Chapter 10.3, Problem 53E

To determine

To solve: the system of linear equations

Answer to Problem 53E

The solution to the above system is equal to $\left(\frac{7}{4}-\frac{7}{4}t,\frac{3}{4}t-\frac{7}{4},\frac{9}{4}+\frac{3}{4}t,t\right)$ where t is any real number.

Explanation of Solution

Given:

Consider the system of equations

  $\{\begin{array}{l}x+z+w=4\\ y-z=3\\ x-\text{2}y+3z+w=12\\ 2x-2z+5w=-1\end{array}$

Calculation:

Consider the following system of equations:

  $\begin{array}{l}x+z+w=4\\ y-z=3\\ x-\text{2}y+3z+w=12\\ 2x-2z+5w=-1\end{array}$

First translate the system of equations above into an augmented matrix as shown below:

  $\left[\begin{array}{ccccc}1& 0& 1& 1& 4\\ 0& 1& -1& 0& -4\\ 1& -2& 3& 1& 12\\ 2& 0& -2& 5& -1\end{array}\right]$

Next use elementary row operations to convert the matrix into row echelon form.

To do this, start with the following row operation:

The fourth row corresponds to the equation $0=0$ .

This equation is always true, no matter what values are used for x, y, z and w. Since the equation adds no new information about the variables, drop it from the system.

So the last matrix corresponds to the system is

  $\begin{array}{l}x+z+w=4\text{ Equation 1}\\ y-z=-4\text{ Equation 2}\\ z-\frac{3}{4}w=\frac{9}{4}\text{ Equation 3}\end{array}$

Since z is not a leading variable

Therefore, it has infinitely many solutions.

Thus, the system is dependent.

Because $0=0$ , conclude that there are infinitely many solutions to the system above.

Because set $w=t$ , solve for z as shown below:

  $\begin{array}{l}z-\frac{3}{4}w=\frac{9}{4}\text{ Equation 3}\\ z-\frac{3}{4}t=\frac{9}{4}\text{ Substitute }w=t\\ z=\frac{9}{4}+\frac{3}{4}t\end{array}$

Next solve for y as shown below:

  $\begin{array}{l}y-z=-4\text{ Equation 2}\\ y-\frac{9}{4}-\frac{3}{4}t=-4\text{ Substitute }z=\frac{9}{4}+\frac{3}{4}t\\ y=\frac{3}{4}t-\frac{7}{4}\end{array}$

Next solve for x as shown below:

  $\begin{array}{l}x+z+w=4\text{ Equation 1}\\ x+\left(\frac{9}{4}+\frac{3}{4}t\right)+t=4\text{ Substitute }z=\frac{9}{4}+\frac{3}{4}\mathrm{t}\text{ and }w=t\\ x+\frac{9}{4}+\frac{7}{4}t=4\\ x=\frac{7}{4}-\frac{7}{4}t\end{array}$

Therefore, the solution to the above system is equal to $\left(\frac{7}{4}-\frac{7}{4}t,\frac{3}{4}t-\frac{7}{4},\frac{9}{4}+\frac{3}{4}t,t\right)$ where t is any real number.

Conclusion:

Therefore, the solution to the above system is equal to $\left(\frac{7}{4}-\frac{7}{4}t,\frac{3}{4}t-\frac{7}{4},\frac{9}{4}+\frac{3}{4}t,t\right)$ where t is any real number.