/*! This file is auto-generated */ .wp-block-button__link{color:#fff;background-color:#32373c;border-radius:9999px;box-shadow:none;text-decoration:none;padding:calc(.667em + 2px) calc(1.333em + 2px);font-size:1.125em}.wp-block-file__button{background:#32373c;color:#fff;text-decoration:none} Problem 26 In Exercises \(21-50,\) graph ea... [FREE SOLUTION] | 91Ó°ÊÓ

91Ó°ÊÓ

Log out

Learning Materials

Features

Discover

Chapter 8: Problem 26

In Exercises \(21-50,\) graph each system of inequalities or indicate that the system has no solution. $$\begin{aligned} &y > 2 x\\\ &y < 2 x \end{aligned}$$

Short Answer

Expert verified
The system has no solution.

Step by step solution

01

Understand the System of Inequalities

The system consists of two linear inequalities. The first inequality is \( y > 2x \), and the second inequality is \( y < 2x \). We need to graphically represent the solution for both inequalities.
02

Graph the Boundary Lines

For both inequalities, the boundary line is \( y = 2x \). Draw this line on the graph. It is important to remember that since both inequalities are strict (\(>\) and \(<\)), the line itself won't be part of the solution, so it should be drawn as a dotted line.
03

Shade the Region for Each Inequality

Shade the region above the line \( y = 2x \) to represent all points where \( y > 2x \). Shade the region below the line \( y = 2x \) to show all points where \( y < 2x \). Each inequality, when graphed separately, will have a distinct shaded region.
04

Identify the Solution Region

The solution to the system of inequalities is the area where the shaded regions for each inequality overlap. Since one inequality requires \( y \) to be greater than \( 2x \) and the other requires it to be less than \( 2x \), there is no overlap. Thus, the system has no solution.

Unlock Step-by-Step Solutions & Ace Your Exams!

  • Full Textbook Solutions

    Get detailed explanations and key concepts

  • Unlimited Al creation

    Al flashcards, explanations, exams and more...

  • Ads-free access

    To over 500 millions flashcards

  • Money-back guarantee

    We refund you if you fail your exam.

Over 30 million students worldwide already upgrade their learning with 91Ó°ÊÓ!

Key Concepts

These are the key concepts you need to understand to accurately answer the question.

graphing inequalities
Graphing inequalities can be understood by first graphing the associated linear equation, and then shading the relevant region. For instance, if we have the inequality \( y > 2x \), this means that instead of considering just the line \( y = 2x \), we consider everything above it. Here's how it works:
  • Draw the boundary line: Start by graphing the line \( y = 2x \). Because the inequality uses "greater than" (\(>\)), the line itself is not included. So, use a dotted line instead of a solid one.
  • Choose a test point: Select a simple point that is not on the line, such as the origin (0,0). Substitute this point into the inequality to see if it makes the inequality true. In this case, \( 0 > 2 \times 0 \) is not true, so the origin is not in the solution region. Hence, shade the region opposite the origin.
  • Shade the correct region: If the test confirms, shade the region where the inequality holds true. Remembering which side to shade can be tricky, but testing a point helps decide.
It's crucial to keep in mind, especially for systems of inequalities, which shaded areas are part of the solution. Dotted lines help distinguish boundaries not included in the solution.
linear inequalities
Linear inequalities are similar to linear equations but include inequality symbols like \( >, <, \geq,\) or \(\leq\) instead of an equals sign. These inequalities graphically represent regions rather than just lines. Let’s explore more:
  • Equation to Inequality: Begin with an equation, e.g., \( y = 2x \), then convert it into an inequality by switching the \( = \) to \( <, >, \leq,\) or \(\geq \). This changes the entire nature of the solution from a line to an area.
  • Inclusion of the Line: Remember, if the inequality includes "equal to" parts such as \( \leq \) or \(\geq \), the boundary line becomes solid as the line itself is part of the solution.
  • Strict vs. Non-strict Inequalities: For strict inequalities (< or >), the boundary is not part of the solution, indicated by a dotted line. For non-strict inequalities (\(\leq \) or \(\geq \)), use a solid line. This distinction is critical in determining whether points on the line satisfy the inequality.
Understanding these details lets you visualize the entire set of possible solutions that satisfy the given inequality, rather than a strict set of points.
solution of inequalities
In systems of inequalities, the solution is the collection of points that satisfy all inequalities in the system simultaneously. Here's how to approach finding these solutions:
  • Graph each inequality: Plot each one on the same graph, following steps outlined for graphing single inequalities. Each will have its respective shaded region.
  • Find common areas: The solution for a system occurs where the shaded regions from individual inequalities overlap. This visual intersection represents points satisfying each inequality condition.
  • No overlap means no solution: If there's no common region, like in our problem, the system has no solution. This occurs when conditions of the inequalities are contradictory.
Systems can range from having unique regions, common sections, or no shared space at all. By graphically analyzing these interactions, the underlying relationships between the inequalities are uncovered.

One App. One Place for Learning.

All the tools & learning materials you need for study success - in one app.

Get started for free

Most popular questions from this chapter

Determine whether each statement is true or false. The value of a determinant changes sign if any two rows are interchanged.

Ginger talks Gary into putting less money in the money market and more money in the stock (see Exercise 95 ). They place \(10,000\) of their savings into investments. They put some in a money market account earning \(3 \%\) interest, some in a mutual fund that has been averaging \(7 \%\) a year, and some in a stock that rose \(10 \%\) last year. If they put \( 3,000\) more in the stock than in the mutual fund and the mutual fund and stock have the same growth in the next year as they did in the previous year, they will earn \(\$ 840\) in a year. How much money did they put in each of the three investments?

In calculus, determinants are used when evaluating double and triple integrals through a change of variables. In these cases, the elements of the determinant are functions. Find each determinant. $$\left|\begin{array}{ccc} \cos \theta & -r \sin \theta & 0 \\ \sin \theta & r \cos \theta & 0 \\ 0 & 0 & 1 \end{array}\right|$$

Involve vertical motion and the effect of gravity on an object. Because of gravity, an object that is projected upward will eventually reach a maximum height and then fall to the ground. The equation that relates the height \(h\) of a projectile \(t\) seconds after it is projected upward is given by $$h=\frac{1}{2} a t^{2}+v_{0} t+h_{0}$$ where \(a\) is the acceleration due to gravity, \(h_{0}\) is the initial height of the object at time \(t=0,\) and \(v_{0}\) is the initial velocity of the object at time \(t=0 .\) Note that a projectile follows the path of a parabola opening down, so \(a<0\). An object is thrown upward, and the table below depicts the height of the ball \(t\) seconds after the projectile is released. Find the initial height, initial velocity, and acceleration due to gravity. $$\begin{array}{|c|c|} \hline t \text { (seconos) } & \text { HeiGHT (FEET) } \\ \hline 1 & 34 \\ \hline 2 & 36 \\ \hline 3 & 6 \\ \hline \end{array}$$

In calculus, when solving systems of linear differential equations with initial conditions, the solution of a system of linear equations is required. solve each system of equations. $$\begin{aligned} &3 c_{1}+3 c_{2}=0\\\ &2 c_{1}+3 c_{2}=0 \end{aligned}$$
See all solutions

Recommended explanations on Math Textbooks

Theoretical and Mathematical Physics

Read Explanation

Logic and Functions

Read Explanation

Decision Maths

Read Explanation

Calculus

Read Explanation

Statistics

Read Explanation

Pure Maths

Read Explanation
View all explanations

What do you think about this solution?

We value your feedback to improve our textbook solutions.

Study anywhere. Anytime. Across all devices.