computing an intergral with multiple variables in R

Hi I have a equation like the following that I want to calculate.

The equation is given by :

In this equation x is an arrary from 0 to 500. The value of t = 500 i.e upper limit of the integration.

Now I want to compute c as c(500,x).

The code that I have written so far is as follows:

x <- seq(from=0,by=0.5,length=1000)
t=500

integrand <- function(t)t^(-0.5)*exp((-x^2/t)-t)
integrated <- integrate(integrand, lower=0, upper=t)
final <-  pi^(-0.5)*exp(2*x)*integrated


The error I get is as follows:

Error in integrate(integrand, lower = 0, upper = t) :
evaluation of function gave a result of wrong length
In addition: Warning messages:
1: In -x^2/t :
longer object length is not a multiple of shorter object length
2: In -x^2/t - t :
longer object length is not a multiple of shorter object length
3: In t^(-0.5) * exp(-x^2/t - t) :
longer object length is not a multiple of shorter object length


But it doesn't work because there is a variable x inside the integrand which is an arrary. Can anyone suggest how can I compute the integration first and then calculate the total expression for each value of x ? If I change the value of x in the integrand to constant I can compute integration but I want to compute for all the values of x from 0 to 500.

Thank you so much.

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When using integrate the function needs to vary with the name of the variable that is being integrated, which in your case is \theta rather than "x". –  DWin Apr 1 at 0:24
I understand that. How can I change the expression with x outside of the integrand. It seems the exponential function is connected with both x and thita. How can I separate those variables ? –  Jdbaba Apr 1 at 0:25
generally one would use sapply( vector, FUN=...) and write up you FUN to take a single X variable. But do not call it "x" because you need that to be the variable that gets passed to integrate. What's the background of this problem? –  DWin Apr 1 at 0:33
This is a solution of the continuous release of a dye in a 1 D channel. –  Jdbaba Apr 1 at 0:38
The reason I ask is that my R solution breaks down for some values of X and that may depend on how you are presenting the problem. At one point you said x was an array of 500 and another point you said the limits of integration were to 500. It seemed as though you were conflating their roles. –  DWin Apr 1 at 0:47
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2 Answers

Well, here is some code, but it blows up after t=353:

Cfun <- function(XX, upper){
integrand <- function(x)x^(-0.5)*exp((-XX^2/x)-x)
integrated <- integrate(integrand, lower=0, upper=upper)\$value
(final <-  pi^(-0.5)*exp(2*XX)*integrated) }
sapply(1:400, Cfun, upper=500)

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Thank you so much for sharing this code. I don't know why the equation behaved weird after t=353. But at least I can look the profile before t=353. Thanks. –  Jdbaba Apr 1 at 1:30
Be sure use a graphical view: plot( sapply(1:300, Cfun, upper=500) ); lines(sapply(1:300, Cfun, upper=500) ) –  DWin Apr 1 at 5:32
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I'd put the loop over values for x outside the integration. Iterate over the x-values and perform the integration for each one inside. Then you'll have C(x) as a function of x suitable for plotting.

You realize, of course, that the indefinite integral can be evaluated:

http://www.wolframalpha.com/input/?i=integrate+exp%28-%28c%2Bt%5E2%29%2Ft%29%2Fsqrt%28t%29

Maybe that will help you see what the answer looks like before you get started.

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In that integral expression x is a constant. –  DWin Apr 1 at 0:25
Yes, I know. You'll substitute a value for x and get the value of the integral. Keep arrays of x and c and you'll have a plot of c versus x. –  duffymo Apr 1 at 0:29
@duffmyo : Thank you so much for your solution. Can you suggest what should the syntax should be ? The link to the wolframalpha was very useful. I am new to R so I am having problem with syntax. –  Jdbaba Apr 1 at 0:40
Sorry, not enough of an expert in R to dash it off. I will think about it and try and post whatever might be helpful. I'm trying to learn R, too. –  duffymo Apr 1 at 0:41
I do not think the Wolfram expression was constructed properly. The variable of integration is not squared in the numerator of the exp argument. –  DWin Apr 1 at 0:43
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