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# 11.5: Solving Systems of Nonlinear Equations

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1. Solve the system by graphing: {x−3y=−3x+y=5.{x−3y=−3x+y=5.
2. If you missed this problem, review [link].
3. Solve the system by substitution: {x−4y=−4−3x+4y=0.{x−4y=−4−3x+4y=0.

If you missed this problem, review [link].

4. Solve the system by elimination: {3x−4y=−95x+3y=14.{3x−4y=−95x+3y=14.

If you missed this problem, review [link].

# Solve a System of Nonlinear Equations Using Graphing

We learned how to solve systems of linear equations with two variables by graphing, substitution and elimination. We will be using these same methods as we look at nonlinear systems of equations with two equations and two variables. A system of nonlinear equations is a system where at least one of the equations is not linear.

For example each of the following systems is a system of nonlinear equations.

{x2+y2=9x2−y=9{9x2+y2=9y=3x−3{x+y=4y=x2+2{x2+y2=9x2−y=9{9x2+y2=9y=3x−3{x+y=4y=x2+2

system of nonlinear equations is a system where at least one of the equations is not linear.

Just as with systems of linear equations, a solution of a nonlinear system is an ordered pair that makes both equations true. In a nonlinear system, there may be more than one solution. We will see this as we solve a system of nonlinear equations by graphing. When we solved systems of linear equations, the solution of the system was the point of intersection of the two lines. With systems of nonlinear equations, the graphs may be circles, parabolas or hyperbolas and there may be several points of intersection, and so several solutions. Once you identify the graphs, visualize the different ways the graphs could intersect and so how many solutions there might be.

To solve systems of nonlinear equations by graphing, we use basically the same steps as with systems of linear equations modified slightly for nonlinear equations. The steps are listed below for reference.

SOLVE A SYSTEM OF NONLINEAR EQUATIONS BY GRAPHING.

1. Identify the graph of each equation. Sketch the possible options for intersection.
2. Graph the first equation.
3. Graph the second equation on the same rectangular coordinate system.
4. Determine whether the graphs intersect.
5. Identify the points of intersection.
6. Check that each ordered pair is a solution to both original equations.

Solve the system by graphing: {x−y=−2y=x2.{x−y=−2y=x2.

Solve the system by graphing: {x+y=4y=x2+2.{x+y=4y=x2+2.

Solve the system by graphing: {x−y=−1y=−x2+3.{x−y=−1y=−x2+3.

To identify the graph of each equation, keep in mind the characteristics of the x2x2 and y2y2 terms of each conic.

Solve the system by graphing: {y=−1(x−2)2+(y+3)2=4.{y=−1(x−2)2+(y+3)2=4.

Solve the system by graphing: {x=−6(x+3)2+(y−1)2=9.{x=−6(x+3)2+(y−1)2=9.

Solve the system by graphing: {y=4(x−2)2+(y+3)2=4.{y=4(x−2)2+(y+3)2=4.

# Solve a System of Nonlinear Equations Using Substitution

The graphing method works well when the points of intersection are integers and so easy to read off the graph. But more often it is difficult to read the coordinates of the points of intersection. The substitution method is an algebraic method that will work well in many situations. It works especially well when it is easy to solve one of the equations for one of the variables.

The substitution method is very similar to the substitution method that we used for systems of linear equations. The steps are listed below for reference.

SOLVE A SYSTEM OF NONLINEAR EQUATIONS BY SUBSTITUTION.

1. Identify the graph of each equation. Sketch the possible options for intersection.
2. Solve one of the equations for either variable.
3. Substitute the expression from Step 2 into the other equation.
4. Solve the resulting equation.
5. Substitute each solution in Step 4 into one of the original equations to find the other variable.
6. Write each solution as an ordered pair.
7. Check that each ordered pair is a solution to both original equations.

Solve the system by using substitution: {9x2+y2=9y=3x−3.{9x2+y2=9y=3x−3.

Solve the system by using substitution: {x2+9y2=9y=13x−3.{x2+9y2=9y=13x−3.

Solve the system by using substitution: {4x2+y2=4y=x+2.{4x2+y2=4y=x+2.

So far, each system of nonlinear equations has had at least one solution. The next example will show another option.

Solve the system by using substitution: {x2−y=0y=x−2.{x2−y=0y=x−2.

Solve the system by using substitution: {x2−y=0y=2x−3.{x2−y=0y=2x−3.

Solve the system by using substitution: {y2−x=0y=3x−2.{y2−x=0y=3x−2.

# Solve a System of Nonlinear Equations Using Elimination

When we studied systems of linear equations, we used the method of elimination to solve the system. We can also use elimination to solve systems of nonlinear equations. It works well when the equations have both variables squared. When using elimination, we try to make the coefficients of one variable to be opposites, so when we add the equations together, that variable is eliminated.

The elimination method is very similar to the elimination method that we used for systems of linear equations. The steps are listed for reference.

SOLVE A SYSTEM OF EQUATIONS BY ELIMINATION.

1. Identify the graph of each equation. Sketch the possible options for intersection.
2. Write both equations in standard form.
3. Make the coefficients of one variable opposites.

Decide which variable you will eliminate.

Multiply one or both equations so that the coefficients of that variable are opposites.
4. Add the equations resulting from Step 3 to eliminate one variable.
5. Solve for the remaining variable.
6. Substitute each solution from Step 5 into one of the original equations. Then solve for the other variable.
7. Write each solution as an ordered pair.
8. Check that each ordered pair is a solution to both original equations.

Solve the system by elimination: {x2+y2=4x2−y=4.{x2+y2=4x2−y=4.

Solve the system by elimination: {x2+y2=9x2−y=9.{x2+y2=9x2−y=9.

Solve the system by elimination: {x2+y2=1−x+y2=1.{x2+y2=1−x+y2=1.

There are also four options when we consider a circle and a hyperbola.

Solve the system by elimination: {x2+y2=7x2−y2=1.{x2+y2=7x2−y2=1.

Solve the system by elimination: {x2+y2=25y2−x2=7.{x2+y2=25y2−x2=7.

Solve the system by elimination: {x2+y2=4x2−y2=4.{x2+y2=4x2−y2=4.

# Use a System of Nonlinear Equations to Solve Applications

Systems of nonlinear equations can be used to model and solve many applications. We will look at an everyday geometric situation as our example.

The difference of the squares of two numbers is 15. The sum of the numbers is 5. Find the numbers.

The difference of the squares of two numbers is −20.−20. The sum of the numbers is 10. Find the numbers.

The difference of the squares of two numbers is 35. The sum of the numbers is −1.−1. Find the numbers.

Myra purchased a small 25” TV for her kitchen. The size of a TV is measured on the diagonal of the screen. The screen also has an area of 300 square inches. What are the length and width of the TV screen?

Edgar purchased a small 20” TV for his garage. The size of a TV is measured on the diagonal of the screen. The screen also has an area of 192 square inches. What are the length and width of the TV screen?

The Harper family purchased a small microwave for their family room. The diagonal of the door measures 15 inches. The door also has an area of 108 square inches. What are the length and width of the microwave door?

Access these online resources for additional instructions and practice with solving nonlinear equations.

# Key Concepts

• How to solve a system of nonlinear equations by graphing.
1. Identify the graph of each equation. Sketch the possible options for intersection.
2. Graph the first equation.
3. Graph the second equation on the same rectangular coordinate system.
4. Determine whether the graphs intersect.
5. Identify the points of intersection.
6. Check that each ordered pair is a solution to both original equations.
• How to solve a system of nonlinear equations by substitution.
1. Identify the graph of each equation. Sketch the possible options for intersection.

2. Solve one of the equations for either variable.
3. Substitute the expression from Step 2 into the other equation.
4. Solve the resulting equation.
5. Substitute each solution in Step 4 into one of the original equations to find the other variable.
6. Write each solution as an ordered pair.
7. Check that each ordered pair is a solution to both original equations.
• How to solve a system of equations by elimination.
1. Identify the graph of each equation. Sketch the possible options for intersection.
2. Write both equations in standard form.
3. Make the coefficients of one variable opposites.

Decide which variable you will eliminate.

Multiply one or both equations so that the coefficients of that variable are opposites.
4. Add the equations resulting from Step 3 to eliminate one variable.
5. Solve for the remaining variable.
6. Substitute each solution from Step 5 into one of the original equations. Then solve for the other variable.
7. Write each solution as an ordered pair.
8. Check that each ordered pair is a solution to both original equations.

