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I want to use rnorm(n, mean, sd). I can understand that the n is the number of observations with mean and sd. But please tell me in simple words what the results after running rnorm(n,mean,sd) are!

Thanks

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Please clarify what you don't understand. It is n observations from the distribution with the given mean and sd as you stated. –  frankc Apr 15 at 19:33
    
For example: rnorm(10,500,80) [1] 502.0629 548.9628 549.4252 473.6572 548.6160 437.7743 515.5681 452.3997 [9] 471.2482 351.4196 These numbers what they represent? –  user3439865 Apr 15 at 19:35

2 Answers 2

up vote 1 down vote accepted

Let's say you run the following:

rnorm(5, 10, 2)

What you get is the value of five points randomly drawn from a normal distribution that has a mean of 10 and a standard deviation of 2.

It's a random draw, so each time you rerun this line you will get a different set of numbers. They all belong to the same normal distribution, though.

(If you want to obtain the same set of values every time you run the command you need to use set.seed() first)

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The function call results in n observations sampled from a normal distribution that fits your parameters for mean and standard deviation. That is, if you were to sample a large amount of observations, say 1,000,000, then the mean of your observations would approximate your mean and the standard deviation (a measure of how "spread out" or how much your data "varies") would similarly approximate your sd. The larger your n the closer your calculations should approximate the mean and sd parameters.

Below a quick example

obs<-rnorm(n=1e6, mean=0, sd=1) # a standard normal distribution mean(obs) 1 0.001220156 sd(obs) 1 0.9993028

A quick histogram will show you that the sampling approximates the standard normal distribution

hist(obs) enter image description here You can also see that the mean/sd get closer to the parameters if you increase the size of your n.

> obs<-rnorm(n=1e6, mean=0, sd=1) # a standard normal distribution
> sizes<-10^c(1,2,3,4,5,6) #various sample sizes
> comp<-sapply(sizes, function(x){
+ obs<-rnorm(n=x,mean=0,sd=1)
+ c(mean=mean(obs), sd=sd(obs))})
> comp
          [,1]         [,2]        [,3]         [,4]         [,5]         [,6]
mean 0.5067287 -0.007100886 -0.02529011 -0.005051383 -0.001862262 0.0007186828
sd   1.2146560  1.005648941  0.99851624  0.989914551  1.002872287 1.0006376314
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