# Plot normal, left and right skewed distribution in R

I want to create 3 plots for illustration purposes: - normal distribution - right skewed distribution - left skewed distribution

This should be an easy task, but I found only this link, which only shows a normal distribution. How do I do the rest?

• take samples from a normal distribution, choosing the parameters so that the results are all positive (i.e. mean > 3*sd). Square-root and square them and plot histograms of the resulting three distributions (or log and exponentiate them). – Ben Bolker Nov 27 '13 at 22:16
• I am really inexperienced with R. How do I do this? – Pio Nov 28 '13 at 15:06

If you are not too tied to normal, then I suggest you use beta distribution which can be symmetrical, right skewed or left skewed based on the shape parameters.

hist(rbeta(10000,5,2))
hist(rbeta(10000,2,5))
hist(rbeta(10000,5,5))

• Is it an easy way to use a continuous plot, instead of the histogram? – Pio Nov 28 '13 at 14:38

Finally I got it working, but with both of your help, but I was relying on this site.

 N <- 10000
x <- rnbinom(N, 10, .5)
hist(x,
xlim=c(min(x),max(x)), probability=T, nclass=max(x)-min(x)+1,
col='lightblue', xlab=' ', ylab=' ', axes=F,
main='Positive Skewed')
lines(density(x,bw=1), col='red', lwd=3)


This is also a valid solution:

curve(dbeta(x,8,4),xlim=c(0,1))
title(main="posterior distrobution of p")


just use fGarch package and these functions:

dsnorm(x, mean = 0, sd = 1, xi = 1.5, log = FALSE)
psnorm(q, mean = 0, sd = 1, xi = 1.5)
qsnorm(p, mean = 0, sd = 1, xi = 1.5)
rsnorm(n, mean = 0, sd = 1, xi = 1.5)


** mean, sd, xi location parameter mean, scale parameter sd, skewness parameter xi. Examples

## snorm -
# Ranbdom Numbers:
par(mfrow = c(2, 2))
set.seed(1953)
r = rsnorm(n = 1000)
plot(r, type = "l", main = "snorm", col = "steelblue")

# Plot empirical density and compare with true density:
hist(r, n = 25, probability = TRUE, border = "white", col = "steelblue")
box()
x = seq(min(r), max(r), length = 201)
lines(x, dsnorm(x), lwd = 2)

# Plot df and compare with true df:
plot(sort(r), (1:1000/1000), main = "Probability", col = "steelblue",
ylab = "Probability")
lines(x, psnorm(x), lwd = 2)

# Compute quantiles:
round(qsnorm(psnorm(q = seq(-1, 5, by = 1))), digits = 6)