## Practice Makes Perfect

Solve a System of Nonlinear Equations Using Graphing

In the following exercises, solve the system of equations by using graphing.

{y=2x+2y=−x2+2{y=2x+2y=−x2+2

{y=6x−4y=2x2{y=6x−4y=2x2

{x+y=2x=y2{x+y=2x=y2

{x−y=−2x=y2{x−y=−2x=y2

{y=32x+3y=−x2+2{y=32x+3y=−x2+2

{y=x−1y=x2+1{y=x−1y=x2+1

{x=−2x2+y2=4{x=−2x2+y2=4

{y=−4x2+y2=16{y=−4x2+y2=16

{x=2(x+2)2+(y+3)2=16{x=2(x+2)2+(y+3)2=16

{y=−1(x−2)2+(y−4)2=25{y=−1(x−2)2+(y−4)2=25

{y=−2x+4y=x√+1{y=−2x+4y=x+1

{y=−12x+2y=x√−2{y=−12x+2y=x−2

Solve a System of Nonlinear Equations Using Substitution

In the following exercises, solve the system of equations by using substitution.

{x2+4y2=4y=12x−1{x2+4y2=4y=12x−1

{9x2+y2=9y=3x+3{9x2+y2=9y=3x+3

{9x2+y2=9y=x+3{9x2+y2=9y=x+3

{9x2+4y2=36x=2{9x2+4y2=36x=2

{4x2+y2=4y=4{4x2+y2=4y=4

{x2+y2=169x=12{x2+y2=169x=12

{3x2−y=0y=2x−1{3x2−y=0y=2x−1

{2y2−x=0y=x+1{2y2−x=0y=x+1

{y=x2+3y=x+3{y=x2+3y=x+3

{y=x2−4y=x−4{y=x2−4y=x−4

{x2+y2=25x−y=1{x2+y2=25x−y=1

{x2+y2=252x+y=10{x2+y2=252x+y=10

Solve a System of Nonlinear Equations Using Elimination

In the following exercises, solve the system of equations by using elimination.

{x2+y2=16x2−2y=8{x2+y2=16x2−2y=8

{x2+y2=16x2−y=4{x2+y2=16x2−y=4

{x2+y2=4x2+2y=1{x2+y2=4x2+2y=1

{x2+y2=4x2−y=2{x2+y2=4x2−y=2

{x2+y2=9x2−y=3{x2+y2=9x2−y=3

{x2+y2=4y2−x=2{x2+y2=4y2−x=2

{x2+y2=252x2−3y2=5{x2+y2=252x2−3y2=5

{x2+y2=20x2−y2=−12{x2+y2=20x2−y2=−12

{x2+y2=13x2−y2=5{x2+y2=13x2−y2=5

{x2+y2=16x2−y2=16{x2+y2=16x2−y2=16

{4x2+9y2=362x2−9y2=18{4x2+9y2=362x2−9y2=18

{x2−y2=32x2+y2=6{x2−y2=32x2+y2=6

{4x2−y2=44x2+y2=4{4x2−y2=44x2+y2=4

{x2−y2=−53x2+2y2=30{x2−y2=−53x2+2y2=30

{x2−y2=1x2−2y=4{x2−y2=1x2−2y=4

{2x2+y2=11x2+3y2=28{2x2+y2=11x2+3y2=28

Use a System of Nonlinear Equations to Solve Applications

In the following exercises, solve the problem using a system of equations.

The sum of two numbers is −6−6 and the product is 8. Find the numbers.

The sum of two numbers is 11 and the product is −42.−42. Find the numbers.

The sum of the squares of two numbers is 65. The difference of the number is 3. Find the numbers.

The sum of the squares of two numbers is 113. The difference of the number is 1. Find the numbers.

The difference of the squares of two numbers is 15. The difference of twice the square of the first number and the square of the second number is 30. Find the numbers.

The difference of the squares of two numbers is 20. The difference of the square of the first number and twice the square of the second number is 4. Find the numbers.

The perimeter of a rectangle is 32 inches and its area is 63 square inches. Find the length and width of the rectangle.

The perimeter of a rectangle is 52 cm and its area is 165 cm2.cm2. Find the length and width of the rectangle.

Dion purchased a new microwave. The diagonal of the door measures 17 inches. The door also has an area of 120 square inches. What are the length and width of the microwave door?

