## Introduction

Are you struggling with solving inequalities in your math class? Do you find it challenging to determine which ordered pair satisfies both inequalities? In this article, we will explore the solution set for two linear inequalities to help you find the ordered pairs that are true for both. We will also provide examples to illustrate the process and share step-by-step instructions on how to solve inequalities with ordered pairs.

## How to Find the Solution Set for Two Inequalities – Explained with Examples

Before we delve into finding the ordered pairs that satisfy both inequalities, let us first define what a solution set is and how to find it for two linear inequalities.

A solution set is a collection of values that satisfy one or more equations or inequalities. When solving a system of two linear inequalities, we are looking for the solution set that satisfies both inequalities simultaneously.

To find the solution set for two linear inequalities, we need to identify the common region where both inequalities are true. This region is usually a shaded region on the coordinate plane.

Let’s illustrate this with an example. Consider the following two linear inequalities:

2x + y < 6 (1) x - y > 2 (2)

To graph these equations, we will first graph the corresponding boundary lines. To graph the line represented by inequality (1), we need to find two points on the line.

When x = 0, 2(0) + y < 6, so y < 6. This gives the point (0, 6) on the line. When y = 0, 2x + 0 < 6, so x < 3. This gives the point (3, 0) on the line. Plotting these points and drawing the line gives:

To graph the line represented by inequality (2), we need to find two points on the line.

When x = 0, 0 – y > 2, so y < -2. This gives the point (0, -2) on the line. When y = 0, x - 0 > 2, so x > 2. This gives the point (2, 0) on the line.

Plotting these points and drawing the line gives:

Now, we need to determine the common shaded region where both inequalities are true. This region is the intersection of the shaded regions for each inequality. The common region is the solution set for the system of inequalities.

From the graph, we can see that the solution set is the shaded triangle in the bottom left corner of the graph with vertices (0, 0), (0, -2), and (3, 0).

## Solving Inequalities: Which Pair of Numbers Makes the Cut?

Now that we have the solution set for the system of inequalities, we need to determine which ordered pair satisfies both inequalities.

An ordered pair is a pair of numbers that represents a point on the coordinate plane. To determine whether an ordered pair satisfies both inequalities, we simply need to plug in the values of the ordered pair into both inequalities and check if the resulting statements are true or false.

Let’s use the same example as above, and let’s choose an ordered pair to test, say (1, 3).

Substituting x = 1 and y = 3 into (1), we get 2(1) + 3 < 6, which is true because 5 < 6. Substituting x = 1 and y = 3 into (2), we get 1 - 3 > 2, which is false because -2 is not greater than 2.

Therefore, the ordered pair (1, 3) does not satisfy both inequalities.

We can repeat this process for other ordered pairs until we find a pair that satisfies both inequalities.

## Mastering Inequalities: Finding Common Solutions

Sometimes it is necessary to find the common solutions for two inequalities. The common solutions are the values that are true for both inequalities.

To find the common solutions, we follow these steps:

1. Solve each inequality for y.

2. Set both inequalities equal to each other.

3. Solve for x.

Let’s use the same example as before:

2x + y < 6 (1) x - y > 2 (2)

1. Solving (1) for y gives y < -2x + 6. 2. Solving (2) for y gives y < x - 2. 3. Setting both equations equal to each other gives -2x + 6 = x - 2. 4. Solving for x gives x = 2. Substituting x = 2 into either equation gives y < 2 - 2 = 0. So the common solution is (2, y), where y is any number less than 0. The solutions can be written as (2, -1), (2, -2), (2, -3), and so on.

## The Importance of Ordered Pairs in Solving Inequalities

Ordered pairs are crucial in solving inequalities because they represent the points on the coordinate plane that satisfy the inequalities. These points help us visualize the solution set for the system of inequalities and determine which ordered pairs satisfy both inequalities.

Without using ordered pairs, it can be challenging to determine the solution set and the ordered pairs that satisfy both inequalities, especially for more complex systems of inequalities.

## Math Made Easy: How to Solve Inequalities with Ordered Pairs

Now that we understand the importance of ordered pairs in solving inequalities, let’s provide step-by-step instructions on how to solve linear inequalities using ordered pairs.

1. Graph each inequality on the same set of coordinate axes.

2. Determine the solution set by finding the intersection of the shaded regions for each inequality.

3. To find the ordered pairs that satisfy both inequalities, plug in the values of the ordered pair into both inequalities and check if the resulting statements are true or false.

4. Repeat the previous step until you find an ordered pair that satisfies both inequalities.

## Inequality Solutions: Finding the Intersection of Two Lines

In order to find the intersection of two lines, we must determine the point where they intersect. This point is the solution to a system of linear equations.

To find the intersection of two lines, we can follow these steps:

1. Solve each equation for y.

2. Set the two equations equal to each other.

3. Solve for x.

4. Substitute x into either equation to find y.

Let’s illustrate this with an example. Consider the following two equations:

2x + y = 3 (1)

x – 3y = -5 (2)

1. Solving (1) for y gives y = -2x + 3.

2. Solving (2) for y gives y = (x + 5)/3.

3. Setting both equations equal to each other gives -2x + 3 = (x + 5)/3.

4. Solving for x gives x = -1.

Substituting x = -1 into either equation gives y = 1. So the solution to the system of equations is (-1, 1).

## Conclusion

In this article, we have explored how to find the ordered pair that satisfies both linear inequalities, how to find the common solutions for two inequalities, and the importance of ordered pairs in solving inequalities. We have also provided step-by-step instructions and examples, making it easy for even the most struggling math students to learn and apply these concepts. We encourage readers to practice these techniques repeatedly until they become comfortable with them. With these newfound skills, solving inequalities will be much easier and more manageable.