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Lecture Outline nHeuristics and Social Inference nRepresentative Heuristic nBase Rate Fallacy nStereotypes as Base Rates nDilution Effect nOther Cognitive.

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Presentation on theme: "Lecture Outline nHeuristics and Social Inference nRepresentative Heuristic nBase Rate Fallacy nStereotypes as Base Rates nDilution Effect nOther Cognitive."— Presentation transcript:

1 Lecture Outline nHeuristics and Social Inference nRepresentative Heuristic nBase Rate Fallacy nStereotypes as Base Rates nDilution Effect nOther Cognitive Errors

2 Heuristics Definition: Rules or principles that allow people to make social inferences rapidly and with reduced effort nmental shortcuts nrules of thumb

3 Social Inference Social Inferences: 3 components 1. Determine (ir)relevant information 2. Sample social information 3. Combine and integrate information

4 History of Cognitive Errors Up to 1960’s nPeople use formal statistical rules to make social inferences Around 1960 nPeople use formal statistical rules, but imperfectly After 1960 nPeople don’t use formal statistical rules at all

5 Kahneman & Tversky Proposed 3 main ideas: 1. People rely on heuristics to make social inferences 2. Heuristics simplify the process of making social inferences 3. Heuristics sometimes lead to faulty reasoning

6 Kahneman & Tversky Major shift in thinking: nResearchers began to focus on people’s weaknesses

7 Representative Heuristic Definition: categorizations made on the basis of similarity between instance and category members If you guessed that Jack was an engineer, you fell prey to the Representative Heuristic!

8 Is using this heuristic always bad? NO An instance that IS a category member will share features with other category members. Here it works! But……………. Representative Heuristic

9 Similarity does not ensure category membership Representative Heuristic Category People romantically interested in you Features of Category Members Talk with you when together Laugh at your jokes Features of New Instance Talks with you when together Laughs at your jokes

10 Relying solely on similarity will often lead to incorrect categorizations

11 Kahneman & Tversky (1973) Purpose: 1. Show that people use the representative heuristic to make social inferences 2. Show that people fall prey to the “Base Rate Fallacy”

12 Base Rate Fallacy Definition: when people do not take prior probabilities into account when making social inferences. Example of base rate: n50% of babies are girls n50% are boys If you guessed your chances of having a girl is 65%, you are not using base rates to make your judgment

13 Kahneman & Tversky (1973) Procedure: 1. Participants given following instructions: A panel of psychologists interviewed and administered personality tests to engineers and lawyers, all successful in their respective fields. On the basis of this information, thumbnail descriptions of the engineers and lawyers have been written written. You will find on your form a description, chosen at random from the 100 available descriptions. Please indicate your probability that the person described is an engineer, on a scale from 0 to 100.

14 Kahneman & Tversky (1973) Manipulation: Prior probability (base rate) n1/2 participants told of the 100 –70% engineers –30% lawyers n1/2 participants told of the 100 –30% engineers –70% lawyers

15 Kahneman & Tversky (1973) Description: Jack is a 45-year old man. He is married and has four children. He is generally conservative, careful, and ambitious. He shows no interest in political and social issues and spends most of his free time on his many hobbies which include home carpentry, sailing, and mathematical puzzles. What is the likelihood that Jack is an engineer (0 to 100%).

16 Kahneman & Tversky (1973) Competing Predictions: 1. People use the representative heuristic to make social inferences nInferences will be based solely on similarity of target to category members nBase rates (70%-30%) will be ignored

17 Kahneman & Tversky (1973) Competing Predictions: 2. People use formal statistical rules to make social inferences nInferences will be based on similarity of target to category members AND base rates (70%-30%)

18 Kahneman & Tversky (1973) Results: nParticipants in the 30% condition judged Jack just as likely to be an engineer as participants in the 70% condition. Which prediction does this support? Why?

19 Kahneman & Tversky (1973) Conclusions: nPeople use the representative heuristic when making social inferences nPeople do not use base rates when making social inferences

20 Kahneman & Tversky (1973) Question: Might it be that people did not use the base rates (70%-30%) because they did not know they were important?