Jules purchased a microwave for his kitchen. The diagonal of the front of the microwave measures 26 inches. The front also has an area of 240 square inches. What are the length and width of the microwave?

Roman found a widescreen TV on sale, but isn’t sure if it will fit his entertainment center. The TV is 60”. The size of a TV is measured on the diagonal of the screen and a widescreen has a length that is larger than the width. The screen also has an area of 1728 square inches. His entertainment center has an insert for the TV with a length of 50 inches and width of 40 inches. What are the length and width of the TV screen and will it fit Roman’s entertainment center?

Donnette found a widescreen TV at a garage sale, but isn’t sure if it will fit her entertainment center. The TV is 50”. The size of a TV is measured on the diagonal of the screen and a widescreen has a length that is larger than the width. The screen also has an area of 1200 square inches. Her entertainment center has an insert for the TV with a length of 38 inches and width of 27 inches. What are the length and width of the TV screen and will it fit Donnette’s entertainment center?

## Writing Exercises

In your own words, explain the advantages and disadvantages of solving a system of equations by graphing.

Explain in your own words how to solve a system of equations using substitution.

Explain in your own words how to solve a system of equations using elimination.

A circle and a parabola can intersect in ways that would result in 0, 1, 2, 3, or 4 solutions. Draw a sketch of each of the possibilities.

## Self Check

ⓐ After completing the exercises, use this checklist to evaluate your mastery of the objectives of this section.

ⓑ After looking at the checklist, do you think you are well-prepared for the next section? Why or why not?

## Distance and Midpoint Formulas; Circles

Use the Distance Formula

In the following exercises, find the distance between the points. Round to the nearest tenth if needed.

(−5,1)(−5,1) and (−1,4)(−1,4)

(−2,5)(−2,5) and (1,5)(1,5)

(8,2)(8,2) and (−7,−3)(−7,−3)

(1,−4)(1,−4) and (5,−5)(5,−5)

Use the Midpoint Formula

In the following exercises, find the midpoint of the line segments whose endpoints are given.

(−2,−6)(−2,−6) and (−4,−2)(−4,−2)

(3,7)(3,7) and (5,1)(5,1)

(−8,−10)(−8,−10) and (9,5)(9,5)

(−3,2)(−3,2) and (6,−9)(6,−9)

Write the Equation of a Circle in Standard Form

In the following exercises, write the standard form of the equation of the circle with the given information.

radius is 15 and center is (0,0)(0,0)

radius is 7√7 and center is (0,0)(0,0)

radius is 9 and center is (−3,5)(−3,5)

radius is 7 and center is (−2,−5)(−2,−5)

center is (3,6)(3,6) and a point on the circle is (3,−2)(3,−2)

center is (2,2)(2,2) and a point on the circle is (4,4)(4,4)

Graph a Circle

In the following exercises, ⓐ find the center and radius, then ⓑ graph each circle.

2x2+2y2=4502x2+2y2=450

3x2+3y2=4323x2+3y2=432

(x+3)2+(y−5)2=81(x+3)2+(y−5)2=81

(x+2)2+(y+5)2=49(x+2)2+(y+5)2=49

x2+y2−6x−12y−19=0x2+y2−6x−12y−19=0

x2+y2−4y−60=0x2+y2−4y−60=0

## Parabolas

Graph Vertical Parabolas

In the following exercises, graph each equation by using its properties.

y=x2+4x−3y=x2+4x−3

y=2x2+10x+7y=2x2+10x+7

y=−6x2+12x−1y=−6x2+12x−1

y=−x2+10xy=−x2+10x

In the following exercises, ⓐ write the equation in standard form, then ⓑ use properties of the standard form to graph the equation.

y=x2+4x+7y=x2+4x+7

y=2x2−4x−2y=2x2−4x−2

y=−3x2−18x−29y=−3x2−18x−29

y=−x2+12x−35y=−x2+12x−35

Graph Horizontal Parabolas

In the following exercises, graph each equation by using its properties.

x=2y2x=2y2

x=2y2+4y+6x=2y2+4y+6

x=−y2+2y−4x=−y2+2y−4

x=−3y2x=−3y2

In the following exercises, ⓐ write the equation in standard form, then ⓑ use properties of the standard form to graph the equation.

x=4y2+8yx=4y2+8y

x=y2+4y+5x=y2+4y+5

x=−y2−6y−7x=−y2−6y−7

x=−2y2+4yx=−2y2+4y

Solve Applications with Parabolas

In the following exercises, create the equation of the parabolic arch formed in the foundation of the bridge shown. Give the answer in standard form.

