9.6 Solving systems with gaussian elimination (Page 3/13)

Precalculus

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Solving a $2 \times 2$ System by gaussian elimination

Solve the given system by Gaussian elimination.

\begin{array}{l} 2 x + 3 y = 6 \\ x - y = \frac{1}{2} \end{array}

First, we write this as an augmented matrix.

[\begin{array}{r} 2 & 3 \\ 1 & −1 \end{array} | \begin{array}{r} 6 \\ \frac{1}{2} \end{array}]

We want a 1 in row 1, column 1. This can be accomplished by interchanging row 1 and row 2.

R_{1} \leftrightarrow R_{2} \to [\begin{array}{r} 1 & −1 \\ 2 & 3 \end{array} | \begin{array}{r} \frac{1}{2} \\ 6 \end{array}]

We now have a 1 as the first entry in row 1, column 1. Now let’s obtain a 0 in row 2, column 1. This can be accomplished by multiplying row 1 by $−2,$ and then adding the result to row 2.

−2 R_{1} + R_{2} = R_{2} \to [\begin{array}{r} 1 & −1 \\ 0 & 5 \end{array} | \begin{array}{r} \frac{1}{2} \\ 5 \end{array}]

We only have one more step, to multiply row 2 by $\frac{1}{5} .$

\frac{1}{5} R_{2} = R_{2} \to [\begin{array}{r} 1 & −1 \\ 0 & 1 \end{array} | \begin{matrix} \frac{1}{2} \\ 1 \end{matrix}]

Use back-substitution. The second row of the matrix represents $y = 1.$ Back-substitute $y = 1$ into the first equation.

\begin{array}{l} x - (1) = \frac{1}{2} \\ x = \frac{3}{2} \end{array}

The solution is the point $(\frac{3}{2}, 1) .$

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Solve the given system by Gaussian elimination.

\begin{array}{l} 4 x + 3 y = 11 \\ x −3 y = −1 \end{array}

$(2, 1)$

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Using gaussian elimination to solve a system of equations

Use Gaussian elimination to solve the given $2 \times 2$ system of equations .

\begin{array}{l} 2 x + y = 1 \\ 4 x + 2 y = 6 \end{array}

Write the system as an augmented matrix .

[\begin{array}{l} 2 & 1 \\ 4 & 2 \end{array} | \begin{array}{l} 1 \\ 6 \end{array}]

Obtain a 1 in row 1, column 1. This can be accomplished by multiplying the first row by $\frac{1}{2} .$

\frac{1}{2} R_{1} = R_{1} \to [\begin{matrix} 1 & \frac{1}{2} \\ 4 & 2 \end{matrix} | \begin{matrix} \frac{1}{2} \\ 6 \end{matrix}]

Next, we want a 0 in row 2, column 1. Multiply row 1 by $−4$ and add row 1 to row 2.

−4 R_{1} + R_{2} = R_{2} \to [\begin{matrix} 1 & \frac{1}{2} \\ 0 & 0 \end{matrix} | \begin{matrix} \frac{1}{2} \\ 4 \end{matrix}]

The second row represents the equation $0 = 4.$ Therefore, the system is inconsistent and has no solution.

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Solving a dependent system

Solve the system of equations.

\begin{array}{l} 3 x + 4 y = 12 \\ 6 x + 8 y = 24 \end{array}

Perform row operations on the augmented matrix to try and achieve row-echelon form .

A = [\begin{array}{l} 3 & 4 \\ 6 & 8 \end{array} | \begin{array}{l} 12 \\ 24 \end{array}]

\begin{array}{l} \begin{array}{l} - \frac{1}{2} R_{2} + R_{1} = R_{1} \to [\begin{array}{l} 0 & 0 \\ 6 & 8 \end{array} | \begin{array}{l} 0 \\ 24 \end{array}] \\ R_{1} \leftrightarrow R_{2} \to [\begin{array}{l} 6 & 8 \\ 0 & 0 \end{array} | \begin{array}{l} 24 \\ 0 \end{array}] \end{array} \end{array}

The matrix ends up with all zeros in the last row: $0 y = 0.$ Thus, there are an infinite number of solutions and the system is classified as dependent. To find the generic solution, return to one of the original equations and solve for $y .$

\begin{array}{l} 3 x + 4 y = 12 \\ 4 y = 12 −3 x \\ y = 3 - \frac{3}{4} x \end{array}

So the solution to this system is $(x, 3 - \frac{3}{4} x) .$

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Performing row operations on a 3×3 augmented matrix to obtain row-echelon form

Perform row operations on the given matrix to obtain row-echelon form.

[\begin{array}{r} 1 & −3 & 4 \\ 2 & −5 & 6 \\ −3 & 3 & 4 \end{array} | \begin{array}{r} 3 \\ 6 \\ 6 \end{array}]

The first row already has a 1 in row 1, column 1. The next step is to multiply row 1 by $−2$ and add it to row 2. Then replace row 2 with the result.

