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Slide 10.1 Structural Equation Models MathematicalMarketing Chapter 10 Structural Equation Models In This Chapter We Will Cover The theme of this chapter is causation. We have already looked at one class of causal models, confirmatory factor analysis. We will now look at a more general formulation including Path analysis All-y models Nonrecursion Path models with latent variables Second order factor models Models that include means
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Slide 10.2 Structural Equation Models MathematicalMarketing Key Terminology Endogenous Exogenous Path analysis Causal model Structural equation model Covariance structure model
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Slide 10.3 Structural Equation Models MathematicalMarketing The Basic SEM Model vector of p endogeneous variables regression coefficients for endogeneous variables on other endogeneous varibles regression coefficients for endogeneous variables on exogeneous variables specification error exogeneous variables
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Slide 10.4 Structural Equation Models MathematicalMarketing Some Basic Assumptions E(y) = 0 E(x) = 0 Cov(x, ) = 0 V(x) = E(xx) = V( ) = E( ) = . Some Definitions
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Slide 10.5 Structural Equation Models MathematicalMarketing Reduced Form Coefficients vs. Structural Coefficients
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Slide 10.6 Structural Equation Models MathematicalMarketing What Are the Model's Implications for V(y)? E(yy) = GE(xx)G + E(ee)
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Slide 10.7 Structural Equation Models MathematicalMarketing Proceeding With the V(y) E(yy) = GE(xx)G + E(ee) G = (I – B) -1 E(xx) = V(x) = e = (I – B) -1 V( ) =
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Slide 10.8 Structural Equation Models MathematicalMarketing Another Important Piece: Cov(x, y) e = (I – B) -1
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Slide 10.9 Structural Equation Models MathematicalMarketing The Structure of the Covariance Matrix for All the Variables
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Slide 10.10 Structural Equation Models MathematicalMarketing A Simple Causal Model Intention to Purchase y1y1 Purchasing Behavior y2y2 Perceived Costx2x2 Attractiveness of Product x1x1 Description Variable
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Slide 10.11 Structural Equation Models MathematicalMarketing Graphical Representation of Path Models x2x2 y1y1 y2y2 x1x1 21 11 12 Boxes are manifest variables Circles are latent variables Unlabeled arrows are error Labeled single headed arrows are causal paths Double headed arrows are covariances 21
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Slide 10.12 Structural Equation Models MathematicalMarketing The Equations for the Sample Model
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Slide 10.13 Structural Equation Models MathematicalMarketing We Do Not Really Need x and y Variables Rewriting the model slightly y = By + x + x = 0y + Ix + 0 Now define so the model is
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Slide 10.14 Structural Equation Models MathematicalMarketing We Can Also Consolidate the Covariance Matrices Now for our model We have the following covariance matrices for the exogenous factors
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Slide 10.15 Structural Equation Models MathematicalMarketing So We Don't Need So Many Matrices Instead of having x and y we can get by with one set of variables: z Instead of having B and we can get by with just G Instead of having and we can get by with just A
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Slide 10.16 Structural Equation Models MathematicalMarketing In What Sense Are These Causal Models? y3y3 y2y2 y1y1 y2y2 y1y1 y3y3 The "same" arrow is missing in both.
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Slide 10.17 Structural Equation Models MathematicalMarketing Both Models Have 1 DF and That DF Implies the Same Restriction Both causal diagrams require only that the partial covariance 23·1 = 0 where 23·1 is the Cov(e 2, e 3 ) and e 2 and e 3 are defined as the errors in y 2 = y 1 + e 2 and y 3 = y 1 + e 3 Assuming that this constraint is met, that just means we have failed to reject H o. Of course that doesn't mean we have proven it.
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Slide 10.18 Structural Equation Models MathematicalMarketing Regression Is a Special Case of a Causal Model x2x2 y1y1 x1x1 21 11 12 x3x3 13 32 31 What are the degrees of freedom for this model? Can we reject the causal hypothesis?
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Slide 10.19 Structural Equation Models MathematicalMarketing Multivariate Regression Is Also a Special Case x2x2 y1y1 x1x1 21 11 12 x3x3 23 32 31 y2y2 22 21 13 12 The same questions apply here
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Slide 10.20 Structural Equation Models MathematicalMarketing Recursive Systems A recursive system is characterized by V( ) = diagonal, and by the fact that it is possible to arrange the y variables so that B is lower (or upper) triangular x2x2 y1y1 x1x1 y2y2 x2x2 y1y1 x1x1 y2y2 Two Nonrecursive Examples
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Slide 10.21 Structural Equation Models MathematicalMarketing Structural Equation Models with Latent Variables y = y + x = x + = B + + Measurement models Structural equation models
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Slide 10.22 Structural Equation Models MathematicalMarketing Some of the Assumptions of the Model Cov ( , ) = 0 Cov ( , ) = 0 Cov ( , ) = 0 Cov ( , , ) = 0 Diag (B) = 0 | I – B| 0
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Slide 10.23 Structural Equation Models MathematicalMarketing Naming Some More Matrices y = y + x = x + = B + + V( ) = V( ) = V( ) = V( ) =
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Slide 10.24 Structural Equation Models MathematicalMarketing An Example Longitudinal Model with Latent Variables y1y1 21 1 11 21 y2y2 y3y3 42 1 22 32 y4y4 y5y5 63 1 33 43 y6y6 y7y7 84 1 44 y8y8
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Slide 10.25 Structural Equation Models MathematicalMarketing The Matrices for the Model
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Slide 10.26 Structural Equation Models MathematicalMarketing Variance Matrices for Exogenous Factors The Matrices for the Model
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Slide 10.27 Structural Equation Models MathematicalMarketing The Second Order Factor Analysis Model y = y + = + V( ) = V( ) = V( ) =
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Slide 10.28 Structural Equation Models MathematicalMarketing Path Diagram of Second Order Factor Analysis y2y2 y1y1 y3y3 21 1 11 22 y5y5 y4y4 y6y6 33 44 y7y7 y8y8 11 111 42 63 84 1 41 31 21
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Slide 10.29 Structural Equation Models MathematicalMarketing Models with Structured Means x = x + x + y = y + y + = + B + + E(x) = x + x E(y) = y + y (I – B) -1 ( + ) E( ) = (I - B) -1 ( + ) x measurement model. Includes x 0 y measurement model SEM = E( )
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Slide 10.30 Structural Equation Models MathematicalMarketing Details on the Model 1 = 1 0 + 0
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Slide 10.31 Structural Equation Models MathematicalMarketing A Sequence of Hypotheses for Multiple Group Analysis
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