzi quotes the philosopher [[Mario Bunge]] as saying: "the occasional pressure to suppress [dissent] in the name of the orthodoxy of the day is even more injurious to science than all the forms of pseudoscience put together."<ref>'''Criticisms of the concept of pseudoscience'''
* [[Bad science]]  
:[[Paul Feyerabend]] (1975) 'Against Method: Outline of an Anarchistic Theory of Knowledge' [http://www.marxists.org/reference/subject/philosophy/works/ge/feyerabe.htm]  
* [[Cargo cult science]]  
:McNally RJ (2003)Is the pseudoscience concept useful for clinical psychology? ''SRHMP'[http://srmhp.org/0202/pseudoscience.html ' Vol 2 Number 2]
* ''[[The Demon-Haunted World]]''  
:Laudan L (1996) The demise of the demarcation problem, in Ruse M 'But Is It Science?: The Philosophical Question in the Creation/Evolution Controversy' pp 337-50
* [[Junk science]]
:[[John Stuart Mill]] ''On Liberty'' (1869) Chapter II: [http://www.bartleby.com/130/2.html Of the Liberty of Thought and Discussion]
* [[Pathological science]]
:[[Marcello Truzzi]] [http://www.skepticalinvestigations.org/anomalistics/practices.htm On Some Unfair Practices towards Claims of the Paranormal]; [http://www.anomalist.com/commentaries/pseudo.html On Pseudo-Skepticism]</ref>
* [[Pathological skepticism]] (or Pseudoskepticism)
* [[Quackery]]  
* [[Sokal Affair]]  


===People===
Because science is so diverse, it is hard to find rules to distinguish between what is scientific and what is not that can be applied consistently. [[Imre Lakatos]] suggested that we might however distinguish between 'progressive' and 'degenerative' research programs; between those which evolve, expanding our understanding, and those which stagnate. Paul Thagard proposed, more formally, that a theory can be regarded as pseudoscientific if "it has been less progressive than alternative theories over a long period of time, and faces many unsolved problems; but the community of practitioners makes little attempt to develop the theory towards solutions of the problems, shows no concern for attempts to evaluate the theory in relation to others, and is selective in considering confirmations and disconfirmations".<ref>'''The progress of science'''
* [[Michael Behe]] : advocate of [[Intelligent Design]].
:Hawking SW (1993) 'Hawking on the Big Bang and Black Holes' World Scientific Publishing Company, [http://books.google.com/books?id=B18DXurmFZ8C&vid=ISBN9810210787&dq=cosmology+pseudoscience&pg=PA1&lpg=PA1&sig=3kUPCUsutTSoxxPQT_-ZnTq7Vqo&q=cosmology+pseudoscience Page 1], [http://books.google.com/books?vid=ISBN140200155X&id=WOjraq3KdeQC&pg=PA75&lpg=PA75&dq=cosmology+pseudoscience&sig=HToMI1FluZxg3A6fYGiav5KKANg] and [http://books.google.com/books?vid=ISBN140200155X&id=WOjraq3KdeQC&pg=PA75&lpg=PA75&dq=cosmology+pseudoscience&sig=HToMI1FluZxg3A6fYGiav5KKANg].
* [[James Randi]] : leading debunker of paranormal and psuedoscientific exponents and practitioners.
:Currently, [[string theory]] has been criticized by some researchers, e.g. Smolin L (2006) ''The Trouble with Physics: The Rise of String Theory, the Fall of a Science, and What Comes Next'' Houghton Mifflin Company. ISBN 0618551050
* [[Erich von Däniken]] : controversial Swiss author who is best known for his views that aliens visited the Earth in ancient times.
:Lakatos I (1977) ''The Methodology of Scientific Research Programmes: Philosophical Papers Volume 1'' Cambridge: Cambridge University Press[http://www.lse.ac.uk/collections/lakatos/scienceAndPseudoscience.htm Science and Pseudoscience] - transcript and broadcast of talk by Imre Lakatos
* [[Kent Hovind]] : American evangelist and prominent "Young Earth" creationist.
:Thagard PR (1978)  [http://www.cavehill.uwi.edu/bnccde/PH29A/thagard.html Why astrology is a pseudoscience] In ''PSA  Volume 1'' ed PD Asquith and I Hacking (East Lansing: Philosophy of Science Association</ref>
* [[L. Ron Hubbard]] : Founder of [[Dianetics]] and the [[Church of Scientology]]
* [[John Hutchison]] : advocate of the "Hutchison effect" purporting to create energy from the vacuum.
* [[Michael Shermer]] : science writer, founder of The Skeptics Society, and editor of its magazine Skeptic.
* [[Marcello Truzzi]] : professor of sociology at Eastern Michigan University and director for the Center for Scientific Anomalies Research.
* [[Ernest Muldashev]] : Russian ufologist.


=== Lists ===
[[Thomas Kuhn]] saw a circularity in this, and questioned whether a field makes progress because it is a science, or whether is it a science because it makes progress. He also questioned whether scientific revolutions were in fact progressive, noting that [[Einstein]]'s general theory of relativity is in some ways closer to [[Aristotle]]'s than either is to [[Newton]]'s. Most progress in science, according to Kuhn, is not at times of scientific revolution, when one theory is replacing another, but when one paradigm is dominant, and when scientists who share common goals and understanding fill in the details by puzzle solving. He argued that, when a theory is discarded, it is not always the case (at least not at first) that the new theory is better at explaining facts. Which of two theories is 'better' is largely a matter of opinion. The reasons for discarding a theory may be that more and more anomalies that reveal its weaknesses become apparent, but there is no point at which the followers of one theory abandon it in favor of a new one; instead, they cling tenaciously to the old theory, while seeking fresh explanations for the anomalies. A new theory takes over not by converting followers of the old theory, but because, over time, the new view gains more and more followers until it becomes dominant, while the older view is held in the end only by a few "elderly hold outs". Kuhn argued that such resistance is not unreasonable, or illogical, or wrong; instead he thought that the conservative nature of science is an essential part of what enables it to progress. At most, it might be said that the man who continues to resist the new view long after the rest of his profession has adopted a new view "has ''ipso facto'' ceased to be a scientist".
* [[Crank (person)|Crank]] (article which contains a list of theories)
* [[List of pseudoscientific theories]]
* [[List of misconceptions]]


==Notes==
As Kuhn described them to be, the motives of the true scientist are to gain the respect and approval of his or her peers. When technical jargon is misused, or when scientific findings are represented misleadingly, to give particular claims the superficial trappings of science ''for some commercial or political gain'', this is easily recognized as an abuse of science;<ref>'''Popular pseudoscience'''
<div style="font-size:87.5%; -moz-column-count:2; column-count:2;">
:Giuffre M (1977) Science, bad science, and pseudoscience. J Perianesth Nurs 12:434-8 PMID 9464033
<!--See [[Wikipedia:Footnotes]] for an explanation of how to generate footnotes using the <ref(erences/)> tags-->
:Ostrander GK ''et al.'' (2004) Shark cartilage, cancer and the growing threat of pseudoscience. Cancer Res 64:8485-91  PMID 15574750</ref> it is not an abuse that is confined to popular literature, however.<ref>:Tsai AC (2003) Conflicts between commercial and scientific interests in pharmaceutical advertising for medical journals. Int J Health Serv 33:751-68 PMID 14758858
<references/>
:Cooper RJ ''et al.'' (2003) The quantity and quality of scientific graphs in pharmaceutical advertisements. J Gen Intern Med 18:294-7 PMID 12709097</ref>  
</div>


