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Outline: Defining and measuring variables. Observations, constructs, and theoriesInductive and deductive reasoningIVs and DVsOperational definitionsHypotheses. Steps in the research process. Find a research ideaConvert the idea into a hypothesisDefine and measure variablesIdentify participant
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1. Defining and Measuring Variables
2. Outline: Defining and measuring variables Observations, constructs, and theories
Inductive and deductive reasoning
IVs and DVs
Operational definitions
Hypotheses
3. Steps in the research process Find a research idea
Convert the idea into a hypothesis
Define and measure variables
Identify participants
Select a research strategy
Conduct the study
Evaluate the data
Report the results
Refine/reformulate your research idea
8. Psychological science is characterized by the back-and-forth use of inductive and deductive reasoning.
Inductive reasoning
Particular ? general
Infer constructs/theories from empirical observations
Deductive reasoning
General ? particular
Use constructs/theories to make predictions regarding empirical observations
10. Independent and dependent variables Independent variable (IV)
What the researcher wants to see the effect of
Variable that is manipulated (circumstances)
The IV is divided into levels or conditions (e.g., experimental and control conditions)
Variable that is independent of the participants behavior
Dependent variable (DV)
What the researcher uses to measure the effect of the IV
Variable that is measured (behavior)
Variable that is dependent on the participants behavior
11. Independent and dependent variables
12. Operational definitions A construct cannot be directly measured or observed, but we can measure or observe external factors associated with the construct.
E.g., alertness or vigilance could be operationally defined as being quick to respond to the appearance of a target.
13. Operational definitions Researchers translate a construct into a study-specific variable
They specify the operations required to manipulate or measure the construct
They provide enough detail so that other researchers can replicate the research
14. Operationally defining IVs and DVs Example:
Television violence (IV)
At least 75% of judges rate a TV show as violent
Show has four of ten items from a violence checklist
Levels of violence (Levels of the IV)
Violent level: Shows that 75% of people rated as violent
Non-violent level: Shows that 0% of people rated as violent
Aggressive behavior (DV)
Judges rating of aggressive behavior (1-7) during one hour of free-play
Percentage of time spent playing with toys classified as aggressive (e.g., toy guns, knives, tanks) versus non-aggressive (trucks, tools, dolls)
15. Hypotheses A hypothesis is an educated guess regarding the relationship between circumstances and behavior
A hypothesis is a statement regarding the expected relationship between two variables
A hypothesis can be expressed at both the construct level and the operational level
16. Hypotheses: Three dimensions Null or research
Directional or nondirectional
Conceptual (construct level) or operational
17. Hypotheses Null hypothesis
A statement of equality
Predicts no relationship between two variables
The hypothesis to be proven false
Research hypothesis
A statement of inequality
Predicts a relationship between two variables
The hypothesis in search of support by evidence
20. Sample hypotheses Construct level
Children exposed to violent television will display more aggressive play behavior than children exposed to non-violent television.
Operational level
Children who watch 5 hours of television programming that is rated as violent will spend more time during a one-hour free-play period playing with toys categorized as aggressive than children who watch 5 hours of television rated as nonviolent.
21. Is the hypothesis written at the construct or the operational level? 1. When asked to make a list of their friends, ten-year-olds who attend public school will list more friends than ten-year-olds who are home-schooled.
2. Children who attend public school will have more highly developed social skills than children who are home-schooled.
3. Practice improves memory performance.
4. Participants who read a list of words 3 times will recall more words than participants who read a list of words once.
23. Professor Sullivan wants to determine how students study habits affect their performance on an exam. She divides her class in half by having them draw numbers out of a hat and then puts the groups in adjoining rooms. She tells the students in Room 1 to study their notes individually, without talking to one another. She tells the students in Room 2 to get into groups of four and discuss the topics with each other. After allowing both rooms of students one hour of study time, she administers the exam and records the scores.
24. Conclusions (so far) In psychological science, researchers move between the levels of observation and construct/theory.
Inductive reasoning is used to formulate constructs and theories from observations. Deductive reasoning is used to formulate hypotheses from constructs and theories.
A hypothesis is an educated guess regarding the relationship between circumstances and behavior.
Independent variables and dependent variables specify the circumstances and behavior under investigation.
Variables must be operationally defined (made observable/measurable) before a hypothesis can be tested.
25. Outline: Selecting a measurement Modalities of measurement
Scales/levels of measurement
26. Measurement Measurement
A systematic way of assigning specific values (numbers or names) to objects or behaviors and their attributes.
27. Measurement Measurement
When the variable of interest is a hypothetical construct, we must use an operational definition as a measurement procedure.
An operational definition is really an indirect method of measuring something that can't be measured directly.
28. Modalities of measurement We need to be confident that the measurements obtained from an operational definition actually represent the hypothetical construct.
