txt file is free by clicking on the export iconĬite as source (bibliography): Cofactor Matrix on dCode. The copy-paste of the page "Cofactor Matrix" or any of its results, is allowed (even for commercial purposes) as long as you cite dCode!Įxporting results as a. Except explicit open source licence (indicated Creative Commons / free), the "Cofactor Matrix" algorithm, the applet or snippet (converter, solver, encryption / decryption, encoding / decoding, ciphering / deciphering, breaker, translator), or the "Cofactor Matrix" functions (calculate, convert, solve, decrypt / encrypt, decipher / cipher, decode / encode, translate) written in any informatic language (Python, Java, PHP, C#, Javascript, Matlab, etc.) and all data download, script, or API access for "Cofactor Matrix" are not public, same for offline use on PC, mobile, tablet, iPhone or Android app! $$ Cof_(SM_i) $$ Ask a new question Source codeĭCode retains ownership of the "Cofactor Matrix" source code. Otherwise, calculate the adjoint of the matrix using the steps mentioned in the previous heading. Step 2: If the value of the determinant is zero, then the matrix has no inverse. A cofactor is calculated from the minor of the submatrix. To calculate the inverse of a matrix, you can use the following steps: Step 1: Calculate the determinant of the given matrix.
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