行列の計算則   積について(2)

${\displaystyle A}$ が ${\displaystyle k\times l}$ 行列， ${\displaystyle B}$ が ${\displaystyle l\times m}$ 行列， ${\displaystyle C}$ が ${\displaystyle m\times n}$行列ならば

${\displaystyle \left(AB\right)C=A\left(BC\right)}$

■証明

${\displaystyle A=\left(\begin{array}{cccc}{a}_{11}& a_{12}& \cdots & a_{1l}\\ a_{21}& a_{22}& \cdots & a_{2l}\\ ⋮& ⋮& \ddots & ⋮\\ a_{k1}& a_{k2}& \cdots & a_{kl}\end{array}\right)}$   ${\displaystyle k\times l}$行列

${\displaystyle B=\left(\begin{array}{cccc}{b}_{11}& b_{12}& \cdots & b_{1m}\\ b_{21}& b_{22}& \cdots & b_{2m}\\ ⋮& ⋮& \ddots & ⋮\\ b_{l1}& b_{l2}& \cdots & b_{lm}\end{array}\right)}$    ${\displaystyle l\times m}$行列

${\displaystyle C=\left(\begin{array}{cccc}{c}_{11}& c_{12}& \cdots & c_{1n}\\ c_{21}& c_{22}& \cdots & c_{2n}\\ ⋮& ⋮& \ddots & ⋮\\ c_{m1}& c_{m2}& \cdots & c_{mn}\end{array}\right)}$  ${\displaystyle m\times n}$行列

${\displaystyle AB=D=\left(d_{ij}\right)}$  ただし${\displaystyle d_{ij}={\displaystyle \sum _{h=1}^l{a}_{ih}{b}_{hj}}}$ ${\displaystyle D}$は${\displaystyle k\times m}$ 行列

${\displaystyle BC=E=\left(e_{ij}\right)}$  ただし${\displaystyle e_{ij}={\displaystyle \sum _{g=1}^m{b}_{ig}{c}_{gj}}}$  ${\displaystyle E}$は${\displaystyle l\times h}$ 行列

とし，

${\displaystyle \left(AB\right)C=DC=X=\left(x_{ij}\right)}$    ${\displaystyle X}$は${\displaystyle k\times n}$行列

${\displaystyle A\left(BC\right)=AE=Y=\left(y_{ij}\right)}$    ${\displaystyle Y}$は${\displaystyle k\times n}$ 行列

とする．

${\displaystyle x_{ij}={\displaystyle \sum _{g=1}^m{d}_{ig}{c}_{gj}}}$${\displaystyle ={\displaystyle \sum _{g=1}^m\left({\displaystyle \sum _{h=1}^l{a}_{ih}{b}_{hg}}\right)c_{gj}}}$

${\displaystyle ={\displaystyle \sum _{g=1}^m\left(\left(a_{i1}{b}_{1g}+a_{i2}{b}_{2g}+\cdots +a_{il}{b}_{\lg }\right)c_{gj}\right)}}$

${\displaystyle =\left(a_{i1}{b}_{11}+a_{i2}{b}_{21}+\cdots +a_{il}{b}_{l1}\right)c_{1j}}$
${\displaystyle +\left(a_{i1}{b}_{12}+a_{i2}{b}_{22}+\cdots +a_{il}{b}_{l2}\right)c_{2j}}$
${\displaystyle +\cdots }$
${\displaystyle +\left(a_{i1}{b}_{1m}+a_{i2}{b}_{2m}+\cdots +a_{il}{b}_{lm}\right)c_{mj}}$

${\displaystyle =a_{i1}{b}_{11}{c}_{1j}+a_{i2}{b}_{21}{c}_{1j}+\cdots +a_{il}{b}_{l1}{c}_{1j}}$
${\displaystyle +a_{i1}{b}_{12}{c}_{2j}+a_{i2}{b}_{22}{c}_{2j}+\cdots +a_{il}{b}_{l2}{c}_{2j}}$
${\displaystyle +\cdots }$
${\displaystyle +a_{i1}{b}_{1m}{c}_{mj}+a_{i2}{b}_{2m}{c}_{mj}+\cdots +a_{il}{b}_{lm}{c}_{mj}}$

${\displaystyle =a_{i1}\left(b_{11}{c}_{1j}+b_{12}{c}_{2j}+\cdots +b_{1m}{c}_{mj}\right)}$
${\displaystyle +a_{i2}\left(b_{21}{c}_{1j}+b_{22}{c}_{2j}+\cdots +b_{2m}{c}_{mj}\right)}$
${\displaystyle +\cdots }$
${\displaystyle +a_{il}\left(b_{l1}{c}_{1j}+b_{l2}{c}_{2j}+\cdots +b_{lm}{c}_{mj}\right)}$

${\displaystyle ={\displaystyle \sum _{h=1}^l{a}_{ih}\left(b_{h1}{c}_{1j}+b_{h2}{c}_{2j}+\cdots +b_{hm}{c}_{mj}\right)}}$

${\displaystyle ={\displaystyle \sum _{h=1}^l{a}_{ih}\left({\displaystyle \sum _{g=1}^m{b}_{hg}{c}_{gj}}\right)}}$

${\displaystyle ={\displaystyle \sum _{h=1}^l{a}_{ih}{e}_{hj}}}$

${\displaystyle =y_{ij}}$

すなわち

${\displaystyle x_{ij}=y_{ij}}$

となり

${\displaystyle \left(AB\right)C=A\left(BC\right)}$

が成り立つ．

ホーム>>カテゴリー分類>>行列>>線形代数>>行列の計算則>>行列の計算則について(2)

最終更新日： 2019年7月8日