==References==
Despite the complexity of the issue, solutions to the [[problem of demarcation]] were proposed in the 20th century that can be collected into two main lines of thinking (see also [[scientific method]], [[Karl Popper]] and [[Thomas Kuhn]] for further discussion).
<div class="references-small">
*Atwood K,C. Naturopathy, Pseudoscience, and Medicine: Myths and Fallacies vs Truth. Medscape General Medicine.  2004;6(1):e53 [http://www.pubmedcentral.nih.gov/articlerender.fcgi?artid=1140750 www.pubmedcentral.nih.gov/articlerender.fcgi?artid=1140750], retrieved 4 Sept. 2006
*Beyerstein,D. (1996) A Skeptical Look at Alternative Healthcare. ''The Rational Enquirer''. Vol 12, No. 2, Nov, 02 [http://www.bcskeptics.info/re/06.02.pdf]
*Beyerstein,D, (1997) Why Bogus Therapies Often Seem to Work. Rational Inquirer: September/October 1997 [http://www.quackwatch.org/01QuackeryRelatedTopics/altbelief.html]
*Bunge, M. (1983) Demarcating science from pseudoscience," Fundamenta Scientiae 3: 369-388.
*Bunge,M. (1989)“The Popular perception of science”, Transactions of the Royal Society of Canada, series V, Vol. IV, 269-280
*[[Terence Hines|Hines, Terence]], ''Pseudoscience and the Paranormal: A Critical Examination of the Evidence'', Prometheus Books, Buffalo, NY, 1988.  ISBN 0-87975-419-2.
*Beyerstein, B.L. (1990) Brainscams: Neuromythologies of the New Age. Int'l. J. of Mental Health, 19(3):27-36.[http://www.sfu.ca/psyc/faculty/beyerstein/research/articles/Brainscams,%20Neuromythologies_of_the_New_Age.PDF]
*[[Robert Todd Carroll|Carroll, Robert Todd]], (2003).  ''The [[Skeptic's Dictionary]]: A Collection of Strange Beliefs, Amusing Deceptions, and Dangerous Delusions'', [[John Wiley & Sons]], ISBN 0-471-27242-6
*Kaptchuk, Ted J and Eisenberg, David M.  ''The Persuasive Appeal of Alternative Medicine.''  Annals of Internal Medicine 12:129, 1061-1065. 15 December 1998 [http://www.annals.org/cgi/content/full/129/12/1061 www.annals.org/cgi/content/full/129/12/1061], retrieved 4 Sept. 2006
*Klee G.D. (2005)  THE RESURRECTION OF WILHELM REICH AND ORGONE THERAPY The scientific review of mental health practice. Spring ~ Summer 2005 Volume 4 Number 1
*Lilienfeld S.O. (2004)  Science and Pseudoscience in Clinical Psychology. Guilford Press (2004)  ISBN 1-59385-070-0
*{{note label|Montellano1992|Montellano 1992|}} {{cite journal
| author = Bernard Ortiz de Montellano
| year = 1992
| month =
| title = Magic Melanin: Spreading Scientific Illiteracy Among the Minorities (part 2)
| journal = Skeptical Inquirer
| volume = 16
| issue = 2
| pages = 162-66
| doi =
| id =
| url = http://www.csicop.org/si/9201/minority.html
| format =
| accessdate = June 25, 2006
}}
*[[Michael Shermer|Shermer, Michael]], ''Why People Believe Weird Things: Pseudoscience, Superstition, and Other Confusions of Our Time'', Owl Books, New York, NY, 2002, ISBN 0-8050-7089-3
*{{note_label|Stenger1995||}}{{cite book
|author=[[Victor J. Stenger]]
|year=1995
|title=The Unconscious Quantum: Metaphysics in Modern Physics and Cosmology
|publisher=[[Prometheus Books]]
|id=ISBN 1-57392-022-3}}
*[[William F. Williams|Williams, William F.]] (editor) (2000). ''Encyclopedia of Pseudoscience: From Alien Abductions to Zone Therapy'', [[Facts on File]], ISBN 0-8160-3351-X
*Wilson, Fred, ''The Logic and Methodology of Science and Pseudoscience'', Canadian Scholars Press, 2000. ISBN 1-55130-175-X
*[http://www.ucmp.berkeley.edu/geology/techist.html Plate Tectonics: The Rocky History of an Idea] by Anne Weil, University of California, Berekley, Museum of Palenotology, retrieved Aug 2, 2006 
*[http://map.gsfc.nasa.gov/m_uni/uni_101bb1.html Big Bang Cosmology] by Gary Hinshaw, WMAP, NASA, retrieved Aug 2, 2006
*[http://www-groups.dcs.st-and.ac.uk/~history/HistTopics/The_Quantum_age_begins.html A History of Quantum Mechanics] by J J O'Connor and E F Robertson, JOC/EFR May 1996, retrieved Aug 2, 2006
<!-------- REMOVE ALL THESE REFERENCES
* [[Amir D. Aczel|Aczel, Amir D.]] (2005), ''Descartes’ Secret Notebook'', Broadway Books, New York, NY.
* Beyerstein, B.L. (1990) Brainscams: Neuromythologies of the New Age. Int'l. J. of Mental Health, 19(3):27-36.
* Drenth, J.D. (2003) Growing anti-intellectualism in Europe; a menace to science. Studia Psychologica, 2003, 45, 5-13  www.allea.org/pdf/59.pdf
*[[Hilary Putnam|Putnam, Hilary]] (1990), "A Reconsideration of Deweyan Democracy", ''Southern California Law Review'' 63 (1990), 1671–1697.  Reprinted with modifications in (Putnam 1992).


*[[Ray Hyman|Hyman, Ray]]. "The Mischief-Making of Ideomotor Action", ''Scientific Review of Alternative Medicine'' 3(2):34-43, 1999.
===Defining science by the falsifiability of theories===
[[Karl Popper]] described science as an "objective product of human thought", as much as a nest can be seen as an objective product of a bird. Consequently, he dismissed as insignificant the philosophical tendency to regard knowledge as subjective, which includes the definition of science by the behavior of scientists as described above.<ref name="world3">Karl R. Popper, 1967, Epistemology without a knowing subject, in: Massimo Baldini and Lorenzo Infantino, eds., 1997, ''Il gioco della scienza'', Armando Editore, Roma (Italy), 158 pp. ISBN 88-7144-678-X</ref>


*McComas, William, ''Ten myths of science: Reexamining what we think we know....'', Vol. 96, ''School Science & Mathematics'', 01-01-1996, pp 10.[http://www.usc.edu/dept/education/science-edu/Myths%20of%20Science.pdf Pdf version]
Popper's solution to the [[demarcation problem]] is given in his 1934 book ''The Logic of Scientific Discovery''<ref name="Popper">'''Sir Karl Popper'''
:Popper KR (1959) ''The [[Logic of Scientific Discovery]]'' [http://www.routledge.com/popper/works/logic_discovery.html English translation];:[http://www.univie.ac.at/wissenschaftstheorie/popper/ Karl Popper Institute] includes a complete bibliography 1925-1999
:Popper KR (1962) [http://karws.gso.uri.edu/JFK/critical_thinking/Science_pseudo_falsifiability.html Science, Pseudo-Science, and Falsifiability]
:[http://plato.stanford.edu/entries/popper/ Karl Popper] from [http://plato.stanford.edu/ Stanford Encyclopedia of Philosophy]
:[http://cla.calpoly.edu/~fotoole/321.1/popper.html Sir Karl Popper: Science: Conjectures and Refutations]</ref> a book that Sir Peter Medawar, a Nobel Laureate in Physiology and Medicine, called "one of the most important documents of the twentieth century". Popper suggested that science does not advance because we learn more and more facts. Science does not start with observations and then somehow assemble them to provide a [[theory]]; any attempt to do so would be logically unsound, because a general theory contains more information than any finite number of observations. Popper shows this with a simple example. Let's say we have seen millions of white swans. We may be tempted to conclude, by the process called [[induction]], that "All swans are white". But however many white swans we have seen, the next swan we see might be black.