The first decision in developing a measurement procedure (operational definition) is to determine what type of external expression of the hypothetical construct should be used to define and measure it.
29. Modalities of measurement Self-report measures
Questionnaires
Surveys
Physiological measures
Behavioral measures
Direct observation
Indirect observation
30. Self-report measures Self-report
People report their own behavior, thoughts, feelings, knowledge, or opinions
Questionnaires and surveys are two types of self-report measures
31. Self-report measures Types of self-report items
Open-ended
e.g., "What values are most important to you in life?"
Advantage: poses few restrictions, allows participants to truly express their thoughts
Disadvantage: can present difficulties for comparing responses, analyzing statistically
32. Self-report measures Types of self-report items
Closed-ended (restricted)
e.g., multiple choice questions
Which value is most important to you:
(a) wealth
(b) family
(c) health
(d) intellectual growth
Advantages and disadvantages?
33. Self-report measures Types of self-report items
Rating scale
e.g., Likert Scale
34. Self-report measures Types of self-report items
Rating scale
Advantages:
- give a numeric score
- are quick & easy
- allow for degrees of agreement
Disadvantage:
- response set
35. Self-report measures Advantages of Self-report measures:
- they are probably the most direct way to assess a construct
- each individual is in a unique position of knowledge and awareness of their own internal state
- an answer to a direct question seems to be more valid than a measure of something that is only indirectly related
36. Self-report measures Disadvantages
- participants may not tell the truth
- participants may not be accurate in identifying their internal states
- responses may be subtly influenced by the presence of the researcher, the wording of the questions, etc.
- the "hello-goodbye effect"
37. Physiological measures Physical measures of a psychological construct
Heart rate, perspiration, blood flow in the brain, electrical activity in the brain
38. Physiological measures Advantage
- this type of measurement is objective -- it provides accurate, reliable, and well-defined information
Disadvantages
- may not provide a valid measure of the construct
- inconvenience & expense of equipment
- unnatural situation may change subjects' reactions
39. Behavioral measures Observation and measurement of behaviors
Two types of behavioral measures
Direct observation
Indirect observation
40. Behavioral measures Direct observation
The behavior measured may be the actual variable of interest, or it may be considered an indicator of a hypothetical construct
E.g.,
- disruptive behavior in the classroom
- reaction time as a measure of alertness
41. Behavioral measures Advantages
- provide a vast number of options for defining and measuring a construct
- if the behavior is the actual variable of interest, no hypothetical construct is needed
Disadvantage
- a behavior may be only a temporary or situational indicator of an underlying construct
42. Behavioral measures Behavioral Observation Methods
frequency -- How many occurrences in a fixed time period?
duration -- How much time does an individual engage in a behavior?
interval counts -- divide the observation period into a series of intervals, then record whether the behavior occurs during each interval
43. Behavioral measures Indirect observation
Participant does not need to be present to be observed
Types of indirect observation
Content analysis (e.g., literature)
Archival research (historical records)
44. Outline: Selecting a measurement Modalities of measurement
Scales/levels of measurement
Nominal
Ordinal
Interval
Ratio
46. LOM Summary Nominal:
You can say: One thing is qualitatively different than another
You cant say: One thing is more or less than another
Ordinal:
You can say: One thing is more or less than another
You cant say: How much more or less
Interval:
You can say: How much of a difference exists between things
You cant say: One thing is twice or half as much as another
Ratio:
You can say: One thing is half or twice as much as another
47. Levels of Measurement Exercise What is the LOM (nominal, ordinal, interval, or ratio)?
Spelling test score
Neighborhood
Age in years
Time for 100-yard dash
Choice of after-school clubs
Place in beauty pageant
GPA
High school rank
48. Outline: Selecting a measurement Modalities of measurement
Scales/levels of measurement
Validity and reliability of measurement
Other aspects of measurement
49. Reliability and Validity How can we be sure that the measurements obtained from an operational definition actually represent the intangible construct we're interested in?
Researchers have developed two general criteria for evaluating the quality of measurement procedures.
50. Reliability and Validity Reliability
The consistency or stability of a measure
Does it measure the same thing each time?
Validity
The truthfulness of a measure
Does it measure what it intends to measure?
51. Reliability of measurement Reliability
The consistency or stability of a measure
Does it measure the same thing each time?
A measurement is reliable if repeated measurements of the same individual under the same conditions produce identical (or nearly identical) values.
52. Reliability of measurement Reliability
Includes the notion that each individual measurement has an element of error.
Measured score = True score + Error
A measurement is reliable if measurement error is small
53. Reliability of measurement Measured score = True score + Error
E.g., IQ score:
your measured score is determined partially by your level of intelligence (your true score)
but it is also influenced by other factors like your mood, health, luck in guessing (error).
54. Reliability of measurement Measured score = True score + Error
As long as error is small, reliability is good.
(e.g., IQ tests)
If the error component is large, the measurement is not reliable.
