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Suppose we have two variables that we wish to build a model from:

> x <- rnorm(seq(1,100,1))
> y <- rnorm(seq(1,100,1))
> model <- lm(x~y)

> class(model)
[1] "lm"

> summary(model)

Call:
lm(formula = x ~ y)

Residuals:
    Min      1Q  Median      3Q     Max 
-2.9212 -0.7721  0.0677  0.7448  3.2223 

Coefficients:
            Estimate Std. Error t value Pr(>|t|)
(Intercept)  0.10192    0.11486   0.887    0.377
y            0.01341    0.11083   0.121    0.904

Residual standard error: 1.13 on 98 degrees of freedom
Multiple R-squared: 0.0001494,  Adjusted R-squared: -0.01005 
F-statistic: 0.01464 on 1 and 98 DF,  p-value: 0.904 

How do you plot the F-distribution of the model object?

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2 Answers 2

up vote 4 down vote accepted

If you check the structure of the summary of your model str(summary(model)), you'll notice that the parameters for the F-distribution of interest can be found by calling summary(model)$fstatistic. The first element in the list is the F-statistic and the following two element are the numerator degrees of freedom and the denominator degrees of freedom, in that order. So to plot the F-distribution, try something like the following

df <- summary(model)$fstatistic
curve(df(x, df1 = df[2], df2 = df[3]), from = 0, to = 100)

Alternatively, you can also get the parameters for the F-distribution of interest from the model itself. The numerator degrees of freedom is one less than the number of coefficients in the model and the denominator degrees of freedom is the total number of observations less one more than the number of coefficients in the model.

df1 <- length(model$coefficients) - 1
df2 <- length(model$residuals) - df1 - 1
curve(df(x, df1 = df1, df2 = df2), from = 0, to = 100)
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A couple of comments: i) df2 can be computed using df.residual(model), ii) in general use, be wary of grabbing things like residuals from a model instead of using the extractor function. Where a model has more than one type of residual, $residuals might contain working residuals (e.g. glm()) which will rarely be what you want, whereas resid(model) would return something different and something more useful than working residuals. +1 for showing curve(). –  Gavin Simpson Jun 21 '11 at 7:50
    
It is confusing that you call the F statistic variables df, since this is also the name of a function you use. Would be clear use an alternative name, such as fs. Its also worth noting that the first argument to the curve function is an expression, so the x within df there is not the same x as in the model. Still its a good use of curve, +1. –  James Jun 21 '11 at 10:31

I prefer the following way to show the p-value of the F distribution

fstat <- summary(model)$fstatistic

library(HH)
old.omd <- par(omd=c(.05,.88, .05,1))
F.setup(df1=fstat['numdf'], df2=fstat['dendf'])
F.curve(df1=fstat['numdf'], df2=fstat['dendf'], col='blue')
F.observed(fstat['value'], df1=fstat['numdf'], df2=fstat['dendf'])
par(old.omd)

enter image description here

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