I think that what you're looking for is simply the `cor.test()`

function, which will return everything you're looking for except for the standard error of correlation. However, as you can see, the formula for that is very straightforward, and if you use `cor.test`

, you have all the inputs required to calculate it.

Using the data from the example (so you can compare it yourself with the results on page 14.6):

```
> cor.test(mydf$X, mydf$Y)
Pearson's product-moment correlation
data: mydf$X and mydf$Y
t = -5.0867, df = 10, p-value = 0.0004731
alternative hypothesis: true correlation is not equal to 0
95 percent confidence interval:
-0.9568189 -0.5371871
sample estimates:
cor
-0.8492663
```

If you wanted to, you could also create a function like the following to include the standard error of the correlation coefficient.

For convenience, here's the equation:

*r* = the correlation estimate and *n* - 2 = degrees of freedom, both of which are readily available in the output above. Thus, a simple function could be:

```
cor.test.plus <- function(x) {
list(x,
Standard.Error = unname(sqrt((1 - x$estimate^2)/x$parameter)))
}
```

And use it as follows:

```
cor.test.plus(cor.test(mydf$X, mydf$Y))
```

Here, "mydf" is defined as:

```
mydf <- structure(list(Neighborhood = c("Fair Oaks", "Strandwood", "Walnut Acres",
"Discov. Bay", "Belshaw", "Kennedy", "Cassell", "Miner", "Sedgewick",
"Sakamoto", "Toyon", "Lietz"), X = c(50L, 11L, 2L, 19L, 26L,
73L, 81L, 51L, 11L, 2L, 19L, 25L), Y = c(22.1, 35.9, 57.9, 22.2,
42.4, 5.8, 3.6, 21.4, 55.2, 33.3, 32.4, 38.4)), .Names = c("Neighborhood",
"X", "Y"), class = "data.frame", row.names = c(NA, -12L))
```

`?cor.test`

instead. – A5C1D2H2I1M1N2O1R2T1 Apr 19 '13 at 4:59