## Ellipses

Graph an Ellipse with Center at the Origin

In the following exercises, graph each ellipse.

x236+y225=1x236+y225=1

x24+y281=1x24+y281=1

49x2+64y2=313649x2+64y2=3136

9x2+y2=99x2+y2=9

Find the Equation of an Ellipse with Center at the Origin

In the following exercises, find the equation of the ellipse shown in the graph.

Graph an Ellipse with Center Not at the Origin

In the following exercises, graph each ellipse.

(x−1)225+(y−6)24=1(x−1)225+(y−6)24=1

(x+4)216+(y+1)29=1(x+4)216+(y+1)29=1

(x−5)216+(y+3)236=1(x−5)216+(y+3)236=1

(x+3)29+(y−2)225=1(x+3)29+(y−2)225=1

In the following exercises, ⓐ write the equation in standard form and ⓑ graph.

x2+y2+12x+40y+120=0x2+y2+12x+40y+120=0

25x2+4y2−150x−56y+321=025x2+4y2−150x−56y+321=0

25x2+4y2+150x+125=025x2+4y2+150x+125=0

4x2+9y2−126x+405=04x2+9y2−126x+405=0

Solve Applications with Ellipses

In the following exercises, write the equation of the ellipse described.

A comet moves in an elliptical orbit around a sun. The closest the comet gets to the sun is approximately 10 AU and the furthest is approximately 90 AU. The sun is one of the foci of the elliptical orbit. Letting the ellipse center at the origin and labeling the axes in AU, the orbit will look like the figure below. Use the graph to write an equation for the elliptical orbit of the comet.

## Hyperbolas

Graph a Hyperbola with Center at (0,0)(0,0)

In the following exercises, graph.

x225−y29=1x225−y29=1

y249−x216=1y249−x216=1

9y2−16x2=1449y2−16x2=144

16x2−4y2=6416x2−4y2=64

Graph a Hyperbola with Center at (h,k)(h,k)

In the following exercises, graph.

(x+1)24−(y+1)29=1(x+1)24−(y+1)29=1

(x−2)24−(y−3)216=1(x−2)24−(y−3)216=1

(y+2)29−(x+1)29=1(y+2)29−(x+1)29=1

(y−1)225−(x−2)29=1(y−1)225−(x−2)29=1

In the following exercises, ⓐ write the equation in standard form and ⓑ graph.

4x2−16y2+8x+96y−204=04x2−16y2+8x+96y−204=0

16x2−4y2−64x−24y−36=016x2−4y2−64x−24y−36=0

4y2−16x2+32x−8y−76=04y2−16x2+32x−8y−76=0

36y2−16x2−96x+216y−396=036y2−16x2−96x+216y−396=0

Identify the Graph of each Equation as a Circle, Parabola, Ellipse, or Hyperbola

In the following exercises, identify the type of graph.

ⓐ 16y2−9x2−36x−96y−36=016y2−9x2−36x−96y−36=0

ⓑ x2+y2−4x+10y−7=0x2+y2−4x+10y−7=0

ⓒ y=x2−2x+3y=x2−2x+3

ⓓ 25x2+9y2=22525x2+9y2=225

ⓐ x2+y2+4x−10y+25=0x2+y2+4x−10y+25=0

ⓑ y2−x2−4y+2x−6=0y2−x2−4y+2x−6=0

ⓒ x=−y2−2y+3x=−y2−2y+3

ⓓ 16x2+9y2=14416x2+9y2=144

## Solve Systems of Nonlinear Equations

Solve a System of Nonlinear Equations Using Graphing

In the following exercises, solve the system of equations by using graphing.

{3x2−y=0y=2x−1{3x2−y=0y=2x−1

{y=x2−4y=x−4{y=x2−4y=x−4

{x2+y2=169x=12{x2+y2=169x=12

{x2+y2=25y=−5{x2+y2=25y=−5

Solve a System of Nonlinear Equations Using Substitution

In the following exercises, solve the system of equations by using substitution.