*Putnam, Hilary (1992), ''Renewing Philosophy'', Harvard University Press, Cambridge, MA.
Rather, the advance of [[science]] consists of three steps: (1) we find a problem; (2) we try to solve the problem by a new theory; (3) we critically test our theory and, while doing this, we learn from our errors. It is in the process of critical testing of theories that Popper finds the distinguishing characteristics of [[science]].


*Ruscio, J. (2001). Clear thinking with psychology: Separating sense from nonsense. Pacific Grove, CA: Wadsworth.
For Popper, there is no way a scientific theory can be proven to be true; a theory comes to be accepted because it has survived all attempts to disprove it, but it is only accepted provisionally, until something better comes along. This may be explained again with the example of swans. How could we ever prove the truth of our theory that "all swans are white"? Only by observing all swans of the universe in all past, present and future times, and showing they are all white. This is, of course, impossible. Yet, an assertion such as our "all swans are white" is a scientific statement (although a false one).


*Kenny et al. "Applied Kinesiology Unreliable for Assessing Nutrient Status", ''Journal of the American Dietetic Association'' 88:698-704, 1988.
Following Popper, scientific theories must include ''falsifiable'' universal assertions, i.e., general statements that cannot be proven true, but can eventually be found false when a new observation, e.g., of a black swan, disproves them. Assertions that are not falsifiable are non-scientific, and the refusal to critically discuss a theory is a non-scientific attitude as well. As Popper puts it, "those who are unwilling to expose their ideas to the hazard of refutation do not take part in the scientific game".<ref name="Popper"/>


*[[Dagobert D. Runes|Runes, Dagobert D.]] (ed., 1972), ''Dictionary of Philosophy'', Littlefield, Adams, and Company, Totowa, NJ.
Accordingly, a 'pseudoscience' is a system of assertions with a superficial resemblance to science, but which is empty, in being in principle incapable of disproof. Scholars that refuse to engage in a critical discussion of their doctrine exhibit a 'pseudoscientific' attitude.


*[[Paul Thagard|Thagard, Paul]] (1992), ''Conceptual Revolutions'', Princeton University Press, Princeton, NJ.
Popper argued that astrology, [[Marxism]], and Freudian psychoanalysis are all 'pseudoscientific' because they make no predictions by which their truth can be judged; accordingly they ''cannot'' be falsified by experimental tests, and have thus no connection with the real world.


*''Webster's New International Dictionary of the English Language, Second Edition, Unabridged'', W.A. Neilson, T.A. Knott, P.W. Carhart (eds.), G. & C. Merriam Company, Springfield, MA, 1950.
===Defining science by the behavior of scientists===
Popper's vision of the scientific method was itself tested by [[Thomas Kuhn]]. Kuhn concluded, from studying the [[history of science]], that science does not progress linearly, but undergoes periodic 'revolutions', in which the nature of scientific inquiry in a field is transformed. He argued that falsification had played little part in such revolutions, because rival world views are ''incommensurable'' - he argued that it is impossible to understand one paradigm through the concepts and terminology of another.<ref>Kuhn TS (1962) 'The Structure of Scientific Revolutions' Chicago: University of Chicago Press, ISBN 0-226-45808-3</ref> 


;Main works of modern philosophy of science
For Kuhn, to account for scientific progress, we must examine how scientists behave, and observe what they value, what they tolerate, and what they disdain. He concluded that they value most the respect of their peers, and they gain this by solving difficult 'puzzles', while working with shared rules towards shared objectives. Kuhn maintained that typical scientists are not objective, independent thinkers, but are conservatives who largely accept what they were taught. Most aim to discover what they already know - "The man who is striving to solve a problem ... knows what he wants to achieve, and he designs his instruments and directs his thoughts accordingly."


* [[Paul Feyerabend|Feyerabend, Paul K.]], ''Against Method, Outline of an Anarchistic Theory of Knowledge'', 1st published, 1975. Reprinted, Verso, London, UK, 1978.
Such a closed group imposes its own expectations of rigor, and disparages claims that are (by their conventions) vague, exaggerated, or untestable. Within any field of science, scientists develop a technical language of their own; to a lay reader, their papers may seem full of jargon, pedantry, and obscurantism. What seems to be bad writing is often just bad writing, but sometimes reflects an obsession with using words precisely.<ref> Sometimes technical terms have strict definitions in terms of things that can be measured (''operational definitions''). Other terms 'stand for' things not yet understood in detail - even in theoretical physics for instance, although most terms have some connection with observables, they are seldom of the sort that would enable them to be used as operational definitions. As Churchland observed, "If a restriction in favor of operational definitions were to be followed ... most of theoretical ''physics'' would have to be dismissed as meaningless pseudoscience!" Churchland P ''Matter and Consciousness: A Contemporary Introduction to the Philosophy of Mind'' (1999) MIT Press [http://books.google.com/books?</ref>
Scientists also expect any claims to be subject to peer review before publication and acceptance, and demand that any claims are accompanied by enough detail to enable them to be verified and, if possible, reproduced.<ref>Peer review and the acceptance of new scientific ideas[http://www.senseaboutscience.org.uk/PDF/peerReview.pdf] For an opposing perspective, e.g. Peer Review as Scholarly Conformity[http://www.uow.edu.au/arts/sts/bmartin/dissent/documents/ss/ss5.html]</ref> Some proponents of unconventional 'alternative' theories avoid this often ego-bruising process, sometimes arguing that peer review is biased in favor of conventional views, or that assertions that lie outside what is conventionally accepted cannot be evaluated fairly using methods designed for a conventional paradigm.


* [[Thomas Kuhn|Kuhn, Thomas S.]], ''The Structure of Scientific Revolutions'', University of Chicago Press, Chicago, IL, 1962. 2nd edition 1970.  3rd edition 1996.
Popper saw dangers in the closed worlds of specialists, but while admitting that, at any one moment, we are 'prisoners caught in the framework of our theories', he denied that different frameworks are like mutually untranslatable languages; he argued that clashes between frameworks have stimulated some of the greatest intellectual advances. Popper recognised what Kuhn called 'normal science', but for him, that was the activity of "the not-too critical professional, of the science student who accepts the ruling dogma of the day;... who accepts a new revolutionary theory only if almost everybody else is ready to accept it." Popper acknowledged its existence, but saw it as the product of poor teaching, and also doubted whether 'normal' science was indeed normal. Whereas Kuhn had pictured science as progressing steadily during long periods of stability within a dominant paradigm, punctuated occasionally by scientific revolutions, Popper thought that there was always a struggle between sometimes several competing theories.  


* [[Karl Popper|Popper, Karl R.]], ''The Logic of Scientific Discovery'', 1959.
Popper's analysis was ''prescriptive''; he described what he thought scientists ought to do, and claimed that this is what the best scientists did. Kuhn, by contrast, claimed to be describing what scientists in fact did, not what he thought they ought to do, but nevertheless he argued that it was rational to attribute the success of science to the scientists' behavior. Whereas Popper was scathing about the conservative scientist who accepted the dogma of the day, Kuhn proposed that such conservatism might be important for progress. According to Kuhn, scientists do ''not'' normally try to overthrow theories, but rather they try to bring them into closer agreement with observed facts and other areas of understanding. Accordingly, they tend to ignore research findings that threaten the existing paradigm; "novelty emerges only with difficulty, manifested by resistance, against a background provided by expectation".


;Further reading
Yet there ''are'' controversies in every area of science, and they lead to continuing change and development. Scientists are scornful of the selective use of experimental evidence - presenting data that seem to support claims while suppressing or dismissing data that contradict them - and peer-reviewed journals generally insist that published papers cite others in a balanced way. [[Imre Lakatos]] attempted to accommodate this in what he called 'sophisticated falsification', arguing that it is only a succession of theories and not one given theory which can be appraised as scientific or pseudoscientific. A series of theories usually has a continuity that welds them into a research program; the program has a 'hard core' surrounded by "auxiliary hypotheses" which bear most tests, but which can be modified or replaced without threatening the core understanding.<ref>Lakatos I (1970) "Falsification and the Methodology of Scientific Research Programmes" in Lakatos I, Musgrave A (eds) ''Criticism and the Growth of Knowledge'' Cambridge University Press pp 91&ndash;195</ref>


* [[Richard J. Bernstein|Bernstein, Richard J.]], ''Beyond Objectivism and Relativism:  Science, Hermeneutics, and Praxis'', University of Pennsylvania Press, Philadelphia, PA, 1983.
==Notes==
 
{{reflist|2}}[[Category:Suggestion Bot Tag]]
* [[Baruch A. Brody|Brody, Baruch A.]], and [[Richard E. Grandy|Grandy, Richard E.]], ''Readings in the Philosophy of Science'', 2nd edition, Prentice Hall, Englewood Cliffs, NJ, 1989.
 
* [[Stephen D. Brookfield|Brookfield, Stephen D.]], ''Developing Critical Thinkers, Challenging Adults to Explore Alternative Ways of Thinking and Acting'', Jossey-Bass, San Francisco, CA, 1987.
 
* [[Arthur W. Burks|Burks, Arthur W.]], ''Chance, Cause, Reason — An Inquiry into the Nature of Scientific Evidence'', University of Chicago Press, Chicago, IL, 1977.
 
* [[John Dewey|Dewey, John]], ''How We Think'', D.C. Heath, Lexington, MA, 1910.  Reprinted, [[Prometheus Books]], Buffalo, NY, 1991.
 
* [[John Earman|Earman, John]] (ed.), ''Inference, Explanation, and Other Frustrations:  Essays in the Philosophy of Science'', University of California Press, Berkeley & Los Angeles, CA, 1992.
 
* [[Hans-Georg Gadamer|Gadamer, Hans-Georg]], ''Reason in the Age of Science'', Frederick G. Lawrence (trans.), MIT Press, Cambridge, MA, 1981.
 
* [[Martin Gardner|Gardner, Martin]], ''Fads and Fallacies in the Name of Science'', 2nd edition, Dover Publications, New York, NY, 1957.  1st published, ''In the Name of Science'', G.P. Putnam's Sons, 1952. -->
</div>
 
==Literature==
* Mario Bunge, Demarcating Science from Pseudoscience. Fundamenta Scientiae, 1982, Vo. 3, No. 3/4, pg. 369-88
* [[Georges Charpak]], ''Debunked!'', Johns Hopkins University Press 2004, ISBN 0801878675
* Athony A. Derksen, ''The Seven Sins Of Pseudo-Science'', in: Journal for General Philosophy of Science Vol. 24, 1993, No. 1, pg. 17-42.
* Athony A. Derksen, ''The Seven Strategies of the Sophisticated Pseudo-Scientist: a look into Freud's rhetorical tool box'', in: Journal for General Philosophy of Science Vol 32, 2001, No. 2, pg. 329-350
* Martin Gardner: ''Fads and Fallacies – In the Name of Science''. Dover, New York 1957
* Martin Gardner: ''Science – Good, Bad and Bogus''. Oxford University Press, Oxford 1983
* Sven Ove Hansson, ''Defining Pseudoscience'', in: Philosophia naturalis 33, 1996, No. 1, pg. 169-176.
* Terence Hines: ''Pseudoscience and the Paranormal''. Amherst 2003
* Larry Laudan: ''The Demise of the Demarcation Problem.'' In: Michael Ruse (ed.): ''But is it Science? The philosophical question in the creation/evolution controversy.'' Prometheus Books 1988.
* Scott O. Lilienfeld et al. (Eds.): ''Science and Pseudoscience in Clinical Psychology''. New York / London 2003
* Richard J. McNally: [http://www.srmhp.org/0202/pseudoscience.html Is the pseudoscience concept useful for clinical psychology?]. ''The Scientific Review of Mental Health Practice'' 2:2 (Fall/Winter 2003)
* Keith Parsons: ''[http://www.infidels.org/library/modern/keith_parsons/theistic/1.html Science, Confirmation, and the Theistic Hypothesis]'' (1986)
* John Allen Paulos: ''Innumeracy – Mathematical Illiteracy and its Consequences''. New York 2001
* Karl Popper, Science, ''[http://www.olemiss.edu/courses/psy214/Readings/Popper/popper.htm Pseudo-Science, and Falsifiability]'', excerpt from ''Conjectures and Refutations'', 1978, S. 33-39 (first published 1962)
* Michael Shermer: ''Why People Believe Weird Things – Pseudoscience, Superstition, and Other Confusions of Our Time''. New York 2002
* Carol Tavris: ''Psychobabble and Biobunk – Using Psychology to Think Critically About Issues in the News''. 2nd Edition. Upper Saddle River 2001
 
==External links==
 
* [http://www.theness.com/articles.asp?id=30 The Anatomy of Pseudoscience] Steven Novella
* [http://www.badastronomy.com/bad/misc/debating.html Debating pseudoscientists] - [[Philip Plait]]
* [http://www.sfu.ca/~beyerste/research/articles/02SciencevsPseudoscience.pdf Distinguishing Science from Pseudoscience] - Barry L. Beyerstein
* [http://skepdic.com/pseudosc.html Pseudoscience] - Robert Todd Carroll, PhD
* [http://www.chem1.com/acad/sci/pseudosci.html Pseudoscience. What is it? How can I recognize it?] - Stephen Lower
* [http://chronicle.com/free/v49/i21/21b02001.htm The Seven Warning Signs of Bogus Science] - [[Robert L. Park]]
* [http://www.quackwatch.org/01QuackeryRelatedTopics/russian.html Science Needs to Combat Pseudoscience] - A statement by 32 Russian scientists and philosophers
* [http://www.uwgb.edu/dutchs/pscindx.htm Science, Pseudoscience, and Irrationalism] - Steven Dutch
* [http://www.csicop.org/si/2002-07/dangerous.html Why Is Pseudoscience Dangerous?] - Edward Kruglyakov
* [http://www.findarticles.com/p/articles/mi_m2843/is_6_28/ai_n6361832 Why SETI is science and UFOlogy is not] - Mark Moldwin
 
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A pseudoscience is any theory, or system of theories, that is claimed to be scientific by its proponents but that the scientific community deems flawed, usually because independent attempts at reproducing evidence for specific claims made on the basis of these theories have failed repeatedly and rarely if ever succeeded. The term is pejorative, and its use is inevitably controversial;[1] the term is also problematical because of the difficulty in defining rigorously what science is. Some ideas (like phrenology) were once considered respectable sciences, but were later dismissed as pseudoscience. There are some areas today, such as psychoanalysis, about which there is a serious dispute as to whether they may properly be considered pseudoscience.

