User talk:POYNOR/sandbox

Overall we would like to preserve most of the article layout with some minor changes. Here is our purposed outline for the article.

1. Overview and History 2. Examples 3. Research 4. Applications

4.1 Media 4.2 Health 4.3 Business and Economy 4.4 Education 4.5 Criminal Justice

5. Critiques 6. See Also 7. References 8. External Sources

Here are our plans for each section of the article.

Overview and History

We believe this section could go into more detail about what in particular produces the availability heuristics, possibly answering the question, how it relates to information retrieval. Also, the effect that familiarity and salience have on availability heuristics should be further developed.

Examples

For the example section we would like to reword some of the examples to make them less wordy and flow better. Also, plan to research for more examples.

Research

Additional sources could be used in this section. We also plan to reword this section in order to include the researchers names.

Applications

For this section we added the media section as a subsection. We thought that the media section worked better as an application rather than its own section. Under the media section we plan to include the benefits and/or problems when it comes to dramatic events or catastrophes. We also added an educational section because we believe that availability heuristics can also be used in the classroom.

Besides correcting grammatical errors and citing sources correctly, we will include some charts or images that will make the article more appealing to potential readers.

POYNOR (talk) 02:44, 27 September 2012 (UTC)

Assignment 5
Overall we would like to preserve most of the article layout with some minor changes. Here is our purposed outline for the article.

1. Overview and History 2. Examples 3. Research 4. Applications

4.1 Media 4.2 Health 4.3 Business and Economy 4.4 Education 4.5 Criminal Justice

5. Critiques 6. See Also 7. References 8. External Sources

Here are our plans for each section of the article.

Overview and History

We believe this section could go into more detail about what in particular produces the availability heuristics, possibly answering the question, how it relates to information retrieval. Also, the effect that familiarity and salience have on availability heuristics should be further developed.

Examples

For the example section we would like to reword some of the examples to make them less wordy and flow better. Also, plan to research for more examples.

Research

Additional sources could be used in this section. We also plan to reword this section in order to include the researchers names.

Applications

For this section we added the media section as a subsection. We thought that the media section worked better as an application rather than its own section. Under the media section we plan to include the benefits and/or problems when it comes to dramatic events or catastrophes. We also added an educational section because we believe that availability heuristics can also be used in the classroom.

Besides correcting grammatical errors and citing sources correctly, we will include some charts or images that will make the article more appealing to potential readers.

POYNOR (talk) 02:51, 27 September 2012 (UTC)

Availability Heuristic Article
Availability heuristic From Wikipedia, the free encyclopedia Jump to: navigation, search

The availability heuristic is a mental shortcut that uses the ease with which examples come to mind to make judgments about the probability of events. The availability heuristic operates on the notion that "if you can think of it, it must be important." The availability of consequences associated with an action is positively related to perceptions of the magnitude of the consequences of that action. In other words, the easier it is to recall the consequences of something, the bigger we perceive these consequences to be. Sometimes, this heuristic is beneficial, but the frequency that events come to mind are usually not accurate reflections of their actual probability in reality.[1] For example, if someone asked you whether your college had more students from Colorado or more from California, under the availability heuristic, you would probably answer the question based on the relative availability of examples of Colorado student and California students. If you recall more students that come from California that you know, the more likely you will conclude that more students are from California.[2] Contents

1 Overview and History 2 Examples 3 Important research 4 Media 5 Applications 5.1 Health 5.2 Business and Economy 5.3 Criminal Justice 6 Critiques 7 See also 8 References 9 External links

Overview and History

When faced with the difficult task of judging probability or frequency, people use a limited number of strategies, called heuristics, to simplify these judgments. One of these strategies, the availability heuristic, is our tendency to make a judgement about the frequency of an event based on how easy it is to recall similar instances.[1] In 1973, Amos Tversky and Daniel Kahneman first studied this phenomenon and labeled it the Availability Heuristic. The availability heuristic is an unconscious process that operates on the notion that "if you can think of it, it must be important." [1] In other words, how readily an example can be called to mind is related to perceptions about how often this event occurs. People tend to use a more reachable attribute to base their beliefs about a relatively distant attribute. In addition, the availability of others who believe that a particular act is morally acceptable is positively related to others' perceptions of the morality of that act.[3][4]

