diff --git a/Doc/library/statistics.rst b/Doc/library/statistics.rst index 79c68123454524..85995417e79530 100644 --- a/Doc/library/statistics.rst +++ b/Doc/library/statistics.rst @@ -500,9 +500,9 @@ However, for reading convenience, most of the examples show sorted sequences. variance indicates that the data is spread out; a small variance indicates it is clustered closely around the mean. - If the optional second argument *mu* is given, it is typically the mean of - the *data*. It can also be used to compute the second moment around a - point that is not the mean. If it is missing or ``None`` (the default), + If the optional second argument *mu* is given, it should be the *population* + mean of the *data*. It can also be used to compute the second moment around + a point that is not the mean. If it is missing or ``None`` (the default), the arithmetic mean is automatically calculated. Use this function to calculate the variance from the entire population. To @@ -572,8 +572,8 @@ However, for reading convenience, most of the examples show sorted sequences. the data is spread out; a small variance indicates it is clustered closely around the mean. - If the optional second argument *xbar* is given, it should be the mean of - *data*. If it is missing or ``None`` (the default), the mean is + If the optional second argument *xbar* is given, it should be the *sample* + mean of *data*. If it is missing or ``None`` (the default), the mean is automatically calculated. Use this function when your data is a sample from a population. To calculate @@ -589,8 +589,8 @@ However, for reading convenience, most of the examples show sorted sequences. >>> variance(data) 1.3720238095238095 - If you have already calculated the mean of your data, you can pass it as the - optional second argument *xbar* to avoid recalculation: + If you have already calculated the sample mean of your data, you can pass it + as the optional second argument *xbar* to avoid recalculation: .. doctest::