case1701: Magnetic Force on Printer Rods
In Sleuth3: Data Sets from Ramsey and Schafer's "Statistical Sleuth (3rd Ed)"
case1701 R Documentation
Magnetic Force on Printer Rods
Description
Engineers manipulated three factors (with 3, 2, and 4 levels each) in
the construction and operation of printer rods, to see if they
influenced the magnetic force around the rod.
Usage
case1701
Format
A data frame with 44 observations on the following 14 variables.
- L1, L2, L3, L4, L5, L6, L7, L8, L9, L10, L11
the magnetic
force at each of the equally-spaces
positions 1, 2, ..., 11 on the printer rod
- Current
electric current passing through the rod, with
three levels "0", "250" and "500"
(milliamperes)
- Config
a factor identifying the configuration, with
two levels "0" and "1"
- Material
a factor identifying the type of metal from
which the rod was made, with four levels
"1", "2", "3" and "4"
Source
Ramsey, F.L. and Schafer, D.W. (2013). The Statistical Sleuth: A
Course in Methods of Data Analysis (3rd ed), Cengage Learning.
Examples
str(case1701)
attach(case1701)
## EXPLORATION
MagneticForces <- cbind(L1,L2,L3,L4,L5,L6,L7,L8,L9,L10,L11)
mfCor <- cor(MagneticForces)
round(mfCor,2) # Show correlations, rounded to two digits
mfPca <- prcomp(MagneticForces) # principal components
summary(mfPca) # Show the proportion of variance explained by each PC
plot(mfPca) # Graph proportion of variances explained by each PC (Scree Plot)
mfCoefs <- mfPca$rotation # Extract the coefficients
dim(mfCoefs) # #11 rows and 11 columns
round(mfCoefs[,1:3],3) # Show the first 3 columns of the score matrix, rounded
# Explore a possible meaningful linear combination suggested by first PC
round(mfCoefs[,1],1) # Show coefficients of 1st pc, rounded to 1 digit
# Coefficients are all very similar, suggesting a constant coefficient; use 1/11
mfAve <- (L1 + L2 + L3 + L4 + L5 + L6 + L7 + L8 + L9 + L10 + L11)/11
mfScores <- mfPca$x
pc1 <- mfScores[,1] #Values for first principal component of MagneticForces
cor(mfAve,pc1) # correlation of the average and the first PC (=0.999567)
plot(pc1 ~ mfAve)
# Explore a possible meningful linear combination suggested by second PC
round(mfCoefs[,2],1) # Show coefficients of 2nd pc, rounded to 1 digit
# Second set of coefficients are negative on the left end of the rod and
# positive on the right end. Try Ave(L9 + L10 + L11) - Ave(L1 + L2 + L3).
mfEnds <- (L9 + L10 + L11)/3 - (L1 + L2 + L3)/3
pc2 <- mfScores[,2]
residualEnds <- lm(mfEnds ~ mfAve)$residual # Ends with average effect removed
plot(pc2 ~ residualEnds)
cor(residualEnds, pc2) # 0.973
# Explore a possible meaningful linear combination suggested by third PC
round(mfCoefs[,3],1) # Show doefficients of 3rd pc, rounded to 1 digit
# Try a contrast between the first 4 positions and the 6th position
mfPeak <- (L1 + L2 + L3 + L4)/4 - L6
pc3 <- mfScores[,3]
residualPeak <- lm(mfPeak ~ mfAve + mfEnds)$residual
plot(pc3 ~ residualPeak)
cor(residualPeak,pc3) # 0.971
# Note: the variation explained by the third PC seems to be due almost entirely
# to one printer rod. (Keep this in mind.)
## INFERENCE: ANALYSIS OF EXPERIMENTAL FACTORS ON 3-DIMENSIONAL RESPONSE
myResponse <- cbind(mfAve, mfEnds, mfPeak)
cor(myResponse)
myLm1 <- lm(myResponse ~ Current + Config + Material)
anova(myLm1) # Noticeable effect of Current but not Config or Material
plot(mfAve ~ Current)
myLm2 <- lm(mfAve ~ Current)
abline(myLm2)
summary(myLm2) # No evidence of an effect of current on average magnetic force
plot(mfEnds ~ Current)
myLm3 <- lm(mfEnds ~ Current)
abline(myLm3)
summary(myLm3) # Evidence that Current effects the difference in MF at the ends
plot(mfPeak ~ Current)
myLm4 <- lm(mfPeak ~ Current)
abline(myLm4)
summary(myLm4) # No evidence of an effect of Current on peak MF in the center
## GRAPHICAL DISPLAY FOR PRESENTATION
plot(mfEnds ~ jitter(Current,.1),
xlab="Electrical Current Used in Printer Rod Manufacture (milliamperes)" ,
ylab="Magnetic Force at Positions 9-11 Minus Magnetic Force at Positions 1-3",
main="Effect of Electrical Current on Magnetic Force Surrounding Printer Rod",
col="black", pch=21, lwd=2, bg="green", cex=2 )
abline(myLm3,
lwd=2)
detach(case1701)
Sleuth3 documentation built on Jan. 25, 2024, 3:01 p.m.