The term "pseudoscience", which combines the Greek root pseudo, meaning "false", and the Latin scientia, meaning "knowledge", seems to have been used first in 1843 by the French physiologist François Magendie (1783–1855), who referred to phrenology as "a pseudo-science of the present day". Among its early uses was one in 1844 in the Northern Journal of Medicine, I 387: "That opposite kind of innovation which pronounces what has been recognized as a branch of science, to have been a pseudo-science, composed merely of so-called facts, connected together by misapprehensions under the disguise of principles".

Introduction

Phrenology is a classic example of pseudoscience. Popular in the middle of the 19th century, phrenology held that mental faculties are localised to different parts of the brain, that they develop differently in different individuals, and that these differences are reflected in measurable differences in the external form of the cranium.

Casting horoscopes based on the night sky has been used to predict the future for at least two thousand years, long before the establishment of the scientific method. Although many contemporary astrologers continue in this mystical tradition, some of them argue that their methods are scientific - a view that opens them to the charge of pseudoscience. Astrology is generally regarded as nonsense by scientists, but sometimes it can be hard to tell the difference between an idea that is plausible but not generally accepted and one that is simply unsound.

Generally, pseudoscientific claims either (1) lack supporting evidence, or (2) are based on evidence that is not established by scientific methods or (3) cite well-established evidence but misuse it or misinterpret it to support the conclusions asserted in the claim. Science has considerable prestige in modern societies; often, to call something "scientific" is to suggest that it is true. Conversely, theories that do not follow the methods of science are likely to be dismissed not only as "unscientific" or "pseudoscientific", but also as fallacious.

For those whose sincerely held theories are dismissed as "pseudoscience," that label often cuts to the quick. The charge can imply poor training, inadequate education, faulty judgment, or outright fraud, and thereby prompts defensive outrage from its targets.

How pseudoscience flourishes

It is often wondered why so many people seem to be willing to believe some extraordinarily improbable things on the basis of the flimsiest of evidence.

Some nonsense is given credence because it validates particular religious or political beliefs. Creationism and intelligent design are both adopted primarily because they support certain religious – often Christian – beliefs. Moral and political thought also comes into it: many fear that an evolutionary view of the universe has negative moral consequences and so prefer any alternative theory.

Lies, fallacies, misrepresentations, distortions and other nonsense sometimes enter the public consciousness because of how the news media works. Newspapers have increased in size and there are now many more broadcast outlets than ever before – hundreds more channels on cable and satellite television, thousands of news blogs and websites. To fill this gap, reporters spend less time checking facts, and often simply report on press releases delivered to them by public relations agencies, including by some who commission studies to fit various corporate or political agendas. Many of these are novelty or fun pieces, others are fluffy pieces on shaky social science research, but some cover serious health and medical topics. Few science reporters have any training in science, and often seem woefully poor at telling the difference between good science and rubbish.

Pseudoscience is often promoted by reference to the "underdog" credentials of the proponents. Frequent mention is made of Galileo and others who were persecuted for ideas that later turned out to be correct. Carl Sagan commented on this:

"The fact that some geniuses were laughed at does not imply that all who are laughed at are geniuses. They laughed at Columbus, they laughed at Fulton, they laughed at the Wright brothers. But they also laughed at Bozo the Clown."[2]

The "Gish Gallop" is an argument style used by the creationist Duane Gish where many claims are made in a short time during a formal, timed debate. It can take just a few seconds to make a claim, but much longer to refute it. When the respondent doesn't have enough time to address all of the claims, he appears to be leaving questions "still unanswered". Some prominent pseudoscientists are savvy media operators, while scientists become famous for their work in the lab, not their skills as public performers; the pseudoscientist can often be cast in the "everyman" role while the scientist is portrayed as an ivory-tower intellectual, an elitist or as somehow anti-democratic.

In the public debate over climate change, scientists are often portrayed as accepting conclusions regarding anthropogenic global warming because of the pressure to continue getting funding. This charge is promoted by climate change denial groups that are themselves massively funded by the oil industry.[3][4]

The issue of conflict of interest is a serious one, as conflicts can cloud judgement, but to assign motives to any speaker is to avoid the issues under debate, and is a disreputable strategy whether used by scientists ("he would say that wouldn't he, because he's a homeopath") or by their critics ("he has to say that or he wouldn't get grants"). There have been some well-publicised cases of fraudulent science, but for most scientists, their careers ultimately depend on being right, and advantages gained through being parsimonious with the truth or selective with facts are likely to be short term - any important claim is likely to be quickly put to the test - and the reputational risk of being proved wrong is great.

Paradigmatic examples

"As the new Darwinian orthodox' swept through Europe, its most brilliant opponent, the aging embryologist Karl Ernst von Baer, remarked with bitter irony that every triumphant theory passes through three stages: first it is dismissed as untrue; then it is rejected as contrary to religion; finally, it is accepted as dogma and each scientist claims that he had long appreciated its truth.

I first met the theory of continental drift when it labored under the inquisition of stage two. Kenneth Caster, the only major American paleontologist who dared to support it openly, came to lecture at my alma mater, Antioch College. We were scarcely known as a bastion of entrenched conservatism, but most of us dismissed his thoughts as just this side of sane. ...

Today, just ten years later, my own students would dismiss with even more derision anyone who denied the evident truth of continental drift..."

"The Validation of Continental Drift" - Stephen Jay Gould[5]

Some theories, claims, and practices that, when new, were dismissed as pseudoscientific, have since become accepted. The theory of continental drift that led to the current theory of plate tectonics was first proposed by Alfred Wegener in 1910, but for many decades after Wegener's death it was largely dismissed as "eccentric, preposterous, and improbable".[6] The Big Bang was a term originally chosen by Fred Hoyle to poke fun at the idea.[7] They have since won general acceptance. In retrospect, the delay in acceptance of these and other revolutionary theories was clearly a result of the challenges that they posed to the accepted doctrines of the time, and of the difficulty in gathering evidence for new theories.


Astrology

Astrology (not to be confused with astronomy) refers to 'fortune-telling' based on the position (relative to earth) of the sun, moon, stars, and/or constellations. Some astrologers claim scientific status for their discipline, or some aspects of it; the activity at least makes certain assumptions which ought to be subject to scientific testing.

However unlikely, it is not inconceivable that the movements of the moon or planets might have some influence on human activity or emotions. The major criticism of astrology is that there is no good evidence for its claims, and no rational, logical structure to its theories. It often functions essentially as a religious activity, impervious to research.

