Just starting to program in R... Got stumped on this one, perhaps because I don't know where to begin.

Define a random variable to be equal to the number of trials before there is a match. So if you have a list of numbers, (4,5,7,11,3,11,12,8,8,1....), the first value of the random variable is 6 because by then there are two 11's.(4,5,7,11,3,11) The second value is 3 because then you have 2 8's..12,8,8. The code below creates the list of numbers, u, by simulating from a uniform distribution.

Thank-you for any help or pointers. I've included a full description of the problem I am solving below if anyone is interested (trying to learn by coding a statistics text).

```
set.seed(1); u = matrix(runif(1000), nrow=1000)
u[u > 0 & u <= 1/12] <- 1
u[u > 1/12 & u <= 2/12] <- 2
u[u > 2/12 & u <= 3/12] <- 3
u[u > 3/12 & u <= 4/12] <- 4
u[u > 4/12 & u <= 5/12] <- 5
u[u > 5/12 & u <= 6/12] <- 6
u[u > 6/12 & u <= 7/12] <- 7
u[u > 7/12 & u <= 8/12] <- 8
u[u > 8/12 & u <= 9/12] <- 9
u[u > 9/12 & u <= 10/12] <- 10
u[u > 10/12 & u <= 11/12] <- 11
u[u > 11/12 & u < 12/12] <- 12
table(u); u[1:10,]
```

Example 2.6-3 Concepts in Probability and Stochastic Modeling, Higgins Suppose we were to ask people at random in which month they were born. Let the random variable X denote the number of people we would need to ask before we found two people born in the same month. The possible values for X are 2,3,...13. That is, at least two people must be asked in order to have a match and no more than 13 need to be asked. With the simplifying assumption that every month is an equally likely candidate for a response, a computer simulation was used to estimate the probabilitiy mass function of X. The simulation generated birth months until a match was found. Based on 1000 repetitions of this experiment, the following empirical distribution and sample statistics were obtained...

`u <- matrix(sample(12, 1000, replace = TRUE))`

. – Richie Cotton Feb 15 '12 at 10:16