In an experiment to test this heuristic, Tversky and Kahneman presented participants with four lists of names: two lists with the names of 19 famous women and 20 less famous men, and two lists with the names of 19 famous men and 20 less famous women. The first group was asked to recall as many names as possible and the second group was asked to estimate which class of names was more frequent: famous or less famous. The famous names were most easily recalled compared to the less famous names, and despite the fact that the less famous names were more frequent, the majority of the participants incorrectly judged that the famous names occurred more often. While the availability heuristic is an effective strategy in many situations, when judging probability the availability heuristic can lead to systematic errors.[1] Examples

A person argues that cigarette smoking is not unhealthy because his grandfather smoked three packs of cigarettes a day and lived to be 100. The grandfather's health could simply be an unusual case that does not speak to the health of smokers in general.[5]

A person claims to a group of friends that drivers of red cars get more speeding tickets. The group agrees with the statement because a member of the group, drives a red car and frequently gets speeding tickets. The reality could be that he just drives fast and would get a speeding ticket regardless of the color of car that he drove. Even if statistics show fewer speeding tickets were given to red cars than to other colors of cars, he is an available example which makes the statement seem more plausible.[6]

Someone is asked to estimate the proportion of words that begin with the letter "R" or "K" versus those words that have the letter "R" or "K" in the third position. Most English-speaking people could immediately think of many words that begin with the letters "R" (roar, rusty, ribald) or "K" (kangaroo, kitchen, kale), but it would take a more concentrated effort to think of any words where "R" or "K" is the third letter (street, care, borrow, acknowledge); the immediate answer would probably be that words that begin with "R" or "K" are more common. The reality is that words that have the letter "R" or "K" in the third position are more common. In fact, there are three times as many words that have the letter "K" in the third position, as have it in the first position.[1]

Where an anecdote ("I know a Brazilian man who...") is used to "prove" an entire proposition or to support a bias, the availability heuristic is in play. In these instances the ease of imagining an example or the vividness and emotional impact of that example becomes more credible than actual statistical probability. Because an example is easily brought to mind or mentally "available," the single example is considered as representative of the whole rather than as just a single example in a range of data.[1]

A person sees several news stories of cats leaping out of tall trees and surviving, so he believes that cats must be robust to long falls. However, these kinds of news reports are far more common than reports where a cat falls out of the tree and dies, which may in fact be a more common event.[1]

Important research

In a well known availability heuristic study, participants were asked to describe either 6 or 12 examples of assertive, or unassertive behavior. Participants were later asked to rate their own assertiveness. The results showed that participants rated themselves as more assertive after describing 6, rather than 12, examples for the assertive behavior condition, and conversely rated themselves as less assertive after describing 6, rather than 12, examples for the unassertive behavior condition. The study reflected that the recalled content was qualified by the ease with which the content could be brought to mind (it was easier to recall 6 examples than 12) [7]

In another well-known study, subjects were asked, “If a random word is taken from an English text, is it more likely that the word starts with a K, or that K is the third letter?” Results showed that participants overestimated the number of words that began with the letter “k”, but underestimated the number of words that had “k” as the third letter. Researchers believed that people answer questions like this by comparing the availability of the two categories by assessing how easily they can recall these instances. In other words, it is easier to think of words that begin with K, than words with K as the third letter, so people judge words beginning with a K to be a more common occurrence. The truth is, a typical text contains twice as many words that have K as the third letter than K as the first letter.[1]