Astrological researchers often complain that they cannot receive a fair hearing in scientific circles, and find it hard to have their research published in scientific journals. They claim that their critics have wrongly dismissed studies that do support astrology. An example would be Michel Gauquelin's purported discovery of correlations between some planetary positions and certain human traits such as vocations. However, an examination of Gauquelin's claims by the Belgian Comiti Para and by the French Comité Français pour l'Étude des Phénomènes Paranormaux concluded that Gauquelin had selected results to support his conclusions.[8]

Alternative medicine

Astrology can be dismissed as harmless nonsense. However, there are deeper concerns when ineffective health treatments are sold on the basis of pseudoscientific advertising – i.e. when advocates couch their claims in terms that make them falsely appear to have a credible scientific foundation. Patients with serious diseases may be deflected from seeking effective medical treatment by the false hopes engendered by remedies falsely promoted as being scientifically well-founded. Homeopathic remedies are safe in the sense that they contain no active ingredients and hence have no verified activity beyond that of placebos; but some homeopaths advise that their remedies are a suitable alternative to vaccinations, and such advice is considered dangerously irresponsible by public health professionals. Claims for herbal remedies, multi-vitamin supplements[9][10] and other dietary supplements are also causes for concern: these products are extensively promoted, widely available and poorly regulated. While some supplements can be beneficial for some people, for many there is no benefit and for some there can be adverse consequences.

In general, though, the principal concern about false health claims is not that they are pseudoscientific, but simply that they are false. Some alternative medicine systems are also attacked by scientists for two main reasons: when they fail the practical test of clinical efficacy or refuse to submit to such study, and when they posit mechanisms for the supposed success of their treatment methodologies that rely on outdated notions that do not fit with modern scientific understanding.

Scientists have a natural interest in defending the good name of science by exposing and debunking bad science wherever it is manifested, but medics have a different concern: to expose and discredit ineffective treatments simply because they are ineffective. Some ineffective treatments are promoted using pseudoscientific claims, others appeal to religious or spiritual rationales and don’t pretend a scientific basis, and yet others have a misguided scientific basis. In the end, if an argument is nonsense, or a claim false, the issue of whether it has also wrongly invoked the authority of science is incidental.

IQ studies

Cognitive scientists do not agree on what, if anything, intelligence is, let alone how to test for it. Nevertheless one particular measure—scores from a range of standardized Intelligence Quotient (IQ) tests—is widely used. Originally designed for educational and military use, the Stanford-Binet Intelligence Scale and its offshoots measure several cognitive capabilities such as language fluency, or three-dimensional thinking. While these may seem unrelated, test scores do in fact tend to correlate. The premise of IQ tests is that such capabilities all depend on some underlying factor, called the general intelligence factor. To critics, the concept smacks of metaphysics. Does "IQ" in fact measure anything at all?[11] Subsidiary questions relating to intelligence and IQ involve the relative importance of nature vs. nurture, and the distribution of IQ between men and women, and among the various races (cf. intelligence and race). Accusations of pseudoscience are not difficult to find in these discussions.[12]

Psychotherapy

Freud's proposal that mental illness might be treated through talk rather than surgery, drugs, or hypnosis was only one of the startling features of psychoanalysis contrasting it to earlier conceptions of psychiatry. The concept remains controversial today. Does psychotherapy "work"? Is it any more effective than ordinary talk? (Effective at what?)

Critics also wonder what ontological status is being claimed for various abstract entities in psychological theory, such as Freud's ego and id, which would seem unavailable for scientific inspection. In what way do psychoanalysis and its successors differ from religions? The question is even more sensitive in the case of Jungian psychology and transpersonal psychology, which are more interested in the spiritual dimension.

In The Myth of Mental Illness and other works, Thomas Szasz proposed that the entire concept of 'mental illness' is a tool of social control at the hands of a 'pharmacracy'. In his view, a disease must be something concrete and measurable, not an abstract condition which comes into existence by vote. In this light, current attitudes toward mental illness are no more rational than 19th-century campaigns against onanism.

Intelligent design

Intelligent design, as promoted by the Discovery Institute, argues that the complexity and harmony of the universe and of life on earth implies the existence of an intelligent creator. To its critics, the theory was designed to circumvent U.S. prohibitions against the teaching of creation science as part of the scientific curricula of public schools. If so, the strategy did not work. In his decision for Kitzmiller v. Dover Area School District, Judge John E. Jones III agreed that intelligent design is "a mere re-labeling of creationism, and not a scientific theory". He went on to say (p.64):

We find that ID fails on three different levels, any one of which is sufficient to preclude a determination that ID is science. They are: (1) ID violates the centuries-old ground rules of science by invoking and permitting supernatural causation; (2) the argument of irreducible complexity, central to ID, employs the same flawed and illogical contrived dualism that doomed creation science in the 1980's; and (3) ID's negative attacks on evolution have been refuted by the scientific community.

Cargo cult science

For many people, at least some 'pseudoscientific' beliefs, for example that the pyramids were built not by men but by prehistoric astronauts, are harmless nonsense. "Horoscopes" (not what professional astrologers mean by the term but what the general public means by it) are read for fun by many, but taken seriously by few. According to Scott Lillenfeld, popular psychology is rife with pseudoscientific claims: self-help books, supermarket tabloids, radio call-in shows, television infomercials and 'pseudodocumentaries', the Internet, and even the nightly news promote unsupported claims about, amongst other things, extrasensory perception, psychokinesis, satanic ritual abuse, polygraph testing, subliminal persuasion, out-of-body experiences, graphology, the Rorschach test, facilitated communication, herbal remedies for memory enhancement, the use of hypnosis for memory recovery, and multiple personality disorder. He suggests that critically interrogating these claims is a good way of introducing students of psychology to understanding the scientific method, bearing in mind Stephen Jay Gould's aphorism that "exposing a falsehood necessarily affirms a truth".[13]

The Nobel Laureate Richard Feynman recognized the importance of unconventional approaches to science, but was bemused by the willingness of people to believe "so many wonderful things." He was however much more concerned about how ordinary people could be intimidated by experts propounding "science that isn't science" and "theories that don't work":

There are big schools of reading methods and mathematics methods, and so forth, but if you notice, you'll see the reading scores keep going down ... And I think ordinary people with commonsense ideas are intimidated by this pseudoscience. A teacher who has some good idea of how to teach her children to read is forced by the school system to do it some other way — Or a parent ... feels guilty ... because she didn't do 'the right thing', according to the experts... Richard Feynman, Cargo Cult Science

For Feynmann, it came down to a certain type of integrity, a "kind of care not to fool yourself", that was missing in what he called "cargo cult science".

Pseudoscience and the philosophy of science

Distinguishing what science is from what it is not is a fundamental problem of the philosophy of science, known as the problem of demarcation.

There is disagreement not only about whether 'science' can be distinguished from 'pseudoscience' objectively, but also about whether trying to do so is even useful. The philosopher Paul Feyerabend argued that all attempts to distinguish science from non-science are flawed. He argued that the idea that science can or should be run according to fixed rules is "unrealistic and pernicious... It makes our science less adaptable and more dogmatic". Often the term 'pseudoscience' is used simply as a pejorative to express a low opinion of a field, regardless of any objective measures; thus according to McNally, it is "little more than an inflammatory buzzword for quickly dismissing one’s opponents in media sound-bites." Similarly, Larry Laudan suggested that 'pseudoscience' has no scientific meaning: "If we would stand up and be counted on the side of reason, we ought to drop terms like 'pseudoscience' and ‘unscientific’ from our vocabulary; they are just hollow phrases which do only emotive work for us".

