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#v is sample variogram, vmf is fitted model
plot(v, model=vmf, xlim=c(0, 65), ylim=c(0,25), xlab="Distance between Point Pairs (km)",
ylab="Semivariance ((C/km) )", cex.xlab=6.5, cex.ylab=6.5, cex.xaxis=2.5, cex.main=5.5)
#Add a 2 to the y label that is in 10 pt. font so it looks like it is (C/km)^2
par(ps=10, cex=1, cex.main=1)
text(-2, 16, labels=2, srt=90)
#Add lines showing the desired point pair distance and semivariance for the problem
par(new=TRUE, lines(c(53,53),c(0,15),col='red'))
par(new=TRUE, lines(c(0, 53),c(15,15),col='red'))
#Add axis minor tick marks in increments of 5
axis(side=1, at=c(0, 5, 15, 25, 35, 45, 55, 65), labels = NA, tck=-0.01, pos=0)
axis(side=2, at=c(0, 2.5, 7.5, 12.5, 17.5, 22.5, 25),labels = NA, tck=-0.01, pos=0)
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#v is sample variogram, vmf is fitted model
plot(v, model=vmf, xlim=c(0, 65), ylim=c(0,25), xlab="Distance between Point Pairs (km)",
ylab="Semivariance ((C/km) )", cex.xlab=6.5, cex.ylab=6.5, cex.xaxis=2.5, cex.main=5.5)
#Add a 2 to the y label that is in 10 pt. font so it looks like it is (C/km)^2
par(ps=10, cex=1, cex.main=1)
text(-2, 16, labels=2, srt=90)
#Add lines showing the desired point pair distance and semivariance for the problem
par(new=TRUE, lines(c(53,53),c(0,15),col='red'))
par(new=TRUE, lines(c(0, 53),c(15,15),col='red'))
#Add axis minor tick marks in increments of 5
axis(side=1, at=c(0, 5, 15, 25, 35, 45, 55, 65), labels = NA, tck=-0.01, pos=0)
axis(side=2, at=c(0, 2.5, 7.5, 12.5, 17.5, 22.5, 25),labels = NA, tck=-0.01, pos=0)
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#v is sample variogram, vmf is fitted model
plot(v, model=vmf, xlim=c(0, 65), ylim=c(0,25), xlab="Distance between Point Pairs (km)",
ylab="Semivariance ((C/km) )", cex.xlab=6.5, cex.ylab=6.5, cex.xaxis=2.5, cex.main=5.5)
#Add a 2 to the y label that is in 10 pt. font so it looks like it is (C/km)^2
par(ps=10, cex=1, cex.main=1)
text(-2, 16, labels=2, srt=90)
#Add lines showing the desired point pair distance and semivariance for the problem
par(new=TRUE, lines(c(53,53),c(0,15),col='red'))
par(new=TRUE, lines(c(0, 53),c(15,15),col='red'))
#Add axis minor tick marks in increments of 5
axis(side=1, at=c(0, 5, 15, 25, 35, 45, 55, 65), labels = NA, tck=-0.01, pos=0)
axis(side=2, at=c(0, 2.5, 7.5, 12.5, 17.5, 22.5, 25),labels = NA, tck=-0.01, pos=0)
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#v is sample variogram, vmf is fitted model
plot(v, model=vmf, xlim=c(0, 65), ylim=c(0,25), xlab="Distance between Point Pairs (km)",
ylab="Semivariance ((C/km) )", cex.xlab=6.5, cex.ylab=6.5, cex.xaxis=2.5, cex.main=5.5)
#Add a 2 to the y label that is in 10 pt. font so it looks like it is (C/km)^2
par(ps=10, cex=1, cex.main=1)
text(-2, 16, labels=2, srt=90)
#Add lines showing the desired point pair distance and semivariance for the problem
par(new=TRUE, lines(c(53,53),c(0,15),col='red'))