Chapman (1967) described a bias in the judgment of the frequency with which two events co-occur. Their demonstration showed that the co-occurrence of paired stimuli resulted in participants overestimating the frequency of the pairings.[8] To test this idea, participants were given information about several hypothetical mental patients. The data for each patient consisted of a clinical diagnosis and a drawing made by the patient. Later, participants estimated the frequency with which each diagnosis had been accompanied by various features of the drawing. The subjects vastly overestimated the frequency of this co-occurrence (such as suspiciousness and peculiar eyes). This effect was labeled the illusory correlation. Tversky and Kahneman suggested that availability provides a natural account for the illusory-correlation effect. The strength of the association between two events could provide the basis for the judgment of how frequently the two events co-occur. When the association is strong, it becomes more likely to conclude that the events have been paired frequently. Strong associations will be thought of as having occurred together frequently.[1]

Research in 1992 used mood manipulation to influence the availability heuristic by placing participants into a sad mood condition or a happy mood condition. People in the sad mood condition recalled better than those in the happy mood condition, revealing that the power of the availability heuristic changes in certain conditions.[9] Media

After seeing news stories about child abductions, people may judge that the likelihood of this event is greater. Media coverage can help fuel a person's example bias with widespread and extensive coverage of unusual events, such as homicide or airline accidents, and less coverage of more routine, less sensational events, such as common diseases or car accidents. For example, when asked to rate the probability of a variety of causes of death, people tend to rate "newsworthy" events as more likely because they can more readily recall an example from memory. For example, in the USA, people rate the chance of death by homicide higher than the chance of death by stomach cancer, even though death by stomach cancer is five times higher than death by homicide. Moreover, unusual and vivid events like homicides, shark attacks, or lightning are more often reported in mass media than common and unsensational causes of death like common diseases.[10]

For example, many people think that the likelihood of dying from shark attacks is greater than that of dying from being hit by falling airplane parts, when more people actually die from falling airplane parts. When a shark attack occurs, the deaths are widely reported in the media whereas deaths as a result of being hit by falling airplane parts are rarely reported in the media.[11]

In a 2010 study exploring how vivid television portrayals are used when forming social reality judgments, people watching vivid violent media gave higher estimates of the prevalence of crime and police immorality in the real world than those not exposed to vivid television. These results suggest that television violence does in fact have a direct causal impact on participants’ social reality beliefs. Repeat exposure to vivid violence leads to an increase in people’s risk estimates about the prevalence of crime and violence in the real world.[12] Counter to these findings, researchers from a similar study argued that these effects may be due to effects of new information. Researchers tested the new information effect by showing movies depicting dramatic risk events and measuring their risk assessment after the film. Contrary to previous research, there were no effects on risk perception due to exposure to dramatic movies.[13] Applications Health

A previous research study[clarification needed] examined the impact of the availability heuristic in the perceptions of health-related events: lifetime risk of breast cancer, subjective life expectancy, and subjective age of onset of menopause.[14] In each section, three conditions were set up: control, anchoring heuristic, and availability heuristic. The findings revealed that availability and anchoring were being used to estimate personal health-related events. Hypochondriac tendencies, optimism, depressive mood, subjective health, internal locus of control and recall of information had a significant impact on judgements of riskiness. Availability also impacted perceived health risks.[14]

In another study, risk assessments of contracting breast cancer were based on experiences with an abnormal breast symptom, experiences with affected family members and friends.[15] Researchers analyzed interviews from women talking about their own breast cancer risk. They found the availability, simulation, representativeness, affect, and perceived control heuristics, and search were most frequently used for making risk assessments.

