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Social Science Reasoning Using Statistics

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Title: Social Science Reasoning Using Statistics


1
Social Science Reasoning Using Statistics
  • Psychology 138
  • Spring 2005

2
Producing Data
  • Scientific method
  • Research methods
  • Observation methods
  • Experimental methods
  • Quasi-experimental
  • Variables
  • Types
  • Operational definitions
  • Sampling
  • Samples and populations
  • Statistics and parameters
  • Techniques
  • Measurements
  • Continuous and discrete
  • Scales of measurement
  • Instrument
  • Validity
  • Internal and external
  • confounds
  • Bias
  • Reliability
  • Experimental control

3
Scientific method
  • Systematic observation (and experimentation) used
    to explain how and why events occur
  • Ask the research question
  • Identify variables and formulate the hypothesis
  • Define your population
  • Select a research methodology
  • Collect your data from a sample
  • Analyze your data
  • Draw conclusions based on your data
  • Repeat

4
Basic Research Methods
  • Observational study
  • Researcher observes and measures variables of
    interest to find relationships between the
    variables
  • No attempt is made to manipulate or influence
    responses
  • Experimental methodology
  • One (or more) independent variable(s) is
    manipulated while changes are observed in another
    variable (dependent)
  • Used to establish cause-and-effect relationships
    between variables
  • Uses extensive methods of control to minimize
    extraneous sources of variability
  • Quasi-experimental methodology
  • One (or more) of the independent variables is a
    pre-existing characteristic (e.g., sex, age, etc.)

5
Different basic methods
  • Precise control possible
  • Precise measurement possible
  • Theory testing possible
  • Can make causal claims
  • May see patterns of complex behaviors
  • Good first step
  • May learn about something unexpected
  • Artificial situations may restrict
    generalization to real world
  • Complex behaviors may be difficult to measure
  • Shouldnt make causal claims
  • Directionality of the relationship isnt known
  • Threats to internal validity due to lack of
    control
  • Sometimes the results are not reproducible

6
Measuring and Manipulating Variables
  • Two levels of variables
  • Conceptual level of the variables
  • What the theory is about
  • Operational level of the variables
  • What is actually manipulated/measured in the
    research program

7
Variables
  • Identify the things that were studying
  • Variables
  • Characteristics or conditions that change or has
    different values for different individuals (or
    situations)
  • Independent (explanatory) variables
  • The variable that does the explaining
  • In an experiment it is the variable that is
    manipulated by the researcher
  • Dependent (response) variable
  • The variable that is observed for changes in
    order to assess the effect of the manipulation
  • Typically it is the variable measured in an
    experiment

8
Variables
  • Control variables
  • Holding things constant - Controls for excessive
    random variability
  • Random variables
  • may freely vary, to spread variability equally
    across all experimental conditions
  • Confound variables
  • Other variables, that havent been accounted for
    (manipulated, measured, randomized, controlled)
    that can impact changes in the dependent
    variable(s)

9
Sampling
everybody that the research is targeted to be
about
the subset of the population that actually
participates in the research
10
Sampling
  • Goals
  • Reduce
  • Sampling error - the difference between the
    population parameter and the sample statistic
  • Maximize
  • Representativeness - to what extent do the
    characteristics of those in the sample reflect
    those in the population
  • Minimize
  • Bias - a systematic difference between those in
    the sample and those in the population

11
Sampling Error
  • Size of sampling error
  • Amount of variability in the population
  • Size of the sample
  • Generally, the larger the sample, the smaller the
    sampling error

12
Sampling Methods
  • Probability sampling
  • Simple random sampling
  • Systematic random sampling
  • Stratified sampling
  • Convenience sampling
  • Quota sampling
  • Non-probability sampling

13
Measurement
  • How do we measure a variable?
  • An instrument The tool that is used to measure
    the dependent variable
  • Properties of our measurement?
  • Units of measurement - whether the measurement
    has a minimum sized unit or not
  • Continuous vs. discrete
  • Scales of measurement - the correspondence
    between the numbers representing the properties
    that were measuring

14
Scales of measurement
  • Categorical variables
  • Nominal Scale Consists of a set of categories
    that have different names.
  • Ordinal Scale Consists of a set of categories
    that are organized in an ordered sequence.
  • Quantitative variables
  • Interval Scale Consists of ordered categories
    where all of the categories are intervals of
    exactly the same size.
  • Ratio scale An interval scale with the
    additional feature of an absolute zero point.

15
Scales of measurement
Interval scale
Ratio scale
8 cards high
5 cards high
0 cards high means as tall as the table
0 cards high means no height
16
Errors in measurement
  • Reliability
  • Do we get the same score with repeated
    measurements?
  • Validity
  • Does our measure really measure the construct?
  • Is there bias in our measurement?
  • Internal validity
  • External validity

17
Dart board example
18
Internal Validity
  • The precision of the results
  • Did the change result from the changes in the DV
    or does it come from something else?
  • Threats to internal validity
  • History some event happens while youre doing
    the experiment
  • Maturation - participants get older and have
    developmental changes
  • Mortality participants die (or stop showing up)
    and cant continue, especially if they drop out
    more in some groups relative to others
  • Interactions with selection some of these
    threats may interact, especially with selection
  • Non-random selection to experimental conditions
    (groups)

19
External Validity
  • Are experiments real life behavioral
    situations, or does the process of control put
    too much limitation on the way things really
    work?
  • Will the same basic conclusions be supported with
    different operational definitions, different
    participants, different research settings?

20
Experimental Control
  • Our goal
  • to test the possibility of a relationship between
    the variability in our IV and how that affects
    our DV.
  • Control is used to minimize excessive variability.

21
Sources of variability (noise)
  • Sources of Total (T) Variability
  • T NonRandomexp NonRandomother
    Random

22
Sources of variability (noise)
  • Sources of Total (T) Variability
  • T NonRandomexp NonRandomother
    Random

Constrain variability by carefully levels of IV
Eliminate counfounds
Use good measures
  • Experimental procedures are used to reduce R and
    NRother so that we can detect NRexp.
  • That is, so we can see the changes in the DV that
    are due to the changes in the independent
    variable(s).
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