−2 R_{1} + R_{2} = R_{2} \to [\begin{array}{r} 1 & −3 & 4 \\ 0 & 1 & −2 \\ −3 & 3 & 4 \end{array} | \begin{array}{r} 3 \\ 0 \\ 6 \end{array}]

Next, obtain a zero in row 3, column 1.

3 R_{1} + R_{3} = R_{3} \to [\begin{array}{r} 1 & −3 & 4 \\ 0 & 1 & −2 \\ 0 & −6 & 16 \end{array} | \begin{array}{r} 3 \\ 0 \\ 15 \end{array}]

Next, obtain a zero in row 3, column 2.

6 R_{2} + R_{3} = R_{3} \to [\begin{array}{r} 1 & −3 & 4 \\ 0 & 1 & −2 \\ 0 & 0 & 4 \end{array} | \begin{array}{r} 3 \\ 0 \\ 15 \end{array}]

The last step is to obtain a 1 in row 3, column 3.

\frac{1}{2} R_{3} = R_{3} \to [\begin{array}{r} 1 & −3 & 4 \\ 0 & 1 & −2 \\ 0 & 0 & 1 \end{array} | \begin{array}{r} 3 \\ −6 \\ \frac{21}{2} \end{array}]

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Write the system of equations in row-echelon form.

\begin{array}{l} x - 2 y + 3 z = 9 \\ - x + 3 y = - 4 \\ 2 x - 5 y + 5 z = 17 \end{array}

$[\begin{matrix} 1 & - \frac{5}{2} & \frac{5}{2} \\ 0 & 1 & 5 \\ 0 & 0 & 1 \end{matrix} | \begin{matrix} \frac{17}{2} \\ 9 \\ 2 \end{matrix}]$

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Solving a system of linear equations using matrices

We have seen how to write a system of equations with an augmented matrix , and then how to use row operations and back-substitution to obtain row-echelon form . Now, we will take row-echelon form a step farther to solve a 3 by 3 system of linear equations. The general idea is to eliminate all but one variable using row operations and then back-substitute to solve for the other variables.

Solving a system of linear equations using matrices

Solve the system of linear equations using matrices.

\begin{matrix} \begin{array}{l} x - y + z = 8 \end{array} \\ 2 x + 3 y - z = −2 \\ 3 x - 2 y - 9 z = 9 \end{matrix}

First, we write the augmented matrix.

[\begin{array}{r} 1 & - 1 & 1 \\ 2 & 3 & - 1 \\ 3 & - 2 & - 9 \end{array} | \begin{array}{r} 8 \\ - 2 \\ 9 \end{array}]

Next, we perform row operations to obtain row-echelon form.

\begin{array}{r} - 2 R_{1} + R_{2} = R_{2} \to [\begin{array}{r} 1 & - 1 & 1 \\ 0 & 5 & - 3 \\ 3 & - 2 & - 9 \end{array} | \begin{array}{r} 8 \\ - 18 \\ 9 \end{array}] & - 3 R_{1} + R_{3} = R_{3} \to [\begin{array}{r} 1 & - 1 & 1 \\ 0 & 5 & - 3 \\ 0 & 1 & - 12 \end{array} | \begin{array}{r} 8 \\ - 18 \\ - 15 \end{array}] \end{array}

The easiest way to obtain a 1 in row 2 of column 1 is to interchange $R_{2}$ and $R_{3} .$

Interchange R_{2} and R_{3} \to [\begin{array}{r} 1 & −1 & 1 & 8 \\ 0 & 1 & −12 & −15 \\ 0 & 5 & −3 & −18 \end{array}]

Then

\begin{array}{l} \begin{array}{r} −5 R_{2} + R_{3} = R_{3} \to [\begin{array}{r} 1 & −1 & 1 \\ 0 & 1 & −12 \\ 0 & 0 & 57 \end{array} | \begin{array}{r} 8 \\ −15 \\ 57 \end{array}] & - \frac{1}{57} R_{3} = R_{3} \to [\begin{array}{r} 1 & −1 & 1 \\ 0 & 1 & −12 \\ 0 & 0 & 1 \end{array} | \begin{array}{r} 8 \\ −15 \\ 1 \end{array}] \end{array} \end{array}

The last matrix represents the equivalent system.

\begin{array}{l} x - y + z = 8 \\ y - 12 z = −15 \\ z = 1 \end{array}

Using back-substitution, we obtain the solution as $(4, −3, 1) .$

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Source: OpenStax, Precalculus. OpenStax CNX. Jan 19, 2016 Download for free at https://legacy.cnx.org/content/col11667/1.6

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9.6 Solving systems with gaussian elimination (Page 3/13)

Solving a 2 × 2 System by gaussian elimination

Using gaussian elimination to solve a system of equations

Solving a dependent system

Performing row operations on a 3×3 augmented matrix to obtain row-echelon form

Solving a system of linear equations using matrices

Solving a system of linear equations using matrices

Questions & Answers

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Solving a $2 \times 2$ System by gaussian elimination