Researchers examined the role of cognitive heuristics in the AIDs risk-assessment process. 331 physicians reported worry about on-the-job HIV exposure, and experience with patients who have HIV. They tested to see if participants used the availability heuristic by analyzing their response to questions about talking and reading about AIDS. Availability of AIDS information did not relate strongly to perceived risk. Availability was not significantly related to worry after variance associated with simulation and experience with AIDS was removed.[16]

Participants in a 1992 study read case descriptions of hypothetical patients who varied on their sex and sexual preference. These hypothetical patients showed symptoms of two different diseases. Participants were instructed to indicate which disease they thought the patient had and then they rated patient responsibility and interactional desirability. Consistent with the availability heuristic, either the more common (influenza) or the more publicized (AIDS) disease was chosen.[17] Business and Economy

A previous study sought out to analyze the role of the availability heuristic in financial markets. Researchers defined and tested two aspects of the availability heuristic:[18]

Outcome Availability – availability of positive and negative investment outcomes Risk Availability – availability of financial risk[18]

Researchers tested the availability effect on investors' reactions to analyst recommendation revisions and found that positive stock price reactions to recommendation upgrades are stronger when accompanied by positive stock market index returns. On the other hand, negative stock price reactions to recommendation downgrades are stronger when accompanied by negative stock market index returns. On days of substantial stock market moves, abnormal stock price reactions to upgrades are weaker, and abnormal stock price reactions to downgrades are stronger. These availability effects are still significant even after controlling for event-specific and company-specific factors.[18]

Similarly, research has pointed out that under the availability heuristic, humans are not reliable because they assess probabilities by overweighting current or easily recalled information instead of processing all relevant information. Since information regarding the current state of the economy is readily available, researchers attempted to expose the properties of business cycles to predict the availability bias in analysts’ growth forecasts. The availability heuristic was shown to play a role in analysis of forecasts and influenced investments because of this.[19] Criminal Justice

The media usually focuses on violent or extreme cases, which are more readily available in the public's mind. This may come into play when it is time for the judicial to evaluate and determine the proper punishment for a crime. In a previous study, respondents rated how much they agreed with hypothetical laws and policies such as "Would you support a law that required all offenders convicted of unarmed muggings to serve a minimum prison term of two years?" Participants then read cases and rated each case on several questions about punishment. As hypothesized, respondents recalled more easily from long-term memory stories that contain severe harm, which seemed to influence their sentencing choices to make them push for harsher punishments. This can be eliminated by adding high concrete or high contextually distinct details into the crime stories about less severe injuries.[20]

A similar study asked jurors and college students to choose sentences on four severe criminal cases in which prison was a possible but not inevitable sentencing outcome. Respondents answering questions about court performance on a public opinion formulated a picture of what the courts do and then evaluated the appropriateness of that behavior. Respondents recalled from public information about crime and sentencing. This type of information is incomplete because the news media present a highly selective and non-representative selection of crime, focusing on the violent and extreme, rather than the ordinary. This makes most people think that judges are too lenient. But, when asked to choose the punishments, the sentences given by students were equal to or less severe than those given by judges. In other words, the availability heuristic made people believe that judges and jury were too lenient in the courtroom, but the participants gave similar sentences when put in the position of the judge, suggesting that the information they recalled was not correct.[21]

Researchers in 1989 predicted that mock jurors would rate a witness to be more deceptive if the witness testified truthfully before lying than when the witness was caught lying first before telling the truth. If the availability heuristic played a role in this, lying second would remain in jurors minds and they would most likely remember the witness lying over them telling the truth. To test the hypothesis, 312 university students played the roles of mock jurors and watched a videotape of a witness presenting testimony during a trial. Results confirmed the hypothesis and mock jurors were most influenced by the most recent act.[22] Critiques

Some researchers have suggested that perceived causes or reasons for an event, rather than imagery of the event itself, influence probability estimates.[23] Evidence for this notion stems from a study where participants either imagined the winner of the debate, or came up with reasons for why Reagan or Mondale would win the debate. The results of this study explained that imagining Reagan or Mondale winning the debate had no effect on predictions of who would win the debate. However, imagining and considering reasons for why Reagan or Mondale would win the debate did significantly affect predictions.[23]

