2. Experiment Basics: Variables Psych 231: Research Methods in Psychology

3. Exam 1 Mean: 80.7% Median: 83% Range: 51-98 Results If you want to go over your exam set up a time to see me

4. Class Experiment Turn in your data sheets (pass to front) Turn in your consent forms

5. So you want to do an experiment? What behavior you want to examine Identified what things (variables) you think affects that behavior You’ve got your theory.

6. So you want to do an experiment? You’ve got your theory. Next you need to derive predictions from the theory. These should be stated as hypotheses. In terms of conceptual variables or constructs Conceptual variables are abstract theoretical entities Consider our class experiment Hypotheses: What you try to memorize & how you try to memorize it will impact memory performance.

7. So you want to do an experiment? You’ve got your theory. Next you need to derive predictions from the theory. Now you need to design the experiment. You need to operationalize your variables in terms of how they will be: Manipulated Measured Controlled Be aware of the underlying assumptions connecting your constructs to your operational variables Be prepared to justify all of your choices

8. Constants vs. Variables Characteristics of the psychological situations Constants: have the same value for all individuals in the situation Variables: have potentially different values for each individual in the situation Variables in our experiment: Levels of processing Type of words Memory performance time for recall kind of filler task given pacing of reading the words on the list …

9. Variables Conceptual vs. Operational Conceptual variables (constructs) are abstract theoretical entities Operational variables are defined in terms within the experiment. They are concrete so that they can be measured or manipulated Conceptual How we memorize (Levels of processing) Kinds of things Memory Operational Has an ‘a’ ‘Related to ISU’ Words rated as abstract or concrete Memory test

10. Many kinds of Variables Independent variables (explanatory) Dependent variables (response) Extraneous variables Control variables Random variables Confound variables Correlational designs have similar functions

11. Many kinds of Variables Independent variables (explanatory) Dependent variables (response) Extraneous variables Control variables Random variables Confound variables

12. Independent Variables The variables that are manipulated by the experimenter (sometimes called factors) Each IV must have at least two levels Remember the point of an experiment is comparison Combination of all the levels of all of the IVs results in the different conditions in an experiment

13. Independent Variables 1 factor, 2 levels Condition 1Condition 2 Factor A 1 factor, 3 levels 2 factors, 2 x 3 levels Cond 1 Factor A Cond 3Cond 2 Cond 1 Factor B Cond 3Cond 2 Factor A Cond 4Cond 6Cond 5

14. Manipulating your independent variable Methods of manipulation Straightforward Stimulus manipulation - different conditions use different stimuli Instructional manipulation – different groups are given different instructions Staged Event manipulation – manipulate characteristics of the context, setting, etc. Subject (Participant) – there are (pre-existing mostly) differences between the subjects in the different conditions leads to a quasi-experiment Has an “a” vs. “ISU related” Abstract vs. concrete words

15. Choosing your independent variable Choosing the right levels of your independent variable Review the literature Do a pilot experiment Consider the costs, your resources, your limitations Be realistic Pick levels found in the “real world” Pay attention to the range of the levels Pick a large enough range to show the effect Aim for the middle of the range

16. Identifying potential problems These are things that you want to try to avoid by careful selection of the levels of your IV (may be issues for your DV as well). Demand characteristics Experimenter bias Reactivity Floor and ceiling effects

17. Demand characteristics Characteristics of the study that may give away the purpose of the experiment May influence how the participants behave in the study Examples: Experiment title: The effects of horror movies on mood Obvious manipulation: Ten psychology students looking straight up Biased or leading questions: Don’t you think it’s bad to murder unborn children?

18. Experimenter Bias Experimenter bias (expectancy effects) The experimenter may influence the results (intentionally and unintentionally) E.g., Clever HansClever Hans One solution is to keep the experimenter (as well as the participants) “blind” as to what conditions are being tested

19. Knowing that you are being measured Just being in an experimental setting, people don’t always respond the way that they “normally” would. Cooperative Defensive Non-cooperative Reactivity

20. Floor effects A value below which a response cannot be made As a result the effects of your IV (if there are indeed any) can’t be seen. Imagine a task that is so difficult, that none of your participants can do it.

21. Ceiling effects When the dependent variable reaches a level that cannot be exceeded So while there may be an effect of the IV, that effect can’t be seen because everybody has “maxed out” Imagine a task that is so easy, that everybody scores a 100% To avoid floor and ceiling effects you want to pick levels of your IV that result in middle level performance in your DV

22. Variables Independent variables (explanatory) Dependent variables (response) Extraneous variables Control variables Random variables Confound variables

23. Dependent Variables The variables that are measured by the experimenter They are “dependent” on the independent variables ( if there is a relationship between the IV and DV as the hypothesis predicts ). Consider our class experiment Conceptual level: Memory Operational level: Recall test Present list of words, participants make a judgment for each word 15 sec. of filler (counting backwards by 3’s) Measure the accuracy of recall

24. Choosing your dependent variable How to measure your your construct: Can the participant provide self-report? Introspection – specially trained observers of their own thought processes, method fell out of favor in early 1900’s Rating scales – strongly agree-agree-undecided-disagree- strongly disagree Is the dependent variable directly observable? Choice/decision (sometimes timed) Is the dependent variable indirectly observable? Physiological measures (e.g. GSR, heart rate) Behavioral measures (e.g. speed, accuracy)

25. Measuring your dependent variables Scales of measurement Errors in measurement

26. Measuring your dependent variables Scales of measurement Errors in measurement

27. Measuring your dependent variables Scales of measurement - the correspondence between the numbers representing the properties that we’re measuring The scale that you use will (partially) determine what kinds of statistical analyses you can perform

28. Scales of measurement Categorical variables Quantitative variables Nominal scale

29. Scales of measurement Label and categorize observations, Do not make any quantitative distinctions between observations. Example: Eye color: blue,green,brown, hazel Nominal Scale: Consists of a set of categories that have different names.

