# In R, how to find the standard error of the mean?

Is there any command to find the standard error of the mean in R?

There's the plotrix package with has a built-in function for this: std.error

The standard error is just the standard deviation divided by the square root of the sample size. So you can easily make your own function:

``````> std <- function(x) sd(x)/sqrt(length(x))
> std(c(1,2,3,4))
 0.6454972
``````

The standard error (SE) is just the standard deviation of the sampling distribution. The variance of the sampling distribution is the variance of the data divided by N and the SE is the square root of that. Going from that understanding one can see that it is more efficient to use variance in the SE calculation. The `sd` function in R already does one square root (code for `sd` is in R and revealed by just typing "sd"). Therefore, the following is most efficient.

``````se <- function(x) sqrt(var(x)/length(x))
``````

in order to make the function only a bit more complex and handle all of the options that you could pass to `var`, you could make this modification.

``````se <- function(x, ...) sqrt(var(x, ...)/length(x))
``````

Using this syntax one can take advantage of things like how `var` deals with missing values. Anything that can be passed to `var` as a named argument can be used in this `se` call.

• Interestingly, your function and Ian's are nearly identically fast. I tested them both 1000 times against 10^6 million rnorm draws (not enough power to push them harder than that). Conversely, plotrix's function was always slower than even the slowest runs of those two functions - but it also has a lot more going on under the hood. – Matt Parker Apr 20 '10 at 22:52
• Note that `stderr` is a function name in `base`. – Tom Jan 13 '14 at 14:01
• That's a very good point. I typically use se. I have changed this answer to reflect that. – John Jan 13 '14 at 14:02
• Tom, NO `stderr` does NOT calculate standard error it displays `display aspects. of connection` – forecaster Jan 21 '15 at 0:01
• @forecaster Tom didn't say `stderr` calculates the standard error, he was warning that this name is used in base, and John originally named his function `stderr` (check the edit history...). – Molx Jul 1 '15 at 19:39

A version of John's answer above that removes the pesky NA's:

``````stderr <- function(x, na.rm=FALSE) {
if (na.rm) x <- na.omit(x)
sqrt(var(x)/length(x))
}
``````
• Note that there is an existing function called `stderr` in the `base` package that does something else, so it might be better to chose another name for this one, e.g. `se` – sparrow May 26 at 11:11

The package sciplot has the built-in function se(x)

As I'm going back to this question every now and then and because this question is old, I'm posting a benchmark for the most voted answers.

Note, that for @Ian's and @John's answers I created another version. Instead of using `length(x)`, I used `sum(!is.na(x))` (to avoid NAs). I used a vector of 10^6, with 1,000 repetitions.

``````library(microbenchmark)

set.seed(123)
myVec <- rnorm(10^6)

IanStd <- function(x) sd(x)/sqrt(length(x))

JohnSe <- function(x) sqrt(var(x)/length(x))

IanStdisNA <- function(x) sd(x)/sqrt(sum(!is.na(x)))

JohnSeisNA <- function(x) sqrt(var(x)/sum(!is.na(x)))

AranStderr <- function(x, na.rm=FALSE) {
if (na.rm) x <- na.omit(x)
sqrt(var(x)/length(x))
}

mbm <- microbenchmark(
"plotrix" = {plotrix::std.error(myVec)},
"IanStd" = {IanStd(myVec)},
"JohnSe" = {JohnSe(myVec)},
"IanStdisNA" = {IanStdisNA(myVec)},
"JohnSeisNA" = {JohnSeisNA(myVec)},
"AranStderr" = {AranStderr(myVec)},
times = 1000)

mbm
``````

Results:

``````Unit: milliseconds
expr     min       lq      mean   median       uq      max neval cld
plotrix 10.3033 10.89360 13.869947 11.36050 15.89165 125.8733  1000   c
IanStd  4.3132  4.41730  4.618690  4.47425  4.63185   8.4388  1000 a
JohnSe  4.3324  4.41875  4.640725  4.48330  4.64935   9.4435  1000 a
IanStdisNA  8.4976  8.99980 11.278352  9.34315 12.62075 120.8937  1000  b
JohnSeisNA  8.5138  8.96600 11.127796  9.35725 12.63630 118.4796  1000  b
AranStderr  4.3324  4.41995  4.634949  4.47440  4.62620  14.3511  1000 a

library(ggplot2)
autoplot(mbm)
`````` more generally, for standard errors on any other parameter, you can use the boot package for bootstrap simulations (or write them on your own)

You can use the function stat.desc from pastec package.

``````library(pastec)
stat.desc(x, BASIC =TRUE, NORMAL =TRUE)
``````

you can find more about it from here: https://www.rdocumentation.org/packages/pastecs/versions/1.3.21/topics/stat.desc

``````y <- mean(x, na.rm=TRUE)
``````

`sd(y)` for standard deviation `var(y)` for variance.

Both derivations use `n-1` in the denominator so they are based on sample data.