Other psychologists argue that the classic studies on the availability heuristic are vague and do not explain the underlying processes.[24] For example, in the famous Tversky and Kahnmenn study, Wanke et al. believe that this differential ease of recall, may alter subjects’ frequency estimates in two different ways. In one way, as the availability heuristic suggests, the subjects may use the subjective experience of ease or difficulty of recall as a basis of judgment. Researchers also assert that if this is done, they would predict a higher frequency if the recall task is experienced as easy rather than difficult. In a contrasting scenario, researchers suggest that the subjects may recall as many words of each type as possible within the time given to them and may base their judgment on the recalled sample of words. If it is easier to recall words which begin with a certain letter, these words would be over-represented in the recalled sample, again producing a prediction of higher frequency. In the second scenario the estimate would be based on recalled content rather than on the subjective experience of ease of recall.[24]

Some researchers have shown concern about confounding variables in the original Tversky and Kahneman study.[7] Researchers question if the participants recalling celebrity names were basing frequency estimates on the amount of content recalled or on the ease of recall. Some researchers suggest that the design of the earlier experiment was flawed and did not actually determine how the availability heuristic works.[7]

Recent research has provided some evidence that the availability heuristic is only one of many strategies involved in frequency judgment.[25] Future research should attempt to incorporate all these factors. See also Portal icon 	Psychology portal

Affect heuristic Anecdotal evidence Anecdotal value Attribute substitution Gambler's fallacy Misleading vividness Processing fluency Representativeness heuristic Texas sharpshooter fallacy Agenda-setting theory List of cognitive biases