30. Scales of measurement Categorical variables Nominal scale Ordinal scale Quantitative variables

31. Scales of measurement Rank observations in terms of size or magnitude. Example: T-shirt size: Small, Med, Lrg, XL, XXL Ordinal Scale: Consists of a set of categories that are organized in an ordered sequence.

32. Scales of measurement Categorical variables Nominal scale Ordinal scale Quantitative variables Interval scale

33. Scales of measurement Interval Scale: Consists of ordered categories where all of the categories are intervals of exactly the same size. 20º40º “Not Twice as hot” With an interval scale, equal differences between numbers on the scale reflect equal differences in magnitude. Ratios of magnitudes are not meaningful. Example: Fahrenheit temperature scale

34. Scales of measurement Categorical variables Nominal scale Ordinal scale Quantitative variables Interval scale Ratio scale

35. Scales of measurement Ratios of numbers DO reflect ratios of magnitude. It is easy to get ratio and interval scales confused Example: Measuring your height with playing cards Ratio scale: An interval scale with the additional feature of an absolute zero point.

36. Scales of measurement Ratio scale 8 cards high

37. Scales of measurement Interval scale 5 cards high

38. Scales of measurement Interval scaleRatio scale 8 cards high5 cards high 0 cards high means ‘no height’ 0 cards high means ‘as tall as the table’

39. Scales of measurement Categorical variables Nominal scale Ordinal scale Quantitative variables Interval scale Ratio scale Given a choice, usually prefer highest level of measurement possible “Best” Scale?

40. Measuring your dependent variables Scales of measurement Errors in measurement Reliability & Validity

41. Example: Measuring intelligence? Reliability & Validity How do we measure the construct? How good is our measure? How does it compare to other measures of the construct? Is it a self-consistent measure?

42. Errors in measurement Reliability If you measure the same thing twice (or have two measures of the same thing) do you get the same values? Validity Does your measure really measure what it is supposed to measure? Does our measure really measure the construct? Is there bias in our measurement?

43. Reliability & Validity Reliability = consistency Validity = measuring what is intended reliable valid reliable invalid unreliable invalid

44. Reliability True score + measurement error A reliable measure will have a small amount of error Multiple “kinds” of reliability

45. Reliability Test-restest reliability Test the same participants more than once Measurement from the same person at two different times Should be consistent across different administrations ReliableUnreliable

46. Reliability Internal consistency reliability Multiple items testing the same construct Extent to which scores on the items of a measure correlate with each other Cronbach’s alpha (α) Split-half reliability Correlation of score on one half of the measure with the other half (randomly determined)

47. Reliability Inter-rater reliability At least 2 raters observe behavior Extent to which raters agree in their observations Are the raters consistent? Requires some training in judgment

48. Validity Does your measure really measure what it is supposed to measure? There are many “kinds” of validity

49. VALIDITY CONSTRUCT CRITERION- ORIENTED DISCRIMINANT CONVERGENTPREDICTIVE CONCURRENT FACE INTERNALEXTERNAL Many kinds of Validity

50. VALIDITY CONSTRUCT CRITERION- ORIENTED DISCRIMINANT CONVERGENTPREDICTIVE CONCURRENT FACE INTERNALEXTERNAL Many kinds of Validity

51. Construct Validity Usually requires multiple studies, a large body of evidence that supports the claim that the measure really tests the construct

52. Face Validity At the surface level, does it look as if the measure is testing the construct? “This guy seems smart to me, and he got a high score on my IQ measure.”

53. External Validity Are experiments “real life” behavioral situations, or does the process of control put too much limitation on the “way things really work?”

54. External Validity Variable representativeness Relevant variables for the behavior studied along which the sample may vary Subject representativeness Characteristics of sample and target population along these relevant variables Setting representativeness Ecological validity - are the properties of the research setting similar to those outside the lab

55. Internal Validity The precision of the results Did the change result from the changes in the DV or does it come from something else?

56. Threats to internal validity History – an event happens the experiment Maturation – participants get older (and other changes) Selection – nonrandom selection may lead to biases Mortality – participants drop out or can’t continue Testing – being in the study actually influences how the participants respond

57. Variables Independent variables (explanatory) Dependent variables (response) Extraneous variables Control variables Random variables Confound variables

58. Control your extraneous variable(s) Can you keep them constant? Should you make them random variables?

59. Extraneous Variables Control variables Holding things constant - Controls for excessive random variability 90 seconds for recall 15 seconds of counting backwards by 3’s

60. Extraneous Variables Random variables – may freely vary, to spread variability equally across all experimental conditions Randomization A procedures that assure that each level of an extraneous variable has an equal chance of occurring in all conditions of observation. On average, the extraneous variable is not confounded with our manipulated variable. random order of word presentation time of day administered what they ate that day when they woke up …

61. Confound Variables Confound variables Other variables, that haven’t been accounted for (manipulated, measured, randomized, controlled) that can impact changes in the dependent variable(s)

62. Confound Variables Confound variables Other variables, that haven’t been accounted for (manipulated, measured, randomized, controlled) that can impact changes in the dependent variable(s)

63. “Debugging your study” Pilot studies A trial run through Don’t plan to publish these results, just try out the methods Manipulation checks An attempt to directly measure whether the IV variable really affects the DV. Look for correlations with other measures of the desired effects.