(e.g., reaction time tests)
55. Reliability of measurement Common Sources of Error
1. Observer error
Simple human error (such as lack of precision) in measuring.
E.g., four people with stopwatches recording the winner's time in a race -- differences in judgment and reaction time.
56. Reliability of measurement Common Sources of Error
2. Environmental changes
It's not really possible to measure the same individual at different times under identical circumstances.
Small environmental changes can influence measurement (e.g., temperature, time of day, background noise)
57. Reliability of measurement Common Sources of Error
3. Participant changes
The participant can change between measurements
E.g., mood, body temperature, hunger, fatigue
58. Reliability of measurement Forms of reliability
Test-retest reliability
Split-half reliability
Inter-rater reliability
59. Reliability Test-retest reliability
A test of stability over time
Test people with exactly the same test (or equivalent version of the test) at two time points and compare scores
Potential problems
First testing contaminates second
Participants change over time
60. Reliability Split-half reliability
A measure of consistency within a measure
Relatedness of items on a test or questionnaire
When we give a multi-item test, we assume that the different questions measure a part or aspect of the construct.
If this is true, there should be some consistency among the items.
Researchers split the set of items in half, and then evaluate whether they are in agreement.
61. Reliability Inter-rater reliability
A measure of agreement between two observers of the same behaviors
High reliability demonstrates strong definitions of behavioral categories
62. Validity of measurement Validity
The truthfulness of a measure
Does it measure what it intends to measure?
E.g., IQ: Think of the absent-minded professor with an IQ of 160 who functions poorly in everyday life.
63. Validity of measurement Types of Validity
Face validity
Concurrent validity
Predictive validity
Construct validity
Convergent validity
Divergent validity
64. Validity Face validity
Appearance of validity
Based on subjective judgment
Difficult to quantify
Little scientific value
Potential problem with high face validity: you don't always want participants to know what you're measuring.
65. Validity Concurrent validity
Scores obtained from a new measure covary with (are consistent with) scores from an established measure of the same construct
But caution: the fact that two sets of measurement are related doesn't mean that they are measuring the same thing.
E.g., measuring people's height by weighing them
66. Validity Predictive validity
Scores obtained from a measure accurately predict future behavior
Most theories make predictions about how different values of a construct will affect behavior.
If people's behavior is consistent with the results of a test, the measure has predictive validity.
E.g., "need for achievement" score predicted children's behavior in a game
67. Validity Construct validity
How well a test assesses the underlying construct
Is this measurement of the variable consistent with all the things we already know about the variable and its relationship to other variables?
E.g., measuring people's height by weighing them is ok in terms of concurrent validity (height and weight are correlated), but not in terms of construct validity (height is not influenced by food deprivation but weight is).
68. Construct validity Two types of Construct Validity
Convergent validity
Divergent validity
69. Construct validity Convergent validity
Scores on the measure are related to scores on measures of related constructs
Use two methods to measure the same construct and then show that the scores are strongly related
**Note: There is a difference between convergent and concurrent validity. It's a subtle difference. Concurrent validity has to do with comparing a new measure to established measures. Please see p. 83 of your text.
70. Construct validity Divergent validity
The test does not measure something it was not intended to measure
Demonstrate that we are measuring one specific construct (and not a mixture of two)
71. Construct validity Divergent validity
Use two methods to measure two constructs, then demonstrate:
convergent validity for each construct
no relationship between scores for the two constructs when measured by the same method.
72. Construct validity Convergent and divergent validity
E.g.:
want to measure aggression in children, but worried that your measure might reflect general activity level
get observations of aggression and activity, and get teacher ratings of aggression and activity
aggression measures should match, activity measures should match, the two observational measures should not match, and the two ratings measures should not match
73. Reliability and validity Indicate whether the researcher is interested in demonstrating reliability or validity. Specify the type of reliability or validity being described.
Dr. Chang has written a test to measure extroversion. He is worried that his test might simply measure social desirability (i.e., people will respond to the items the way they think they should respond, instead of being honest). To make sure his test does not measure social desirability, he gives 100 research participants his measure of extroversion and a measure of social desirability and calculates the correlation between the two scales. Dr. Change is trying to demonstrate ______________________________.
Dr. Diefenbacher has written two versions of her Religiosity Scale. Each version is 20 items in length. She gives all 40 items to 100 research participants. Then she examines the correlation between each set of 20 items. Dr. Diefenbacher is interested in demonstrating _____________________________.
74. Other aspects of measurement Sensitivity and range effects
Ceiling effects
Floor effects
75. Other aspects of measurement Participant reactivity
Social desirability
Demand characteristics
Observer bias
Expectancy effects
76. Other aspects of measurement Participant reactivity
Social desirability
Demand characteristics
Observer bias
Expectancy effects
Potential solutions
Deception
Blinding (single-blind & double-blind studies)