y<-c(0.0100,2.3984,11.0256,4.0272,0.2408,0.0200);
x<-c(1,3,5,7,9,11);
d<-data.frame(x,y)
myLm<-lm(x~y**2,data=d)
plot(d)
lines(x,lm(y ~ I(log(x)) + x,data=d)$fitted.values)
lines(x,lm(y ~ I(x**2) + x,data=d)$fitted.values) % not quite right, smooth plz
It should be smooth plot, something wrong.
Helper questions
You need predict in order to interpolate the predictions between the fitted points.
d <- data.frame(x=seq(1,11,by=2),
y=c(0.0100,2.3984,11.0256,4.0272,0.2408,0.0200))
lm1 <-lm(y ~ log(x)+x, data=d)
lm2 <-lm(y ~ I(x^2)+x, data=d)
xvec <- seq(0,12,length=101)
plot(d)
lines(xvec,predict(lm1,data.frame(x=xvec)))
lines(xvec,predict(lm2,data.frame(x=xvec)))
The mandatory ggplot2 method:
library(ggplot2)
qplot(x,y)+stat_smooth(method="lm", formula="y~poly(x,2)", se=FALSE)
plot(1:10,1:10); lines(1:10, 1:10*2) etc.
dfr <- data.frame(x=rep(1:10,2),y=c(1:10,(1:10)^2),type=c(rep("linear",10),rep("squared",10))); qplot(x,y,data=dfr,geom="line",colour=type)
something like:
plot(d)
abline(lm(x~y**2,data=d), col="black")
will make it (if linear, as was implied by the way the question was asked first)
For what you are looking for I think:
lines(smooth.spline(x, y))
May work as hinted by Dirk.
You should spend some time with the 'Appendix A: A sample session' of the 'An Introduction R' manual that came with your program. But here is a start
R> y<-c(0.0100,2.3984,11.0256,4.0272,0.2408,0.0200);
R> x<-c(1,3,5,7,9,11);
R> d<-data.frame(x,y)
R> myLm<-lm(x~y**2,data=d)
R> myLm
Call:
lm(formula = x ~ y^2, data = d)
Coefficients:
(Intercept) y
6.434 -0.147
and we can plot this as (where I now corrected for your unusual inversion of the roles of x and y):
R> plot(d)
R> lines(d$y,fitted(myLm))
x2 <- x^2 and then regress y ~ x2 and plot that in (y,x2) space. If you want a nonlinear regression you need a different function such as nls(). Or splines. Or additive models. Or, or, or ...
Dec 3, 2011 at 5:47