# Variance and Standard Deviation in Statistics

### Population variance and standard deviation

The average of the square of the deviations taken from mean is called variance. The population variance is generally denoted by σ2 and its estimate (sample variance) by s2. For N population values X1,X2,...,XN having the population mean μ, the population variance is defined as,

Where,  μ is the mean of all the observations in the population and N is the total number of observations in the population. Because the operation of squaring, the variance is expressed in square units and not of the original units.
So, we can define the population standard deviation as,

Thus, the standard deviation is the positive square root of the mean square deviations of the observations from their arithmetic mean. More simply, standard deviation is the positive square root of variance.

### Sample variance

In maximum statistical applications, we deal with a sample rather than a population. Thus, while a set of population observations yields a population variance and a set of sample observations will yield a sample variance. If x1,x2,...,xn is a set of sample observations of size n, then the sample variance is define as,

### Properties of Variance

Effect of changes in origin on variance: Variance and statndard deviation have certain appealing properties. Let each of the numbers x1,x2,...,xn increases or decreases by a constant c. Let y be the transformed variable defined as,

where, c is a constant.
Finally we get that any linear change in the variable x does not have any effect on its variance. So, Variance is independent of change of origin.

Effect of changes in the scale on variance: When each observation of the variable is multiplied or divided by a certain constant c then there occur changes in the variance.

So, we can say that, Changes in scale affects the variance. Thus variance depends on scale.

### Uses of Variance and standard deviation

A thorough understanding of the uses of standard deviation is difficult for us as this stage, unless we acquire some knowledge on some theoritical distributions in statistics. The variance and standard deviation of a population is a measure of the dispersion in the population while the variance and standard deviation of sample observations is a measure of the dispersion in the distribution constructed from the sample. The use of standard deviation and variance can be the best understood with reference to a normal distribution because normal distribution is completely defined by mean and standard deviation.