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I am trying to write a function that will take a matrix of coordinates, p, and a positive whole number, k, and return the partial derivative of E (which I will give later) with respect to the kth coordinate.

I am trying to model the energy of a configuration of m molecules. Each molecule j has position coordinate. r is the distance between molecules i and j: distance



I found that the partial derivative of E with respect to x1 is sum2, which can be generalized for the partial derivatives of all other variables.

p is a mx3 matrix where each row contains a coordinate. We want to find the partial derivative of the kth coordinate, where k

I believe that the function below should be able to take p and k and calculate the partial derivative of E with respect to the kth coordinate.

partial <- function(p,k){
   m <- dim(p)
   m <- m[1]
   m <- as.numeric(m)
   d1 <- k%/%3+1
   d2 <- ifelse (k%%3 == 0, 3, k%%3)
   distance = function(a,b){
       r <- sqrt((p[a,1]-p[b,1])^2+(p[a,2]-p[b,2])^2+(p[a,3]-p[b,3])^2)
   sum <- 0
   for(j in 1:m){
       sum <- sum + (p[d1,d2]-p[j,d2])*(distance(d1,j)^(-8)-distance(d1,j)^(-14))
   sum <- 12*sum

However, when I test the function out with the following:

coordinates <- matrix(c(0,0,0,1,0,0,1,1,0),nrow=3,byrow=T)
partial (coordinates,7)

I just get "NaN", which I don't believe should be the case. What am I doing wrong? I'd appreciate any guidance. Thank you in advance!

share|improve this question
I find it's helpful to save p=c(0,0,0,1,0,0,1,1,0) and k=7 and then walk through the code in the function line by line. With this simple debugging, you'll find that the problem lies in one of the calls to distance(d1,j)^(-8), in particular when the distance is zero as Brad points out in his answer. –  kdauria Jan 13 at 19:20

1 Answer 1

up vote 1 down vote accepted

In your loop, when j=3=d1, distance(d1,j) is zero.

share|improve this answer
Just found the same thing. Just to add on to this, 0 with a negative exponent is calculated as Inf (Infinity). The loop then does 0*Inf which gives you NaN. –  kdauria Jan 13 at 19:17

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