Skepticism is generally regarded as essential in science, but skepticism is properly defined as doubt, not denial. The sociologist Marcello Truzzi distinguished between 'skeptics' and 'scoffers' (or 'pseudo-skeptics'). Scientists who are scoffers fail to apply the same professional standards to their criticism of unconventional ideas that would be expected in their own fields; they are more interested in discrediting claims of the extraordinary than in disproving them, using poor scholarship, substandard science, ad hominem attacks and rhetorical tricks rather than solid falsification. Truzzi quotes the philosopher Mario Bunge as saying: "the occasional pressure to suppress [dissent] in the name of the orthodoxy of the day is even more injurious to science than all the forms of pseudoscience put together."[14]

Because science is so diverse, it is hard to find rules to distinguish between what is scientific and what is not that can be applied consistently. Imre Lakatos suggested that we might however distinguish between 'progressive' and 'degenerative' research programs; between those which evolve, expanding our understanding, and those which stagnate. Paul Thagard proposed, more formally, that a theory can be regarded as pseudoscientific if "it has been less progressive than alternative theories over a long period of time, and faces many unsolved problems; but the community of practitioners makes little attempt to develop the theory towards solutions of the problems, shows no concern for attempts to evaluate the theory in relation to others, and is selective in considering confirmations and disconfirmations".[15]

Thomas Kuhn saw a circularity in this, and questioned whether a field makes progress because it is a science, or whether is it a science because it makes progress. He also questioned whether scientific revolutions were in fact progressive, noting that Einstein's general theory of relativity is in some ways closer to Aristotle's than either is to Newton's. Most progress in science, according to Kuhn, is not at times of scientific revolution, when one theory is replacing another, but when one paradigm is dominant, and when scientists who share common goals and understanding fill in the details by puzzle solving. He argued that, when a theory is discarded, it is not always the case (at least not at first) that the new theory is better at explaining facts. Which of two theories is 'better' is largely a matter of opinion. The reasons for discarding a theory may be that more and more anomalies that reveal its weaknesses become apparent, but there is no point at which the followers of one theory abandon it in favor of a new one; instead, they cling tenaciously to the old theory, while seeking fresh explanations for the anomalies. A new theory takes over not by converting followers of the old theory, but because, over time, the new view gains more and more followers until it becomes dominant, while the older view is held in the end only by a few "elderly hold outs". Kuhn argued that such resistance is not unreasonable, or illogical, or wrong; instead he thought that the conservative nature of science is an essential part of what enables it to progress. At most, it might be said that the man who continues to resist the new view long after the rest of his profession has adopted a new view "has ipso facto ceased to be a scientist".

As Kuhn described them to be, the motives of the true scientist are to gain the respect and approval of his or her peers. When technical jargon is misused, or when scientific findings are represented misleadingly, to give particular claims the superficial trappings of science for some commercial or political gain, this is easily recognized as an abuse of science;[16] it is not an abuse that is confined to popular literature, however.[17]

Despite the complexity of the issue, solutions to the problem of demarcation were proposed in the 20th century that can be collected into two main lines of thinking (see also scientific method, Karl Popper and Thomas Kuhn for further discussion).

Defining science by the falsifiability of theories

Karl Popper described science as an "objective product of human thought", as much as a nest can be seen as an objective product of a bird. Consequently, he dismissed as insignificant the philosophical tendency to regard knowledge as subjective, which includes the definition of science by the behavior of scientists as described above.[18]

Popper's solution to the demarcation problem is given in his 1934 book The Logic of Scientific Discovery[19] a book that Sir Peter Medawar, a Nobel Laureate in Physiology and Medicine, called "one of the most important documents of the twentieth century". Popper suggested that science does not advance because we learn more and more facts. Science does not start with observations and then somehow assemble them to provide a theory; any attempt to do so would be logically unsound, because a general theory contains more information than any finite number of observations. Popper shows this with a simple example. Let's say we have seen millions of white swans. We may be tempted to conclude, by the process called induction, that "All swans are white". But however many white swans we have seen, the next swan we see might be black.

Rather, the advance of science consists of three steps: (1) we find a problem; (2) we try to solve the problem by a new theory; (3) we critically test our theory and, while doing this, we learn from our errors. It is in the process of critical testing of theories that Popper finds the distinguishing characteristics of science.

For Popper, there is no way a scientific theory can be proven to be true; a theory comes to be accepted because it has survived all attempts to disprove it, but it is only accepted provisionally, until something better comes along. This may be explained again with the example of swans. How could we ever prove the truth of our theory that "all swans are white"? Only by observing all swans of the universe in all past, present and future times, and showing they are all white. This is, of course, impossible. Yet, an assertion such as our "all swans are white" is a scientific statement (although a false one).

Following Popper, scientific theories must include falsifiable universal assertions, i.e., general statements that cannot be proven true, but can eventually be found false when a new observation, e.g., of a black swan, disproves them. Assertions that are not falsifiable are non-scientific, and the refusal to critically discuss a theory is a non-scientific attitude as well. As Popper puts it, "those who are unwilling to expose their ideas to the hazard of refutation do not take part in the scientific game".[19]

Accordingly, a 'pseudoscience' is a system of assertions with a superficial resemblance to science, but which is empty, in being in principle incapable of disproof. Scholars that refuse to engage in a critical discussion of their doctrine exhibit a 'pseudoscientific' attitude.

Popper argued that astrology, Marxism, and Freudian psychoanalysis are all 'pseudoscientific' because they make no predictions by which their truth can be judged; accordingly they cannot be falsified by experimental tests, and have thus no connection with the real world.

Defining science by the behavior of scientists

Popper's vision of the scientific method was itself tested by Thomas Kuhn. Kuhn concluded, from studying the history of science, that science does not progress linearly, but undergoes periodic 'revolutions', in which the nature of scientific inquiry in a field is transformed. He argued that falsification had played little part in such revolutions, because rival world views are incommensurable - he argued that it is impossible to understand one paradigm through the concepts and terminology of another.[20]

For Kuhn, to account for scientific progress, we must examine how scientists behave, and observe what they value, what they tolerate, and what they disdain. He concluded that they value most the respect of their peers, and they gain this by solving difficult 'puzzles', while working with shared rules towards shared objectives. Kuhn maintained that typical scientists are not objective, independent thinkers, but are conservatives who largely accept what they were taught. Most aim to discover what they already know - "The man who is striving to solve a problem ... knows what he wants to achieve, and he designs his instruments and directs his thoughts accordingly."

Such a closed group imposes its own expectations of rigor, and disparages claims that are (by their conventions) vague, exaggerated, or untestable. Within any field of science, scientists develop a technical language of their own; to a lay reader, their papers may seem full of jargon, pedantry, and obscurantism. What seems to be bad writing is often just bad writing, but sometimes reflects an obsession with using words precisely.[21] Scientists also expect any claims to be subject to peer review before publication and acceptance, and demand that any claims are accompanied by enough detail to enable them to be verified and, if possible, reproduced.[22] Some proponents of unconventional 'alternative' theories avoid this often ego-bruising process, sometimes arguing that peer review is biased in favor of conventional views, or that assertions that lie outside what is conventionally accepted cannot be evaluated fairly using methods designed for a conventional paradigm.

Popper saw dangers in the closed worlds of specialists, but while admitting that, at any one moment, we are 'prisoners caught in the framework of our theories', he denied that different frameworks are like mutually untranslatable languages; he argued that clashes between frameworks have stimulated some of the greatest intellectual advances. Popper recognised what Kuhn called 'normal science', but for him, that was the activity of "the not-too critical professional, of the science student who accepts the ruling dogma of the day;... who accepts a new revolutionary theory only if almost everybody else is ready to accept it." Popper acknowledged its existence, but saw it as the product of poor teaching, and also doubted whether 'normal' science was indeed normal. Whereas Kuhn had pictured science as progressing steadily during long periods of stability within a dominant paradigm, punctuated occasionally by scientific revolutions, Popper thought that there was always a struggle between sometimes several competing theories.