{y=x2+3y=−2x+2{y=x2+3y=−2x+2

{x2+y2=4x−y=4{x2+y2=4x−y=4

{9x2+4y2=36y−x=5{9x2+4y2=36y−x=5

{x2+4y2=42x−y=1{x2+4y2=42x−y=1

Solve a System of Nonlinear Equations Using Elimination

In the following exercises, solve the system of equations by using elimination.

{x2+y2=16x2−2y−1=0{x2+y2=16x2−2y−1=0

{x2−y2=5−2x2−3y2=−30{x2−y2=5−2x2−3y2=−30

{4x2+9y2=363y2−4x=12{4x2+9y2=363y2−4x=12

{x2+y2=14x2−y2=16{x2+y2=14x2−y2=16

Use a System of Nonlinear Equations to Solve Applications

In the following exercises, solve the problem using a system of equations.

The sum of the squares of two numbers is 25. The difference of the numbers is 1. Find the numbers.

The difference of the squares of two numbers is 45. The difference of the square of the first number and twice the square of the second number is 9. Find the numbers.

The perimeter of a rectangle is 58 meters and its area is 210 square meters. Find the length and width of the rectangle.

Colton purchased a larger microwave for his kitchen. The diagonal of the front of the microwave measures 34 inches. The front also has an area of 480 square inches. What are the length and width of the microwave?

# Practice Test

In the following exercises, find the distance between the points and the midpoint of the line segment with the given endpoints. Round to the nearest tenth as needed.

(−4,−3)(−4,−3) and (−10,−11)(−10,−11)

(6,8)(6,8) and (−5,−3)(−5,−3)

In the following exercises, write the standard form of the equation of the circle with the given information.

radius is 11 and center is (0,0)(0,0)

radius is 12 and center is (10,−2)(10,−2)

center is (−2,3)(−2,3) and a point on the circle is (2,−3)(2,−3)

Find the equation of the ellipse shown in the graph.

In the following exercises, ⓐ identify the type of graph of each equation as a circle, parabola, ellipse, or hyperbola, and ⓑ graph the equation.

4x2+49y2=1964x2+49y2=196

y=3(x−2)2−2y=3(x−2)2−2

3x2+3y2=273x2+3y2=27

y2100−x236=1y2100−x236=1

x216+y281=1x216+y281=1

x=2y2+10y+7x=2y2+10y+7

64x2−9y2=57664x2−9y2=576

In the following exercises, ⓐ identify the type of graph of each equation as a circle, parabola, ellipse, or hyperbola, ⓑ write the equation in standard form, and ⓒ graph the equation.

25x2+64y2+200x−256y−944=025x2+64y2+200x−256y−944=0

x2+y2+10x+6y+30=0x2+y2+10x+6y+30=0

x=−y2+2y−4x=−y2+2y−4

9x2−25y2−36x−50y−214=09x2−25y2−36x−50y−214=0

y=x2+6x+8y=x2+6x+8

Solve the nonlinear system of equations by graphing:

{3y2−x=0y=−2x−1.{3y2−x=0y=−2x−1.

Solve the nonlinear system of equations using substitution:

{x2+y2=8y=−x−4.{x2+y2=8y=−x−4.

Solve the nonlinear system of equations using elimination:

{x2+9y2=92x2−9y2=18.{x2+9y2=92x2−9y2=18.

Create the equation of the parabolic arch formed in the foundation of the bridge shown. Give the answer in y=ax2+bx+cy=ax2+bx+cform.

A comet moves in an elliptical orbit around a sun. The closest the comet gets to the sun is approximately 20 AU and the furthest is approximately 70 AU. The sun is one of the foci of the elliptical orbit. Letting the ellipse center at the origin and labeling the axes in AU, the orbit will look like the figure below. Use the graph to write an equation for the elliptical orbit of the comet.

The sum of two numbers is 22 and the product is −240.−240. Find the numbers.

For her birthday, Olive’s grandparents bought her a new widescreen TV. Before opening it she wants to make sure it will fit her entertainment center. The TV is 55”. The size of a TV is measured on the diagonal of the screen and a widescreen has a length that is larger than the width. The screen also has an area of 1452 square inches. Her entertainment center has an insert for the TV with a length of 50 inches and width of 40 inches. What are the length and width of the TV screen and will it fit Olive’s entertainment center?

## Glossary

system of nonlinear equations
A system of nonlinear equations is a system where at least one of the equations is not linear.