par(new=TRUE, lines(c(0, 53),c(15,15),col='red'))
#Add axis minor tick marks in increments of 5
axis(side=1, at=c(0, 5, 15, 25, 35, 45, 55, 65), labels = NA, tck=-0.01, pos=0)
axis(side=2, at=c(0, 2.5, 7.5, 12.5, 17.5, 22.5, 25),labels = NA, tck=-0.01, pos=0)
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#v is sample variogram, vmf is fitted model
plot(v, model=vmf, xlim=c(0, 65), ylim=c(0,25), xlab="Distance between Point Pairs (km)",
ylab="Semivariance ((C/km) )", cex.xlab=6.5, cex.ylab=6.5, cex.xaxis=2.5, cex.main=5.5)
#Add a 2 to the y label that is in 10 pt. font so it looks like it is (C/km)^2
par(ps=10, cex=1, cex.main=1)
text(-2, 16, labels=2, srt=90)
#Add lines showing the desired point pair distance and semivariance for the problem
par(new=TRUE, lines(c(53,53),c(0,15),col='red'))
par(new=TRUE, lines(c(0, 53),c(15,15),col='red'))
#Add axis minor tick marks in increments of 5
axis(side=1, at=c(0, 5, 15, 25, 35, 45, 55, 65), labels = NA, tck=-0.01, pos=0)
axis(side=2, at=c(0, 2.5, 7.5, 12.5, 17.5, 22.5, 25),labels = NA, tck=-0.01, pos=0)
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#v is sample variogram, vmf is fitted model
plot(v, model=vmf, xlim=c(0, 65), ylim=c(0,25), xlab="Distance between Point Pairs (km)",
ylab="Semivariance ((C/km) )", cex.xlab=6.5, cex.ylab=6.5, cex.xaxis=2.5, cex.main=5.5)
#Add a 2 to the y label that is in 10 pt. font so it looks like it is (C/km)^2
par(ps=10, cex=1, cex.main=1)
text(-2, 16, labels=2, srt=90)
#Add lines showing the desired point pair distance and semivariance for the problem
par(new=TRUE, lines(c(53,53),c(0,15),col='red'))
par(new=TRUE, lines(c(0, 53),c(15,15),col='red'))
#Add axis minor tick marks in increments of 5
axis(side=1, at=c(0, 5, 15, 25, 35, 45, 55, 65), labels = NA, tck=-0.01, pos=0)
axis(side=2, at=c(0, 2.5, 7.5, 12.5, 17.5, 22.5, 25),labels = NA, tck=-0.01, pos=0)
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#v is sample variogram, vmf is fitted model
plot(v, model=vmf, xlim=c(0, 65), ylim=c(0,25), xlab="Distance between Point Pairs (km)",
ylab="Semivariance ((C/km) )", cex.xlab=6.5, cex.ylab=6.5, cex.xaxis=2.5, cex.main=5.5)
#Add a 2 to the y label that is in 10 pt. font so it looks like it is (C/km)^2
par(ps=10, cex=1, cex.main=1)
text(-2, 16, labels=2, srt=90)
#Add lines showing the desired point pair distance and semivariance for the problem
par(new=TRUE, lines(c(53,53),c(0,15),col='red'))
par(new=TRUE, lines(c(0, 53),c(15,15),col='red'))
#Add axis minor tick marks in increments of 5
axis(side=1, at=c(0, 5, 15, 25, 35, 45, 55, 65), labels = NA, tck=-0.01, pos=0)
axis(side=2, at=c(0, 2.5, 7.5, 12.5, 17.5, 22.5, 25),labels = NA, tck=-0.01, pos=0)
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#v is sample variogram, vmf is fitted model
plot(v, model=vmf, xlim=c(0, 65), ylim=c(0,25), xlab="Distance between Point Pairs (km)",
ylab="Semivariance ((C/km) )", cex.xlab=6.5, cex.ylab=6.5, cex.xaxis=2.5, cex.main=5.5)