21 Kahneman & Tversky (1973) Answer: No. When asked: “Suppose that you are given no information whatsoever about an individual chosen at random from the sample. What is the probability that this man is one of the engineers? Result: People used base rates when given no case information

22 Kahneman & Tversky (1973) Conclusion #2: People use base rates when no case information is given People do not use base rates when case information IS given

23 Stereotypes as Base Rates Definition of Stereotypes: Generalized beliefs about the attributes that characterize members of a social group Example: women tend to be passive men tend to be assertive

24 Stereotypes as Base Rates Kahneman & Tversky’s study showed that base rates only influenced social inferences in the ABSENCE of case information Locksley et al. (1980) wanted to see if the same is true for stereotypes.

25 Locksley, Borgida, Hepburn, Ortiz (1980) Purpose: Test whether stereotypes act as base rates Stereotype under investigation: Men are more assertive than women

26 Locksley et al. (1980) Predictions: When case information absent: nsex stereotypes bias judgments of assertiveness When case information present: nsex stereotypes do not bias judgments of assertiveness

27 Locksley et al. (1980) Procedures: Step 1: Participants read about 6 targets Step 2: Participants rated each target’s assertiveness “How often person behaves assertively in daily life” (0 - 100% of the time)

28 Locksley et al. (1980) Targets: 2 Targets = name only (Susan and Paul)

29 Locksley et al. (1980) Targets: 2 Targets = name plus case information that was diagnostic of assertiveness See example next slide………...

30 Locksley et al. (1980) Example: Diagnostic case information The other day Nancy was in a class in which she wanted to make several points about the readings being discussed. But another student was dominating the class discussion so thoroughly that she had to abruptly interrupt this student in order to break into the discussion and express her own views

31 Locksley et al. (1980) Targets: 2 Targets = name plus case information that was non-diagnostic of assertiveness See example next slide………...

32 Locksley et al. (1980) Example: Non-diagnostic case information Yesterday Tom went to get his hair cut. He had an early morning appointment because he had classes that day. Since the place where he gets his hair cut is near campus, he had no trouble getting to class on time

33 Locksley et al. (1980) Judgments of Assertiveness

34 Locksley et al. (1980) Conclusion: nDiagnostic case information reduces people’s reliance on base rates nNon-diagnostic information does not reduce people’s reliance on base rates

35 Dilution Effect Locksley’s study is not consistent with the dilution effect Definition: non-diagnostic information weakens the effect of base rates on social inferences

36 Recap Diagnostic information: information that is relevant to a judgment GPA is diagnostic of success in graduate school

37 Recap Non-Diagnostic information: information that is irrelevant to a judgment Eating pizza for dinner is non- diagnostic of success in graduate school

38 Nisbett, Zukier, & Lemley (1981) Purpose: Demonstrate that non- diagnostic information reduces effect of stereotypes on judgments

39 Nisbett et al. (1981) Pilot Study: nAssessed stereotypes of college majors. nEngineering majors tolerate more electrical shock than music major

40 Nisbett et al. (1981) Main Study: nStep 1: Read study about pain suppressant nStep 2: Read vignette of two people in pain suppressant study nStep 3: rate how much shock each tolerated in the the study

41 Nisbett et al. (1981) Participants from Pain Study nEngineering major nMusic major Manipulation nMajor only nMajor plus non-diagnostic information

42 Nisbett et al. (1981) Prediction Major only: nbig difference in shock tolerance, with engineer tolerating more Major plus non-diagnostic information: nsmall or no difference in shock tolerance

43 Nisbett et al., 1980 (E rating - M rating) Total Rating Note: The taller the bar, the more stereotypes influenced judgments of shock tolerance

44 Locksley et al. Vs. Nisbett et al. Opposite results: nLocksley: non-diagnostic information does NOT weaken stereotyping nNisbett: non-diagnostic information DOES weak stereotyping

45 Locksley et al. Vs. Nisbett et al. What is going on? What may have caused the discrepancy?

46 Locksley et al. Vs. Nisbett et al. Answer: It may be something about the non-diagnostic information

47 Locksley et al. Vs. Nisbett et al. Locksley: Non-diagnostic = generally useless nGot a hair cut Nisbett: Non-diagnostic = generally useful nParent’s occupation

48 Hilton & Fein, 1989 Clearly-irrelevant information nnot diagnostic of particular judgment, and nnot diagnostic of judgments in general

