Lineare Algebra Beispiele

Choose the row or column with the most ${\displaystyle 0}$ elements. If there are no ${\displaystyle 0}$ elements choose any row or column. Multiply every element in row ${\displaystyle 1}$ by its cofactor and add.

Berechne ${\displaystyle \left|\begin{array}{cc}-\frac{7}{3}& \frac{1}{2}\\ 2& -1\end{array}\right|}$.

Berechne ${\displaystyle \left|\begin{array}{cc}3& \frac{1}{2}\\ 1& -1\end{array}\right|}$.

Berechne ${\displaystyle \left|\begin{array}{cc}3& -\frac{7}{3}\\ 1& 2\end{array}\right|}$.

Vereinfache die Determinante.

Multiply each element of ${\displaystyle R_1}$ by ${\displaystyle \frac{2}{9}}$ to make the entry at ${\displaystyle 1,1}$ a ${\displaystyle 1}$.

Perform the row operation ${\displaystyle R_2=R_2-3R_1}$ to make the entry at ${\displaystyle 2,1}$ a ${\displaystyle 0}$.

Perform the row operation ${\displaystyle R_3=R_3-R_1}$ to make the entry at ${\displaystyle 3,1}$ a ${\displaystyle 0}$.

Multiply each element of ${\displaystyle R_2}$ by ${\displaystyle -\frac{9}{23}}$ to make the entry at ${\displaystyle 2,2}$ a ${\displaystyle 1}$.

Perform the row operation ${\displaystyle R_3=R_3-\frac{52}{27}{R}_2}$ to make the entry at ${\displaystyle 3,2}$ a ${\displaystyle 0}$.

Multiply each element of ${\displaystyle R_3}$ by ${\displaystyle \frac{69}{7}}$ to make the entry at ${\displaystyle 3,3}$ a ${\displaystyle 1}$.

Perform the row operation ${\displaystyle R_2=R_2+\frac{21}{46}{R}_3}$ to make the entry at ${\displaystyle 2,3}$ a ${\displaystyle 0}$.

Perform the row operation ${\displaystyle R_1=R_1+\frac{2}{9}{R}_3}$ to make the entry at ${\displaystyle 1,3}$ a ${\displaystyle 0}$.

Perform the row operation ${\displaystyle R_1=R_1-\frac{2}{27}{R}_2}$ to make the entry at ${\displaystyle 1,2}$ a ${\displaystyle 0}$.