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Between groups designs (2)

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Between groups designs (2) outline Block randomization Natural groups designs Subject loss Some unsatisfactory alternatives to true experiments – PowerPoint PPT presentation

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Title: Between groups designs (2)


1
Between groups designs (2) outline
  • Block randomization
  • Natural groups designs
  • Subject loss
  • Some unsatisfactory alternatives to true
    experiments
  • One group posttest only design
  • Posttest only with non-equivalent control group
  • One group pretest-posttest design

2
Block Randomization
  • Block randomization (BR) is used to form groups
    of equal sizes
  • First you create groups (called blocks)
  • Then you randomly assign members of a block to
    your experimental treatments

3
Block Randomization
  • in each block of treatments
  • e.g., 4 treatments ? 4 subjects per block
  • In that case, first 4 subjects to sign up would
    form Block 1, second 4 subjects to sign up would
    form Block 2, and so on.
  • Subjects in each block now randomly assigned to
    treatments

4
Block Randomization
  • Block randomization yields treatment groups which
    all have the same size.
  • This is important for many statistical tests
  • Equal ns mean (roughly) equal variances and thus
    comparable reliability
  • Plus, BR will cause history effects to affect
    all groups equivalently

5
Block Randomization
  • BR will eliminate confounding history effects
  • changes in experimenter
  • changes in the population (e.g., 1st vs. 2nd
    semester of Psych 020)
  • actual historic events imagine if you had run
    your control group in the week September 3 7,
    2001 and treatment September 10 14, 2001
  • block randomization will eliminate such
    confounds, at the expense of greater error
    variance

6
2. Natural Groups Designs
  • Natural groups designs are those in which
    individual difference variables are selected
    rather than manipulated.
  • A simple example is when you use age or sex as an
    independent variable you cannot randomly assign
    people to the conditions young or old, or to
    female or male.

7
2. Natural Groups Designs
  • We also use natural groups designs when ethical
    constraints keep us from assigning people to
    groups
  • E.g., you could assign people to divorce and
    no divorce treatments, and perhaps even pay
    people to get divorced or stay married. But to do
    so would be unethical
  • Instead we would compare people who have chosen
    to get divorced to people who have chosen not to
    a natural groups design

8
2. Natural Groups Designs
  • Natural groups designs are useful for
  • Description
  • Do divorced people receive psychiatric care at a
    higher rate than those who are married?
  • Prediction
  • If so, we can predict that a new set of divorced
    people is more likely than a new set of married
    people to need psychiatric care

9
2. Natural Groups Designs
  • But natural groups designs cannot be used to make
    inferences about cause!
  • Natural groups designs are correlational studies,
    not experiments
  • You must NOT draw causal inferences from studies
    that use natural groups designs (that is, do not
    offer opinions about what causes any differences
    on your dependent variable between the groups).

10
2. Natural Groups Designs
  • Since you did not establish equivalence of your
    groups at the beginning of your study (you did
    not randomly assign people to groups), you have
    not eliminated plausible alternatives to any
    causal account that you might offer.
  • E.g., do divorced people need more psychiatric
    care because of the stress of divorce? Or do
    people who need more psychiatric care place more
    strain on their relationships or choose a mate
    unwisely in the first place?

11
Subject loss
  • For a between-groups experiment to be internally
    valid, we need the two groups to be equivalent
    not only at the beginning of the experiment, but
    also at the end.
  • If more subjects drop out of one group than out
    of another, the two groups may no longer be
    comparable.

12
Subject loss
  • Two kinds of subject loss
  • Mechanical subject is lost from the experiment
    because of equipment failure.
  • This is probably a random effect thus, will
    not produce systematic differences between the
    two groups.

13
Two kinds of subject loss
  • B. Selective this is when some characteristic
    of either the subject or the treatment is
    responsible for the loss
  • e.g., treatment involves a difficult or
    unpleasant task, but control condition does not
  • clinically depressed subjects compared with
    sub-clinically depressed controls the most
    severely depressed subjects in the former group
    may be the most likely to drop out

14
Two kinds of subject loss
  • B. Selective what can you do?
  • If you notice this loss after the fact, nothing.
  • If you anticipate such loss, you may be able to
    screen people on some variable that will let you
    predict loss, and then select subjects on that
    basis at a cost to generalizability.

15
But what about external validity?
  • Random assignment in Loftus Burns study
    guaranteed internal validity the group
    difference in performance could not have been
    caused by anything other than the treatment.
  • But what about external validity?
  • Would the same effects be found with a real-life
    bank robbery instead of one on film?
  • Would the same effects be found with people
    other than young university students?

16
But what about external validity?
  • As Stanovich points out, the answer is often,
    who cares?
  • we often do an experiment to test a particular
    theory, not to find out what the ordinary person
    would do in the real world
  • Often, any kind of subject will do to test our
    theory, so long as they are competent in our
    experimental task

17
But what about external validity?
  • Of course, sometimes generalizability matters.
  • if so, then try for representative samples
    situations
  • when you cant do that, at least use several
    different types of people, stimuli, and
    situations
  • or replicate partial or complete replication
  • or use meta-analysis review of published papers
  • Set criteria for inclusion of papers in your
    review
  • Select a procedure for amalgamating findings

18
Some unsatisfactory alternatives to experiments
  • All of the following fail to control for
    important threats to the validity of a
    conclusion
  • One group posttest only design
  • Cant tell if treatment changed behavior if you
    dont know what behavior was like to start with.

19
Some unsatisfactory alternatives to experiments
  • Posttest only with non-equivalent control group
  • Control treatment groups are not equated at
    the start.
  • Differences between treatment and control groups
    could be due to treatment or to other things
    (since control group is not equivalent).

20
Some unsatisfactory alternatives to experiments
  • One group pretest-posttest design
  • Change in behavior may have been caused by
    variables other than the one you think produced
    it. (E.g., maturation, attention, change in the
    weather)
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