| * 20 c 0& xyz & x - z y - x &0& y - z z - x & z - y &0 | is equal to…………….

We have, | * 20 c 0& xyz & x - z y - x &0& y - z z - x & z - y &0 | = | * 20 c z - x & xyz & x - z z - x &0& y - z z - x & z - y &0 | = (z - x) | * 20 c 1& xyz & x - z 1&0& y - z 1& z - v &0 | [taking (z - x) common from column 1] Expanding along R 1 , = (z - x)[1 - (y - z)(z - y) - xyz(z - y) + (x - z)(z - y)] = (z - x)(z - y)( - y + z - xyz + x - z) = (z - x)(z - y)(x - y - xyz) = (z - x)(y - z)(y - x + xyz)

Determinants — Class 12 Maths Solution

exemplar fill FillBlank NCERT,Exemp,Q.46, Page.83

Question

$\left| {\begin{array}{cccccccccccccccccccc}0&{xyz}&{x - z}\\{y - x}&0&{y - z}\\{z - x}&{z - y}&0\end{array}} \right|$ is equal to…………….

Step-by-step Solution

We have, $\left| {\begin{array}{cccccccccccccccccccc}0&{xyz}&{x - z}\\{y - x}&0&{y - z}\\{z - x}&{z - y}&0\end{array}} \right| = \left| {\begin{array}{cccccccccccccccccccc}{z - x}&{xyz}&{x - z}\\{z - x}&0&{y - z}\\{z - x}&{z - y}&0\end{array}} \right|$

$= (z - x)\left| {\begin{array}{cccccccccccccccccccc}1&{xyz}&{x - z}\\1&0&{y - z}\\1&{z - v}&0\end{array}} \right|$

[taking $(z - x)$ common from column 1]
Expanding along ${R_1}$,

$= (z - x)[1 \cdot \{ - (y - z)(z - y)\} - xyz(z - y) + (x - z)(z - y)]$

$= (z - x)(z - y)( - y + z - xyz + x - z)$

$= (z - x)(z - y)(x - y - xyz)$

$= (z - x)(y - z)(y - x + xyz)$

← All Determinants solutions Practice tests →

NCERT & Exemplar solution for CBSE Class 12 Mathematics, Determinants. Curated by Sachin Sharma. Free for all students.