References

^ a b c d e f g h i Tversky, A; Kahneman (1973). "Availability: A heuristic for judging frequency and probability". Cognitive Psychology 5 (1): 207–233. doi:10.1016/0010-0285(73)90033-9. ^ Matlin, Margaret (2009). Cognition. Hoboken, NJ: John Wiley & Sons, Inc. pp. 413. ISBN 978-0-470-08764-0. ^ Kahneman, D; Tversky, A (January 1982). "The psychology of preferences". Scientific American 246: 160–173. ^ Hayibor, S; Wasieleski, D.M. (2009). "Effects of the use of availability". Journal of Business Ethics 84: 151–165. doi:10.1007/s10551-008-9690-7. ^ Esgate, Groome, A, D (2004). An Introduction to Applied Cognitive Psychology. Psychology Press. ISBN ISBN 1841693170. ^ Manis, Melvin; Shelder, J., Jonides, J., Nelson, N.E. (1993). "Availability Heuristic in Judgments of Set Size and Frequency of Occurrence". Journal of Personality and Social Psychology 65 (3): 448–457. ^ a b c Schwarz, N; Strack, F., Bless, H., Klumpp, G., Rittenauer-Schatka, H., & Simons, A. (1991). "Ease of retrieval as information: Another look at the availability heuristic". Journal of Personality and Social Psychology 61 (2): 195–202. ^ Chapman, L.J (1967). "Illusory correlation in observational report". Journal of Verbal Learning 6: 151–155. ^ Colin, M; Campbell, L. (1992). "Memory accessibility and probability of judgements:An experimental evaluation of the availability heuristic". Journal of Personality and Social Psychology 63 (6): 890–902. ^ Briñol, P; Petty, R.E, & Tormala, Z.L. (2006). "The malleable meaning of subjective ease". Psychological Science 17: 200–206. doi:10.1111/j.1467-9280.2006.01686.x.   ^ Read, J.D. (1995). "The availability heuristic in person identification: The sometimes misleading consequences of enhanced contextual information". Applied Cognitive Psychology 9: 91–121. ^ riddle, Karen (2010). "Always on My Mind: Exploring How Frequent, Recent, and Vivid Television Portrayals Are Used in the Formation of Social Reality Judgments". Media Psychology 13: 155–179. doi:10.1080/15213261003800140. ^ Sjoberg, Lennart; Engelberg, E. (2010). "Risk Perception and Movies: A Study of Availability as a Factor in Risk Perception". Risk Analysis 30 (1): 95–106. doi:10.1111/j.1539-6924.2009.01335.x.   ^ a b Gana, K; Lourel, M., Trouillet, R., Fort, I., Mezred, D., Blaison, C., Boujemadi, V., K'Delant, P., Ledrich, J. (2010). "Judgment of riskiness: Impact of personality, naive theories and heuristic thinking among female students". Psychology and Health 25 (2): 131–147. doi:10.1080/08870440802207975. ^ Katapodi, M.C; Facione, N.C., Humphreys, J.C., Dodd, M.J. (2005). "Perceived breast cancer risk: Heuristic reasoning and search for a dominance structure". Social Science & Medicine 60 (2): 421–432. ^ Heath, Linda; Acklin, M., Wiley, K. (1991). "Cognitive heuristics and AIDS risk assessment among physicians". Journal of Applied Social Psychology 21 (22): 1859–1867. ^ Triplet, R.G (1992). "Discriminatory biases in the perception of illness: The application of availability and representativeness heuristics to the AIDS crisis". Basic and Applied Social Psychology 13 (3): 303–322. ^ a b c Klinger, D; Kudryavtsev, A. (2010). "The availability heuristic and investors' reactions to company-specific events". The Journal of Behavioral Finance 11 (50-65). doi:10.1080/15427561003591116. ^ Lee, B; O’Brien, J., Sivaramakrishnan, K. (2008). "An Analysis of Financial Analysts’ Optimism in Long-term Growth Forecasts". The Journal of Behavioral Finance 9: 171–184. doi:10.1080/15427560802341889. ^ Stalans, L.J (1993). "Citizens' crime stereotypes, biased recall, and punishment preferences in abstract cases". Law and Human Behavior 17 (451-469). ^ Diamond, S.S; Stalans, L.J (1989). "The myth of judicial leniency in sentencing". Behavioral Sciences & the Law 7: 73–89. ^ DeTurck, M.A; Texter, L.A., Harszlak, J.J. (1989). "Effects of information processing objectives on judgments of deception following perjury". Communication Research 16 (3): 434–452. ^ a b Levi, A; Pryor, J.B. (1987). "Use of the availability heuristic in probability estimates of future events: The effects of imagining outcomes versus imagining reasons". Organizational Behavior & Human Performance 40 (2). ^ a b Wanke, M; Schwarz, N., Bless, H. (1995). "The availability heuristic revisited: Experienced ease of retrieval in mundane frequency estimates". Acta Psychologica 89: 83–90. ^ Hulme, C; Roodenrys, S., Brown, G., Mercer, R. (1995). "The role of long-term memory mechanisms in memory span". British Journal of Psychology 86 (4): 527–536. doi:10.1111/j.2044-8295.1995.tb02570.x.

External links

How Belief Works - an article on the origins of the availability bias.

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v   t    e

Informal fallacies

Absence paradox Begging the question Blind men and an elephant Cherry picking Complex question False analogy Fallacy of distribution (Composition   Division) Furtive fallacy Hasty generalization I'm entitled to my opinion Loaded question McNamara fallacy Name calling Nirvana fallacy Rationalization (making excuses) Red herring fallacy Special pleading Slothful induction

Correlative-based fallacies

False dilemma Denying the correlative Suppressed correlative

Deductive fallacies

Accident Converse accident

Inductive fallacies

Sampling bias Conjunction fallacy False analogy Hasty generalization Misleading vividness Overwhelming exception

Vagueness and ambiguity

Amphibology Continuum fallacy False precision Slippery slope

Equivocation

Equivocation False attribution Fallacy of quoting out of context Loki's Wager No true Scotsman Reification

Questionable cause

Animistic Appeal to consequences Argumentum ad baculum Correlation does not imply causation (Cum hoc) Gambler's fallacy and its inverse Post hoc Prescience Regression Single cause Slippery slope Texas sharpshooter The Great Magnet Wrong direction

List of fallacies Other types of fallacy — Preceding unsigned comment added by POYNOR (talk • contribs) 20:31, 3 October 2012 (UTC)