Mathematics
         
语言:中文    Language:English
Get the inverse matrix:
    Enter an invertible matrix, with each element separated by a comma and each row ending with a semicolon.
    Note that mathematical functions and variables are not supported.
    Current location:Linear algebra >Inverse matrix >History of inverse matrices >Answer

$$\begin{aligned}&\\ \color{black}{Calcu}&\color{black}{late\ the\ inverse\ matrix\ of\ } \ \ \begin{pmatrix} &1\ &2\ &3\ &4\ &5\ \\ &6\ &7\ &8\ &9\ &10\ \\ &11\ &12\ &13\ &14\ &15\ \\ &16\ &17\ &18\ &19\ &20\ \\ &21\ &22\ &23\ &24\ &25\ \end{pmatrix}\color{black}{\ .}\\ \\Solu&tion:\\ &\begin{pmatrix} &1\ &2\ &3\ &4\ &5\ \\ &6\ &7\ &8\ &9\ &10\ \\ &11\ &12\ &13\ &14\ &15\ \\ &16\ &17\ &18\ &19\ &20\ \\ &21\ &22\ &23\ &24\ &25\ \end{pmatrix}\\\\&\color{grey}{Using\ the\ elementary\ transformation\ of\ the\ matrix\ to\ find\ the\ inverse\ matrix:}\\&\left (\begin{array} {cccccc | ccccc} &1\ &2\ &3\ &4\ &5\ &1\ &0\ &0\ &0\ &0\ \\ &6\ &7\ &8\ &9\ &10\ &0\ &1\ &0\ &0\ &0\ \\ &11\ &12\ &13\ &14\ &15\ &0\ &0\ &1\ &0\ &0\ \\ &16\ &17\ &18\ &19\ &20\ &0\ &0\ &0\ &1\ &0\ \\ &21\ &22\ &23\ &24\ &25\ &0\ &0\ &0\ &0\ &1\ \\\end{array} \right )\\\\&\color{grey}{Transfprming\ a\ known\ matrix\ into\ an\ upper\ triangular\ matrix :}\\\\->\ \ &\left (\begin{array} {cccccc | ccccc} &1\ &2\ &3\ &4\ &5\ &1\ &0\ &0\ &0\ &0\ \\ &0\ &-5\ &-10\ &-15\ &-20\ &-6\ &1\ &0\ &0\ &0\ \\ &0\ &-10\ &-20\ &-30\ &-40\ &-11\ &0\ &1\ &0\ &0\ \\ &0\ &-15\ &-30\ &-45\ &-60\ &-16\ &0\ &0\ &1\ &0\ \\ &0\ &-20\ &-40\ &-60\ &-80\ &-21\ &0\ &0\ &0\ &1\ \\\end{array} \right )\\\\->\ \ &\left (\begin{array} {cccccc | ccccc} &1\ &2\ &3\ &4\ &5\ &1\ &0\ &0\ &0\ &0\ \\ &0\ &-5\ &-10\ &-15\ &-20\ &-6\ &1\ &0\ &0\ &0\ \\ &0\ &0\ &0\ &0\ &0\ &1\ &-2\ &1\ &0\ &0\ \\ &0\ &0\ &0\ &0\ &0\ &2\ &-3\ &0\ &1\ &0\ \\ &0\ &0\ &0\ &0\ &0\ &3\ &-4\ &0\ &0\ &1\ \\\end{array} \right )\\\ \ &\color{red}{This\ matrix\ is\ an\ irreversible\ matrix.}\end{aligned}$$

你的问题在这里没有得到解决?请到 热门难题 里面看看吧!


Elementary transformations of matrices:


Definition:Applying the following three transformations to the rows (columns) of a matrix becomes the elementary transformation of the matrix
(1) Swap the positions of two rows (columns) in a matrix;
(2) Using non-zero constants λ Multiply a certain row (column) of a matrix;
(3) Convert a row (column) of a matrix γ Multiply to another row (column) of the matrix.



  New addition:Lenders ToolBox module(Specific location:Math OP > Lenders ToolBox ),welcome。