Exam 15: Systems of Equations: Matrices and Determinants

Solve the system. $\left( \begin{array} { r l } x - 2 y + z & = 13 \\2 x + 3 y - 4 z & = - 14 \\- 2 x - 4 y + 2 z & = 14\end{array} \right)$

Use Cramer s rule to find the solution set for the system. $\left(\begin{array}{l}x&-&y&-&5 z&=&-8 \\5 x&+&6 y&-&7 z&=&-15 \\-x&+&5 y&-&z&=&-8\end{array}\right)$ If the equations of the system are dependent, or if a system is inconsistent, so indicate. In those cases enter dependent or inconsistent .

Solve the homogeneous system. $\left( \begin{array} { r } x - 2 y + 13 z = 0 \\7 x + y - 6 z = 0 \\8 x - y + 7 z = 0\end{array} \right)$ If the equations of the system are dependent, or if a system is inconsistent, so indicate. In those cases enter dependent or inconsistent .

Use Cramer s rule to find the solution set for the system. $\left( \begin{array} { l } 5 x + 3 y = 10 \\4 x - 3 y = 35\end{array} \right)$ If the equations of the system are dependent, or if a system is inconsistent, so indicate. In those cases enter dependent or inconsistent . Otherwise, enter your answer in the form ( x , y ).

Every system of nonlinear equations has either one solution, infinitely many solutions, or no solution.

Solve the system by the substitution or elimination method. $\left( \begin{array} { r l } x ^ { 2 } + y ^ { 2 } & = 44 \\x - y & = 10\end{array} \right)$

Use Cramer s rule to find the solution set for the system. $\left( \begin{array} { c l c c c } x-4 y+5 z & =9 \\-4 x+8 y-5 z & =-16 \\9 x-12 y+10 z & =33\end{array} \right)$ If the equations of the system are dependent, or if a system is inconsistent, so indicate. In those cases enter dependent or inconsistent .

Solve the system by the substitution or elimination method. $\left( \begin{array} { l } 5 x ^ { 2 } + y ^ { 2 } = 20 \\x ^ { 2 } + y ^ { 2 } = 4\end{array} \right)$ Express your answer as an ordered pair. If there is more than one solution, separate your answers with a comma.

Evaluate $2 \times 2$ determinant. $\left| \begin{array} { l l } 4 & 2 \\1 & 5\end{array} \right|$

Evaluate $2 \times 2$ determinant. $\left| \begin{array} { r r } - 2 & - 5 \\- 1 & - 9\end{array} \right|$

Solve the system by the substitution or elimination method. $\left( \begin{array} { l } y = x ^ { 2 } + 6 x + 4 \\2 x + y = - 3\end{array} \right)$

Solve the system. $\left( \begin{array} { r l c } x + 5 y - 4 z & = & - 10 \\5 y - z & = & 6 \\3 y + 3 z & = & 18\end{array} \right)$

Change the augmented matrix of the system to reduced echelon form and then indicate the solutions of the system. $\left( \begin{array} { r } 2 x - 4 y + 3 z = 4 \\3 x + 5 y - z = 3\end{array} \right)$ Use k to express any real number. Enter your answer in the form ( x ( k ), y ( k ), k ).

The matrix is the reduced echelon matrix for a system with variables x 1 , x 2 , x 3 , and x 4 . Find the solution set of the system. $\left[ \begin{array} { l l l l | r } 1 & 0 & 0 & 0 & - 3 \\0 & 1 & 0 & 0 & - 3 \\0 & 0 & 1 & 0 & 15 \\0 & 0 & 0 & 1 & - 6\end{array} \right]$

Use Cramer s rule to find the solution set for the system. $\left( \begin{array} { c c c c } 3 x - 3 y & = & - 12 \\- x + 2 y & = & 9\end{array} \right)$ If the equations of the system are dependent, or if a system is inconsistent, so indicate. In those cases enter dependent or inconsistent . Otherwise, enter your answer in the form ( x , y ).

Use a matrix approach to solve the system. $\left( \begin{array} { r } 2 x + 2 y - z = 8 \\3 x + 3 y + 4 z = 1 \\5 x + y + 4 z = 7\end{array} \right)$ If a system is inconsistent, so indicate. In those cases enter inconsistent . Otherwise, enter your answer in the form ( x , y ).

Solve the system by using either the substitution method or the elimination-by-addition method, whichever seems more appropriate. $\left( \begin{array} { c c c c } x &+& y & = & 1,100 \\0.96 x &+ &0.29 y & = & 654\end{array} \right)$ If the equations of the system are dependent, or if a system is inconsistent, so indicate. In those cases enter dependent or inconsistent . Otherwise, enter your answer as an ordered pair ( x , y ).

Use Cramer s rule to find the solution set for the system. $\left( \begin{array} { r l } 2 x - 3 y & = - 13 \\y & = 5\end{array} \right)$ If the equations of the system are dependent, or if a system is inconsistent, so indicate. In those cases enter dependent or inconsistent . Otherwise, enter your answer in the form ( x , y ).

Solve the system by using either the substitution method or the elimination-by-addition method, whichever seems more appropriate. $\left( \begin{array} { l } x = 3 y + 3 \\x = - 4 y + 5\end{array} \right)$

Solve the system. (4x+3y-3z=29) x-5z=12 5x+5z=0