Variance Guide, Meaning , Facts, Information and Description
- This article is about mathematics. Alternate meaning: variance (land use).
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2 Properties 3 Population variance and sample variance 4 Generalizations 5 History 6 See also |
Definition
If μ = E(X) is the expected value (mean) of the random variable X, then the variance is
Note that the above definition can be used for both discrete and continuous random variables.
Many distributions, such as the Cauchy distribution, do not have a variance because the relevant integral diverges. In particular, if a distribution does not have expected value, it does not have variance either. The opposite is not true: there are distributions for which expected value exists, but variance does not.
Properties
If the variance is defined, we can conclude that it is never negative because the squares are positive or zero.
The unit of variance is the square of the unit of observation. For example, the variance of a set of heights measured in centimeters will be given in square centimeters. This fact is inconvenient and has motivated many statisticians to instead use the square root of the variance, known as the standard deviation, as a summary of dispersion.
It can be proven easily from the definition that the variance does not depend on the mean value . That is, if the variable is "displaced" an amount b by taking X+b, the variance of the resulting random variable is left untouched. By contrast, if the variable is multiplied by a scaling factor a, the variance is multiplied by a2. More formally, if a and b are real constants and X is a random variable whose variance is defined,
One reason for the use of the variance in preference to other measures of dispersion is that the variance of the sum (or difference) of independent random variables is the sum of their variances. A weaker condition than independence, called uncorrelatedness also suffices. In general,
Population variance and sample variance
In statistics, the concept of variance can also be used to describe a set of data. When the set of data is a population, it is called the population variance. If the set is a sample, we call it the sample variance.
The population variance of a population yi where i = 1, 2, ..., N is given by
A common method of estimating the population variance is sampling. When estimating the population variance using n random samples xi where i = 1, 2, ..., n, the following formula is an unbiased estimator:
Note that the n-1 in the denominator above contrasts with the equation for population variance. One common source of confusion is that the term sample variance and notation s2 may refer to either the unbiased estimator of the population variance given above, and to what is strictly speaking the variance of the sample, computed by using n instead of n-1.
Intiutively, computing the variance by dividing by n instead of n-1 gives an underestimate of the population variance. This is because we are using the sample mean as an estimate of the population mean , which we do not know. In practice, for large n, the distinction is often a minor one.
See also algorithms for calculating variance.
Generalizations
If X is a vector-valued random variable, with values in Rn, and thought of as a column vector, then the natural generalization of variance is E[(X − μ)(X − μ)T], where μ = E(X) and XT is the transpose of X, and so is a row vector. This variance is a nonnegative-definite square matrix, commonly referred to as the covariance matrix.
If X is a complex-valued random variable, then its variance is E[(X − μ)(X − μ)*], where X* is the complex conjugate of X. This variance is a nonnegative real number.
History
The term variance was first introduced by Ronald Fisher in 1918 paper The Correlation Between Relatives on the Supposition of Mendelian Inheritance.
Variance is analogous to the concept of moment of inertia in classical mechanics.
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