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In statistics, Bessel's correction is the use of n − 1 instead of n in the formula for the sample variance and sample standard deviation, where n is the number of observations in a sample. This method corrects the bias in the estimation of the population variance.
To determine the sample size n required for a confidence interval of width W, with W/2 as the margin of error on each side of the sample mean, the equation Z σ n = W / 2 {\displaystyle {\frac {Z\sigma }{\sqrt {n}}}=W/2} can be solved.
This depends on the sample size n, and is given as follows: c 4 ( n ) = 2 n − 1 Γ ( n 2 ) Γ ( n − 1 2 ) = 1 − 1 4 n − 7 32 n 2 − 19 128 n 3 + O ( n − 4 ) {\displaystyle c_{4}(n)={\sqrt {\frac {2}{n-1}}}{\frac {\Gamma \left({\frac {n}{2}}\right)}{\Gamma \left({\frac {n-1}{2}}\right)}}=1-{\frac {1}{4n}}-{\frac {7}{32n^{2}}}-{\frac ...
Where is the sample size, = / is the fraction of the sample from the population, () is the (squared) finite population correction (FPC), is the unbiassed sample variance, and (¯) is some estimator of the variance of the mean under the sampling design. The issue with the above formula is that it is extremely rare to be able to directly estimate ...
For example, in the R statistical computing environment, this value can be obtained as fisher.test(rbind(c(1,9),c(11,3)), alternative="less")$p.value, or in Python, using scipy.stats.fisher_exact(table=[[1,9],[11,3]], alternative="less") (where one receives both the prior odds ratio and the p -value).
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Welch's t-test defines the statistic t by the following formula: t = Δ X ¯ s Δ X ¯ = X ¯ 1 − X ¯ 2 s X ¯ 1 2 + s X ¯ 2 2 {\displaystyle t={\frac {\Delta {\overline {X}}}{s_{\Delta {\bar {X}}}}}={\frac {{\overline {X}}_{1}-{\overline {X}}_{2}}{\sqrt {{s_{{\bar {X}}_{1}}^{2}}+{s_{{\bar {X}}_{2}}^{2}}}}}\,}
The effect of Yates's correction is to prevent overestimation of statistical significance for small data. This formula is chiefly used when at least one cell of the table has an expected count smaller than 5. Unfortunately, Yates's correction may tend to overcorrect.
Using Bessel's correction to calculate an unbiased estimate of the population variance from a finite sample of n observations, the formula is: s 2 = ( ∑ i = 1 n x i 2 n − ( ∑ i = 1 n x i n ) 2 ) ⋅ n n − 1 . {\displaystyle s^{2}=\left({\frac {\sum _{i=1}^{n}x_{i}^{2}}{n}}-\left({\frac {\sum _{i=1}^{n}x_{i}}{n}}\right)^{2}\right)\cdot ...
If the sample mean and uncorrected sample variance are defined as X ¯ = 1 n ∑ i = 1 n X i S 2 = 1 n ∑ i = 1 n ( X i − X ¯ ) 2 {\displaystyle {\overline {X}}\,={\frac {1}{n}}\sum _{i=1}^{n}X_{i}\qquad S^{2}={\frac {1}{n}}\sum _{i=1}^{n}{\big (}X_{i}-{\overline {X}}\,{\big )}^{2}\qquad }
The formula for Tukey's test is = | | , where Y A and Y B are the two means being compared, and SE is the standard error for the sum of the means. The value q s is the sample's test statistic.