#Add a 2 to the y label that is in 10 pt. font so it looks like it is (C/km)^2
par(ps=10, cex=1, cex.main=1)
text(-2, 16, labels=2, srt=90)
#Add lines showing the desired point pair distance and semivariance for the problem
par(new=TRUE, lines(c(53,53),c(0,15),col='red'))
par(new=TRUE, lines(c(0, 53),c(15,15),col='red'))
#Add axis minor tick marks in increments of 5
axis(side=1, at=c(0, 5, 15, 25, 35, 45, 55, 65), labels = NA, tck=-0.01, pos=0)
axis(side=2, at=c(0, 2.5, 7.5, 12.5, 17.5, 22.5, 25),labels = NA, tck=-0.01, pos=0)
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#v is sample variogram, vmf is fitted model
plot(v, model=vmf, xlim=c(0, 65), ylim=c(0,25), xlab="Distance between Point Pairs (km)",
ylab="Semivariance ((C/km) )", cex.xlab=6.5, cex.ylab=6.5, cex.xaxis=2.5, cex.main=5.5)
#Add a 2 to the y label that is in 10 pt. font so it looks like it is (C/km)^2
par(ps=10, cex=1, cex.main=1)
text(-2, 16, labels=2, srt=90)
#Add lines showing the desired point pair distance and semivariance for the problem
par(new=TRUE, lines(c(53,53),c(0,15),col='red'))
par(new=TRUE, lines(c(0, 53),c(15,15),col='red'))
#Add axis minor tick marks in increments of 5
axis(side=1, at=c(0, 5, 15, 25, 35, 45, 55, 65), labels = NA, tck=-0.01, pos=0)
axis(side=2, at=c(0, 2.5, 7.5, 12.5, 17.5, 22.5, 25),labels = NA, tck=-0.01, pos=0)
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#v is sample variogram, vmf is fitted model
plot(v, model=vmf, xlim=c(0, 65), ylim=c(0,25), xlab="Distance between Point Pairs (km)",
ylab="Semivariance ((C/km) )", cex.xlab=6.5, cex.ylab=6.5, cex.xaxis=2.5, cex.main=5.5)
#Add a 2 to the y label that is in 10 pt. font so it looks like it is (C/km)^2
par(ps=10, cex=1, cex.main=1)
text(-2, 16, labels=2, srt=90)
#Add lines showing the desired point pair distance and semivariance for the problem
par(new=TRUE, lines(c(53,53),c(0,15),col='red'))
par(new=TRUE, lines(c(0, 53),c(15,15),col='red'))
#Add axis minor tick marks in increments of 5
axis(side=1, at=c(0, 5, 15, 25, 35, 45, 55, 65), labels = NA, tck=-0.01, pos=0)
axis(side=2, at=c(0, 2.5, 7.5, 12.5, 17.5, 22.5, 25),labels = NA, tck=-0.01, pos=0)
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#v is sample variogram, vmf is fitted model
plot(v, model=vmf, xlim=c(0, 65), ylim=c(0,25), xlab="Distance between Point Pairs (km)",
ylab="Semivariance ((C/km) )", cex.xlab=6.5, cex.ylab=6.5, cex.xaxis=2.5, cex.main=5.5)
#Add a 2 to the y label that is in 10 pt. font so it looks like it is (C/km)^2
par(ps=10, cex=1, cex.main=1)
text(-2, 16, labels=2, srt=90)
#Add lines showing the desired point pair distance and semivariance for the problem
par(new=TRUE, lines(c(53,53),c(0,15),col='red'))
par(new=TRUE, lines(c(0, 53),c(15,15),col='red'))
#Add axis minor tick marks in increments of 5
axis(side=1, at=c(0, 5, 15, 25, 35, 45, 55, 65), labels = NA, tck=-0.01, pos=0)
axis(side=2, at=c(0, 2.5, 7.5, 12.5, 17.5, 22.5, 25),labels = NA, tck=-0.01, pos=0)