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To plot a normal distribution curve in R we can use:

(x = seq(-4,4, length=100))
y = dnorm(x)
plot(x, y)

enter image description here

If dnorm calculates y as a function of x, does R have a function that calculates x as a function of y? If not what is the best way to approach this?

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Have you read pnorm ?? –  Jilber Oct 25 '13 at 12:05
    
Perhaps I'm missing something, but pnorm(y) doesn't give x, hence plot(pnorm(y), y) does not give the normal distribution (it's actually a straight line). –  geotheory Oct 25 '13 at 12:14
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plot(pnorm(y), y) is certainly not a straight line. However, plot(ppoints(y), y) is. –  Hong Ooi Oct 25 '13 at 12:25
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One problem is that the inverse of a density function is not a function, as it is not one to one, but mrip's answer below gives as close to what you appear to be asking as you can get. –  Sam Dickson Oct 25 '13 at 12:46
    
Not all functons are invertible, and this is an example (it is not strictly increasing nor decreasing). I think that @gung answer is more useful here. –  Juan Oct 25 '13 at 14:08

2 Answers 2

up vote 4 down vote accepted

I'm not sure if the inverse of the density function is built in -- it's not used nearly as often as the inverse of the cumulative distribution function. I can't think offhand of too many situation where the inverse density function is useful. Of course, that doesn't mean there aren't any, so if you are sure this is the function you need, you could just do:

dnorminv<-function(y) sqrt(-2*log(sqrt(2*pi)*y))

plot(x, y)
points(dnorminv(y),y,pch=3)

enter image description here

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Thanks mrip. I'd tried inversing the normal distribution function myself but without success. –  geotheory Oct 25 '13 at 14:07
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I cannot be built-in, as there is no possible inverse for this density function (see wikipedia). –  Juan Oct 25 '13 at 14:09
    
@Juan Well, the positive inverse could be built in as a partial function. The inverse to the CDF is built in and that is technically not a function either, since it is only defined on [0,1]. –  mrip Oct 25 '13 at 14:13
    
You are right, if you divide this function in 2 parts, then both resulting functions comply with the criteria for being invertible (in more general terms: on function to the right of the mean, and another to the left). Also, I don't see the problem for a function to be defined on [0,1], functions don't have to be restricted to a predefined domain. –  Juan Oct 25 '13 at 14:18
    
You are right about [0,1]. It is a function, just not a real function (I think that's the standard terminology). I guess a better example would be the function x^2, which is technically not invertible, but the sqrt function is the positive branch of the inverse. –  mrip Oct 25 '13 at 14:25

What dnorm() is doing is giving you a probability density function. If you integrate over that, you would have a cumulative distribution function (which is given by pnorm() in R). The inverse of the CDF is given by qnorm(); that is the standard way these things are conceptualized in statistics.

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Thanks for clarification gung. I'm no statistician so my terminology is perhaps not so precise. –  geotheory Oct 25 '13 at 14:28

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