Popper's analysis was prescriptive; he described what he thought scientists ought to do, and claimed that this is what the best scientists did. Kuhn, by contrast, claimed to be describing what scientists in fact did, not what he thought they ought to do, but nevertheless he argued that it was rational to attribute the success of science to the scientists' behavior. Whereas Popper was scathing about the conservative scientist who accepted the dogma of the day, Kuhn proposed that such conservatism might be important for progress. According to Kuhn, scientists do not normally try to overthrow theories, but rather they try to bring them into closer agreement with observed facts and other areas of understanding. Accordingly, they tend to ignore research findings that threaten the existing paradigm; "novelty emerges only with difficulty, manifested by resistance, against a background provided by expectation".

Yet there are controversies in every area of science, and they lead to continuing change and development. Scientists are scornful of the selective use of experimental evidence - presenting data that seem to support claims while suppressing or dismissing data that contradict them - and peer-reviewed journals generally insist that published papers cite others in a balanced way. Imre Lakatos attempted to accommodate this in what he called 'sophisticated falsification', arguing that it is only a succession of theories and not one given theory which can be appraised as scientific or pseudoscientific. A series of theories usually has a continuity that welds them into a research program; the program has a 'hard core' surrounded by "auxiliary hypotheses" which bear most tests, but which can be modified or replaced without threatening the core understanding.[23]

Notes

  1. Still A, Dryden W (2004)The Social Psychology of "Pseudoscience": A Brief History J Theory Social Behav 34:267-90 ("The word has asserted the scientific credentials of the user at the same time as it denies these credentials to the pseudoscientist.")
  2. From Broca's Brain: Reflections on the Romance of Science by Carl Sagan (1986) ISBN-10: 0345336895. Perhaps they were right to laugh at Columbus; his plan to reach the East by sailing West was founded on the mistaken beliefs that the Asian continent stretched much farther to the east than it actually does and that Japan lay about 2,400 km east of the Asian mainland; he also greatly underestimated the circumference of the earth.
  3. ExxonMobil continuing to fund climate sceptic groups Guardian 1 July 2009
  4. Oil conglomerate 'secretly funds climate change deniers' Telegraph 25 Nov 2010
  5. "The Validation of Continental Drift" - Stephen Jay Gould
  6. Developing the theory USGS)
  7. see a BBC article on Big Bang [1]
  8. Kurtz P et al. (1997) Is the "Mars Effect" genuine? J Scientific Exploration 11:19-39
  9. Multivitamin prostate warning ‘’BBC News’’ 16 May 2007 [ http://news.bbc.co.uk/1/hi/health/6657795.stm]
  10. Multivitamin supplements a 'waste of time' ‘’The Independent’’ 10 February 2009 [2]
  11. The rise and fall of IQ Vanessa Thorpe and Robin McKie, Sunday 17 March 2002, The Observer
  12. Graves JL, Johnson A (1995) The Pseudoscience of Psychometry and The Bell Curve Journal of Negro Education 64:277-294 [3]
  13. Lilienfeld SO (2004) Teaching Psychology Students to Distinguish Science from Pseudoscience: Pitfalls and Rewards
    The National Science Foundation stated that 'pseudoscientific' habits and beliefs are common in the USA
    National Science Board (2006) Science and Engineering Indicators 2006 Two volumes. Arlington, VA: National Science Foundation (volume 1, NSB-06-01; NSB 06-01A)
  14. Criticisms of the concept of pseudoscience
    Paul Feyerabend (1975) 'Against Method: Outline of an Anarchistic Theory of Knowledge' [4]
    McNally RJ (2003)Is the pseudoscience concept useful for clinical psychology? SRHMP'' Vol 2 Number 2
    Laudan L (1996) The demise of the demarcation problem, in Ruse M 'But Is It Science?: The Philosophical Question in the Creation/Evolution Controversy' pp 337-50
    John Stuart Mill On Liberty (1869) Chapter II: Of the Liberty of Thought and Discussion
    Marcello Truzzi On Some Unfair Practices towards Claims of the Paranormal; On Pseudo-Skepticism
  15. The progress of science
    Hawking SW (1993) 'Hawking on the Big Bang and Black Holes' World Scientific Publishing Company, Page 1, [5] and [6].
    Currently, string theory has been criticized by some researchers, e.g. Smolin L (2006) The Trouble with Physics: The Rise of String Theory, the Fall of a Science, and What Comes Next Houghton Mifflin Company. ISBN 0618551050
    Lakatos I (1977) The Methodology of Scientific Research Programmes: Philosophical Papers Volume 1 Cambridge: Cambridge University PressScience and Pseudoscience - transcript and broadcast of talk by Imre Lakatos
    Thagard PR (1978) Why astrology is a pseudoscience In PSA Volume 1 ed PD Asquith and I Hacking (East Lansing: Philosophy of Science Association
  16. Popular pseudoscience
    Giuffre M (1977) Science, bad science, and pseudoscience. J Perianesth Nurs 12:434-8 PMID 9464033
    Ostrander GK et al. (2004) Shark cartilage, cancer and the growing threat of pseudoscience. Cancer Res 64:8485-91 PMID 15574750
  17. :Tsai AC (2003) Conflicts between commercial and scientific interests in pharmaceutical advertising for medical journals. Int J Health Serv 33:751-68 PMID 14758858
    Cooper RJ et al. (2003) The quantity and quality of scientific graphs in pharmaceutical advertisements. J Gen Intern Med 18:294-7 PMID 12709097
  18. Karl R. Popper, 1967, Epistemology without a knowing subject, in: Massimo Baldini and Lorenzo Infantino, eds., 1997, Il gioco della scienza, Armando Editore, Roma (Italy), 158 pp. ISBN 88-7144-678-X
  19. 19.0 19.1 Sir Karl Popper
    Popper KR (1959) The Logic of Scientific Discovery English translation;:Karl Popper Institute includes a complete bibliography 1925-1999
    Popper KR (1962) Science, Pseudo-Science, and Falsifiability
    Karl Popper from Stanford Encyclopedia of Philosophy
    Sir Karl Popper: Science: Conjectures and Refutations
  20. Kuhn TS (1962) 'The Structure of Scientific Revolutions' Chicago: University of Chicago Press, ISBN 0-226-45808-3
  21. Sometimes technical terms have strict definitions in terms of things that can be measured (operational definitions). Other terms 'stand for' things not yet understood in detail - even in theoretical physics for instance, although most terms have some connection with observables, they are seldom of the sort that would enable them to be used as operational definitions. As Churchland observed, "If a restriction in favor of operational definitions were to be followed ... most of theoretical physics would have to be dismissed as meaningless pseudoscience!" Churchland P Matter and Consciousness: A Contemporary Introduction to the Philosophy of Mind (1999) MIT Press [http://books.google.com/books?
  22. Peer review and the acceptance of new scientific ideas[7] For an opposing perspective, e.g. Peer Review as Scholarly Conformity[8]
  23. Lakatos I (1970) "Falsification and the Methodology of Scientific Research Programmes" in Lakatos I, Musgrave A (eds) Criticism and the Growth of Knowledge Cambridge University Press pp 91–195