原假设

自由度

F统计量

临界值

$H_{OA}$

$r-1$

$F_A=\frac{S_A/\left(r-1\right)}{S_E/rstu\left(m-1\right)}$

$F_{\alpha }\left(r-1,rstu\left(m-1\right)\right)$

$H_{OB}$

$s-1$

$F_B=\frac{S_B/\left(s-1\right)}{S_E/rstu\left(m-1\right)}$

$F_{\alpha }\left(s-1,rstu\left(m-1\right)\right)$

$H_{OC}$

$t-1$

$F_C=\frac{S_C/\left(t-1\right)}{S_E/rstu\left(m-1\right)}$

$F_{\alpha }\left(t-1,rstu\left(m-1\right)\right)$

$H_{OD}$

$u-1$

$F_D=\frac{S_D/\left(u-1\right)}{S_E/rstu\left(m-1\right)}$

$F_{\alpha }\left(u-1,rstu\left(m-1\right)\right)$

$H_{OAB}$

$\left(r-1\right)\left(s-1\right)$

$F_{AB}=\frac{S_{AB}/\left(r-1\right)\left(s-1\right)}{S_E/rstu\left(m-1\right)}$

$F_{\alpha }\left(\left(r-1\right)\left(s-1\right),rstu\left(m-1\right)\right)$

$H_{OAC}$

$\left(r-1\right)\left(t-1\right)$

$F_{AC}=\frac{S_{AC}/\left(r-1\right)\left(t-1\right)}{S_E/rstu\left(m-1\right)}$

$F_{\alpha }\left(\left(r-1\right)\left(t-1\right),rstu\left(m-1\right)\right)$

$H_{OAD}$

$\left(r-1\right)\left(u-1\right)$

$F_{AD}=\frac{S_{AD}/\left(r-1\right)\left(u-1\right)}{S_E/rstu\left(m-1\right)}$

$F_{\alpha }\left(\left(r-1\right)\left(u-1\right),rstu\left(m-1\right)\right)$

$H_{OBC}$

$\left(s-1\right)\left(t-1\right)$

$F_{BC}=\frac{S_{BC}/\left(s-1\right)\left(t-1\right)}{S_E/rstu\left(m-1\right)}$

$F_{\alpha }\left(\left(s-1\right)\left(t-1\right),rstu\left(m-1\right)\right)$

$H_{OBD}$

$\left(s-1\right)\left(u-1\right)$

$F_{BD}=\frac{S_{BD}/\left(s-1\right)\left(u-1\right)}{S_E/rstu\left(m-1\right)}$

$F_{\alpha }\left(\left(s-1\right)\left(u-1\right),rstu\left(m-1\right)\right)$

$H_{OCD}$

$\left(t-1\right)\left(u-1\right)$

$F_{CD}=\frac{S_{CD}/\left(t-1\right)\left(u-1\right)}{S_E/rstu\left(m-1\right)}$

$F_{\alpha }\left(\left(t-1\right)\left(u-1\right),rstu\left(m-1\right)\right)$

$H_{OABC}$

$\left(r-1\right)\left(s-1\right)\left(t-1\right)$

$F_{ABC}=\frac{S_{ABC}/\left(r-1\right)\left(s-1\right)\left(t-1\right)}{S_E/rstu\left(m-1\right)}$

$F_{\alpha }\left(\left(r-1\right)\left(s-1\right)\left(t-1\right),rstu\left(m-1\right)\right)$

$H_{OABD}$

$\left(r-1\right)\left(s-1\right)\left(u-1\right)$

$F_{ABD}=\frac{S_{ABD}/\left(r-1\right)\left(s-1\right)\left(u-1\right)}{S_E/rstu\left(m-1\right)}$

$F_{\alpha }\left(\left(r-1\right)\left(s-1\right)\left(u-1\right),rstu\left(m-1\right)\right)$

$H_{OACD}$

$\left(r-1\right)\left(t-1\right)\left(u-1\right)$

$F_{ACD}=\frac{S_{ACD}/\left(r-1\right)\left(t-1\right)\left(u-1\right)}{S_E/rstu\left(m-1\right)}$

$F_{\alpha }\left(\left(r-1\right)\left(t-1\right)\left(u-1\right),rstu\left(m-1\right)\right)$

$H_{OBCD}$

$\left(s-1\right)\left(t-1\right)\left(u-1\right)$

$F_{BCD}=\frac{S_{BCD}/\left(s-1\right)\left(t-1\right)\left(u-1\right)}{S_E/rstu\left(m-1\right)}$

$F_{\alpha }\left(\left(s-1\right)\left(t-1\right)\left(u-1\right),rstu\left(m-1\right)\right)$

$H_{OABCD}$

$\left(r-1\right)\left(s-1\right)\left(t-1\right)\left(u-1\right)$

$F_{ABCD}=\frac{S_{ABCD}/\left(r-1\right)\left(s-1\right)\left(t-1\right)\left(u-1\right)}{S_E/rstu\left(m-1\right)}$

$F_{\alpha }\left(\left(r-1\right)\left(s-1\right)\left(t-1\right)\left(u-1\right),rstu\left(m-1\right)\right)$