___ is an extension of exploratory factor analysis and ____ is an extension of path analysis.
A. CFA; SEM
B. SEM; CFA
C. CFA; MLM
D. MLM; CFA
E. SEM; MLM
F. MLM; SEM
___ is an extension of exploratory factor analysis and ____ is an extension of path analysis....
Explain what “rotation” refers to in exploratory factor analysis and explain when this is used.
Examine Figure B on Page 9.
This table provides part of the output from an exploratory factor
analysis. Based on this analysis, how many factors should be
retained in the model?
a. 1
b. 2
c. 3
d. 4
Figure B Initial Eigenvalues Total % Of Variance | Cumulative % 49.236 64.209 73.630 81.429 87.561 93.070 96.810 100.000 Component 3.939 1.198 754 624 491 441 299 255 49.236 14.973 9.421 7.799 6133 5.509 3.739 3.190 Extraction Method: Principal Component Analysis...
Show the complete derivations of the equations of the following INFINITE SLOPE STABILITY ANALYSIS (A) Factor of safety against sliding without seepage (B) Maximum height critical for equilibrium (C) Factor of safety against sliding with seepage FINITE SLOPE STABILITY ANALYSIS – CULMANN’S METHOD (D) Factor of safety against sliding (E) Cohesion at the plane of potential shear failure (F) Maximum height critical for equilibrium
By what factor does the radius of the electron beam path (r) change if the current through the Helmholtz coil (I) is doubled? Hint: Use e/m = 2V (5/4)3 a2/(N 4o Ir)2. the radius of the electron beam path increases by a factor of 2 the radius of the electron beam path increases by a factor of 4 the radius of the electron beam path decreases by a factor of the radius of the electron beam path decreases by a...
KIN 3112 Homework #3 Perform a dynamic analysis for a knee extension movement. The knee extensors insert on the tibia at an angle 0-30° and at a distance d-5.2 cm from the axis of rotation of the knee. The combined weight of lower leg and foot is F 48 N and its center of mass is r 0.27 m away from the knee joint axis. The joint angle with respect to the left horizontal is A-70 (Note: this is not...
2) [40 pts] Extension Spring Design A hard-drawn spring steel extension spring is to be designed to carry a static load F of 18 lbf with an extension of 1/2 in using a design factor of n = 1.5 in bending. Use full-coil end hooks with the fullest bend radius of r = D/2 and r2 = 2d. The free length must be less than 3 in, and the body turns must be fewer than 30. (Note: Integer and half-integer...
A scree plot in factor analysis is a plot
of:
a. The factor loadings of each
variable (Y-axis) onto each factor
(X-axis).
b. Each eigenvalue
(Y-axis) against the factor with which it is associated
(X-axis).
c. The regression coefficient
of each variable (X-axis) with each factor
(Y-axis).
A scree plot in factor analysis is a plot of: a. The factor loadings of each variable (Y-axis) onto each factor (X-axis). b. Each eigenvalue (Y-axis) against the factor with which it is...
9. Let E be an extension field of a field F. (1) What does it mean for an element z EE being algebraic over F? (2) What does it mean for an element z E E being transcendental over F? (3) Can you find any element r e C such that r is transcendental over Q? (4) Can you prove that if a E E is algebraic over F then (F(a): F] is finite? (5) Can you prove that if...
Foundation
In short term analysis, the factor NC is equal to Select one: O a. 13.58 O b. 16.44 O c. 5.14 O d. 1.79 O e. 12.88
With the below data, how many Design of Experiments of will there be in a quarter factorial design? Low - High Factor A 30 50 Factor B 10 20 Factor C 60 80 Factor D 6 12 Factor E 20 40 Factor F 10 20 O a. 32 O b. 128 O c. 16 O d. 64 With the below data, how many Design of Experiments of will there be in the full factorial design? Low - High Factor A...