49 Hilton & Fein, 1989 Pseudo-irrelevant information nnot diagnostic of particular judgment, but ndiagnostic of judgments in general

50 Hilton & Fein, 1989 Purpose: Test whether this distinction can reconcile discrepant results Pilot Study: Assessed stereotypes of college majors nPre-med majors more competitive than social work majors

51 Hilton & Fein, 1989 Main Study: Step 1: Participants read about Bill H. Step 2: Participants rated his assertiveness

52 Hilton & Fein, 1989 Manipulations: 1. College major: lpre-med lsocial work 2. Type of information lclearly irrelevant lpseudo-irrelevant

53 Hilton & Fein, 1989 Predictions: 1. Clearly-irrelevant information will NOT weaken stereotyping 2. Pseudo-irrelevant information WILL weaken stereotyping

54 Results Judgments of Competitiveness

55 Hilton & Fein, 1989 Conclusion: Pseudo-irrelevant information dilutes stereotyping, but clearly-irrelevant information does not This clears up the discrepancy

56 Summary People use prior probabilities when: nno case information given nor, clearly-irrelevant case information given People do not use prior probabilities when: ndiagnostic case information given nor, pseudo-irrelevant case information given

57 Other Cognitive Errors and Biases Sample size nFailure to take sample size into account when making social inferences Pop. = 1000N 1 = 900N 2 = 20

58 Other Cognitive Errors and Biases Regression Observed score = true ability + chance nWhenever scores are influenced by chance observed scores will over- or underestimate one’s true ability

59 Other Cognitive Errors and Biases Regression: People don’t realize that……. nVery high observed score lower next time nVery low observed score higher next time

60 Other Cognitive Errors and Biases Conjunction Fallacy nFalse belief that two events have greater chance of co-occurring than either event by itself

61 Kahneman & Tversky (1983) Conjunction Fallacy Linda is 31 years old, single, outspoken, and very bright. She majored in philosophy. As a student, she was deeply concerned with issues of discrimination and social justice, and also participated in anti--nuclear demonstrations. Which of the following alternatives is more probable? A) Linda is a bank teller B) Linda is a bank teller and active in the feminist movement

62 Kahneman & Tversky (1983) Conjunction Fallacy Most participants picked B If you picked B, you have fallen prey to the conjunction fallacy It is not possible for two events to be more probable than one of the events by itself

63 Other Cognitive Errors and Biases Assessing Covariation: Illusory Correlations Kelly’s Co-variation Model nTwo events must co-vary to be seen as cause-effect Steps of detecting Co-variation

64 Other Cognitive Errors and Biases Illusory correlation nWhen people overestimate how strongly two events are correlated nOccur when one or more steps needed to assess co-variation goes wrong

65 Other Cognitive Errors and Biases What might go wrong? nBiased Sample People often fail to realize that their sample is biased (Morning vs. Evening People)

66 Other Cognitive Errors and Biases What might go wrong? nConfirmation biases in hypothesis testing People often seek information that confirms rather than disconfirms their original hypothesis

67 Redelmeier & Tversky (1996) Common Belief: Arthritis associated with changes in weather nFollowed 18 arthritis patients for 15 months n2 x per month assessed: lpain and joint tenderness lweather nCorrelated pain/tenderness with weather

68 Redelmeier & Tversky (1996) Results: nCorrelation between pain/tenderness and weather near ZERO!!! nPatients saw correlation that did not exist nWhy? Confirmation biases in hypothesis testing………..

69 Redelmeier & Tversky (1996) Confirmation biases in hypothesis testing nPaid special attention to those times when great pain coincided with weather changes nDid not notice when great pain did not coincide with weather changes

70 Other Cognitive Errors and Biases Availability Heuristic nTendency for people to make judgments of frequency on basis of how easily examples come to mind. (Alcohol and drug use by college students)

71 Other Cognitive Errors and Biases Availability Heuristic nWorks when frequency correlated with ease of coming up with examples nBut, sometimes frequency not correlated with ease of coming up with examples

72 Tversky & Kahneman (1973) Availability Heuristic nAsked participants: “Is letter R more likely to be the 1st or 3rd letter in English words? nMost said R more probable as 1st letter nReality: R appears much more often as the 3rd letter, but easier to think of words where R is 1st letter

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