Normal probability plot

Definition

The normal probability plot is formed by plotting the sorted data vs. an approximation to the means or medians of the corresponding order statistics; see rankit. Some plot the data on the vertical axis; others plot the data on the horizontal axis.{{Citation | last1 = Box | first1 = George E. P.

Different sources use slightly different approximations for rankits. The formula used by the "qqnorm" function in the basic "stats" package in R (programming language) is as follows:

: z_i = \Phi^{-1}\left( \frac{i-a}{n+1-2a} \right),

for , where

: if n ≤ 10 and ::0.5 for n 10,

and Φ is the standard normal quantile function.

If the data are consistent with a sample from a normal distribution, the points should lie close to a straight line. As a reference, a straight line can be fit to the points. The further the points vary from this line, the greater the indication of departure from normality. If the sample has mean 0, standard deviation 1 then a line through 0 with slope 1 could be used.

With more points, random deviations from a line will be less pronounced. Normal plots are often used with as few as 7 points, e.g., with plotting the effects in a saturated model from a 2-level fractional factorial experiment. With fewer points, it becomes harder to distinguish between random variability and a substantive deviation from normality.

Other distributions

Main article: Q–Q plot

Probability plots for distributions other than the normal are computed in exactly the same way. The normal quantile function Φ is simply replaced by the quantile function of the desired distribution. In this way, a probability plot can easily be generated for any distribution for which one has the quantile function.

With a location-scale family of distributions, the location and scale parameters of the distribution can be estimated from the intercept and the slope of the line. For other distributions the parameters must first be estimated before a probability plot can be made.

Plot types

This is a sample of size 50 from a normal distribution, plotted as both a histogram, and a normal probability plot.

File:normprob.png|Normal probability plot of a sample from a normal distribution – it looks fairly straight, at least when the few large and small values are ignored. File:normhist.png|Histogram of a sample from a normal distribution – it looks fairly symmetric and unimodal

This is a sample of size 50 from a right-skewed distribution, plotted as both a histogram, and a normal probability plot.

File:normexpprob.png|Normal probability plot of a sample from a right-skewed distribution – it has an inverted C shape. File:normexphist.png|Histogram of a sample from a right-skewed distribution – it looks unimodal and skewed right.

This is a sample of size 50 from a uniform distribution, plotted as both a histogram, and a normal probability plot.

File:normunifprob.png|Normal probability plot of a sample from a uniform distribution – it has an S shape. File:normunifhist.png|Histogram of a sample from a uniform distribution – it looks multimodal and supposedly roughly symmetric.

References

References

1. e.g., Chambers et al. (1983, ch. 6. Assessing distributional assumptions about data, p. 194)