This shows how to apply a random transition matrix to a particular starting vector: c(1,0,0,0):

```
set.seed(123)
tmat <- matrix(rnorm(16)^2,ncol=4)
# need entries to be positive, could have used abs()
tmat <- tmat/rowSums(tmat) # need the rows to sum to 1
tmat
[,1] [,2] [,3] [,4]
[1,] 0.326123580 0.01735335 0.48977444 0.166748625
[2,] 0.016529424 0.91768404 0.06196453 0.003822008
[3,] 0.546050789 0.04774713 0.33676288 0.069439199
[4,] 0.001008839 0.32476060 0.02627217 0.647958394
require(expm) # for the %^% function
matplot( t( # need to transpose to get arguments to matplot correctly
sapply(1:20, function(x) matrix(c(1,0,0,0), ncol=4) %*% (tmat %^% x) ) ) )
```

You can see it approaching equilibrium: