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Seth M. Noar, Ph.D.

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Purpose: To reduce a larger number of variables to a smaller number of factors ... Cattell's scree plot. Good method, though can be subjective ... – PowerPoint PPT presentation

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Title: Seth M. Noar, Ph.D.


1
Factor Analysis
  • Seth M. Noar, Ph.D.
  • Department of Communication
  • University of Kentucky

2
Major Types of Analytical Techniques
  • Mean difference tests
  • T-test
  • ANOVA
  • Tests of relationships / associations
  • Correlation
  • Multiple Regression
  • Structural Equation Modeling
  • Factor analysis does not fall into either of
    these categories

3
Factor Analysis
  • Purpose To reduce a larger number of variables
    to a smaller number of factors
  • Commonly used when developing self-report scales
    / measures
  • Here we examine whats called exploratory factor
    analysis (EFA)

4
EFA Example
  • Example We wish to develop a self-report measure
    of decision making (pros and cons)
  • Develop a number of items in both content domains
  • Theory suggests that this should be represented
    by 2 factors
  • We would calculate an EFA to examine if this is
    the case

5
X3
X1
Common Factor
X4
X2
6
EFA Example (contd)
  • Input a correlation matrix (raw data in SPSS)
  • A factor matrix is calculated
  • We rotate the factor matrix to get an
    interpretable solution (rotated factor matrix)
  • We examine our output

7
EFA Output
  • For each factor we get
  • variance accounted for
  • Eigenvalue the sum of the squared factor
    loadings on a given factor
  • Factor loadings (-1 to 1)
  • Note 1st factor will always have greatest
    variance (and highest eigenvalue), followed by
    second, etc.

8
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9
Rotated Factor Matrix
  • Factor I
    Factor II
  • P1 .58
    .03
  • P2 .65
    .05
  • P3 .81
    .02
  • P4 .72
    .04
  • C1 .06
    .77
  • C2 .01
    .82
  • C3 .06
    .59
  • C4 .02
    .67

10
Factor Loadings
  • Factor loadings fall between -1 and 1
  • Factor loadings should be gt.30
  • Items / variables that load strongly on multiple
    factors are called complex
  • Complex items should be discarded
  • Even .85 on one factor and .35 on another is not
    ideal

11
Logic of Factor Analysis
  • Common variance variance that overlaps between
    variables and factors
  • Unique variance non-overlapping variance
  • Best interpretation of the data in terms of
  • Underlying number of factors
  • Strength of factor loadings (variable saturation)

12
X3
X1
Common Factor
X4
X2
13
FA Decisions
  • Factor analysis involves a number of decisions
  • Formative work on theory / data
  • Method of estimation (maximum likelihood)
  • Number of factors to retain
  • Type of rotation

14
Number of Factors to Retain
  • A number of decision rules exist
  • of eigenvalues gt 1
  • SPSS default
  • A decent general rule but often overestimates
    factors
  • Cattells scree plot
  • Good method, though can be subjective
  • of variance accounted for by variables (gt50)
    can be arbitrary
  • Chi-square test not incredibly reliable.
  • Conclusion Use multiple procedures

15
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16
Factor Rotation
  • Two major types of rotation exist
  • Orthogonal generally assumes factors are
    uncorrelated
  • Example Varimax
  • Oblique generally assumes factors are correlated
  • Example Promax
  • Note Variables can load on more than one factor
    with any of these methods

17
Principal Components Analysis
  • Principal Components Analysis (PCA)
  • Very similar to factor analysis has same basic
    purpose
  • Language is different components rather than
    factors
  • With good data, procedures will produce similar
    results
  • Mathematics are different
  • You will see PCA in the literature as much as
    factor analysis

18
CFA
  • Once EFA is used, confirmatory factor analysis
    (CFA) can be used to confirm the structure of
    your data
  • CFA is a structural equation modeling technique
  • Difference from EFA YOU impose the structure on
    your data with CFA.
  • Combination of both techniques to explore and
    confirm is powerful combination.
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