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Magnetic Force on Printer Rods
Description
Engineers manipulated three factors (with 3, 2, and 4 levels each) in the construction and operation of printer rods, to see if they influenced the magnetic force around the rod.
Usage
case1701Format
A data frame with 44 observations on the following 14 variables.
- L1, L2, L3, L4, L5, L6, L7, L8, L9, L10, L11
the magnetic force at each of the equally-spaces positions 1, 2, ..., 11 on the printer rod
- Current
electric current passing through the rod, with three levels
"0","250"and"500"(milliamperes)- Config
a factor identifying the configuration, with two levels
"0"and"1"- Material
a factor identifying the type of metal from which the rod was made, with four levels
"1","2","3"and"4"
Source
Ramsey, F.L. and Schafer, D.W. (2013). The Statistical Sleuth: A Course in Methods of Data Analysis (3rd ed), Cengage Learning.
Examples
str(case1701)
attach(case1701)
## EXPLORATION
MagneticForces <- cbind(L1,L2,L3,L4,L5,L6,L7,L8,L9,L10,L11)
mfCor <- cor(MagneticForces)
round(mfCor,2) # Show correlations, rounded to two digits
mfPca <- prcomp(MagneticForces) # principal components
summary(mfPca) # Show the proportion of variance explained by each PC
plot(mfPca) # Graph proportion of variances explained by each PC (Scree Plot)
mfCoefs <- mfPca$rotation # Extract the coefficients
dim(mfCoefs) # #11 rows and 11 columns
round(mfCoefs[,1:3],3) # Show the first 3 columns of the score matrix, rounded
# Explore a possible meaningful linear combination suggested by first PC
round(mfCoefs[,1],1) # Show coefficients of 1st pc, rounded to 1 digit
# Coefficients are all very similar, suggesting a constant coefficient; use 1/11
mfAve <- (L1 + L2 + L3 + L4 + L5 + L6 + L7 + L8 + L9 + L10 + L11)/11
mfScores <- mfPca$x
pc1 <- mfScores[,1] #Values for first principal component of MagneticForces
cor(mfAve,pc1) # correlation of the average and the first PC (=0.999567)
plot(pc1 ~ mfAve)
# Explore a possible meningful linear combination suggested by second PC
round(mfCoefs[,2],1) # Show coefficients of 2nd pc, rounded to 1 digit
# Second set of coefficients are negative on the left end of the rod and
# positive on the right end. Try Ave(L9 + L10 + L11) - Ave(L1 + L2 + L3).
mfEnds <- (L9 + L10 + L11)/3 - (L1 + L2 + L3)/3
pc2 <- mfScores[,2]
residualEnds <- lm(mfEnds ~ mfAve)$residual # Ends with average effect removed
plot(pc2 ~ residualEnds)
cor(residualEnds, pc2) # 0.973
# Explore a possible meaningful linear combination suggested by third PC
round(mfCoefs[,3],1) # Show doefficients of 3rd pc, rounded to 1 digit
# Try a contrast between the first 4 positions and the 6th position
mfPeak <- (L1 + L2 + L3 + L4)/4 - L6
pc3 <- mfScores[,3]
residualPeak <- lm(mfPeak ~ mfAve + mfEnds)$residual
plot(pc3 ~ residualPeak)
cor(residualPeak,pc3) # 0.971
# Note: the variation explained by the third PC seems to be due almost entirely
# to one printer rod. (Keep this in mind.)
## INFERENCE: ANALYSIS OF EXPERIMENTAL FACTORS ON 3-DIMENSIONAL RESPONSE
myResponse <- cbind(mfAve, mfEnds, mfPeak)
cor(myResponse)
myLm1 <- lm(myResponse ~ Current + Config + Material)
anova(myLm1) # Noticeable effect of Current but not Config or Material
plot(mfAve ~ Current)
myLm2 <- lm(mfAve ~ Current)
abline(myLm2)
summary(myLm2) # No evidence of an effect of current on average magnetic force
plot(mfEnds ~ Current)
myLm3 <- lm(mfEnds ~ Current)
abline(myLm3)
summary(myLm3) # Evidence that Current effects the difference in MF at the ends
plot(mfPeak ~ Current)
myLm4 <- lm(mfPeak ~ Current)
abline(myLm4)
summary(myLm4) # No evidence of an effect of Current on peak MF in the center
## GRAPHICAL DISPLAY FOR PRESENTATION
plot(mfEnds ~ jitter(Current,.1),
xlab="Electrical Current Used in Printer Rod Manufacture (milliamperes)" ,
ylab="Magnetic Force at Positions 9-11 Minus Magnetic Force at Positions 1-3",
main="Effect of Electrical Current on Magnetic Force Surrounding Printer Rod",
col="black", pch=21, lwd=2, bg="green", cex=2 )
abline(myLm3,
lwd=2)
detach(case1701)
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