6.4 Linear Inequalities

Similar documents
Writing the Equation of a Line in Slope-Intercept Form

Linear Equations. Find the domain and the range of the following set. {(4,5), (7,8), (-1,3), (3,3), (2,-3)}

3.1 Solving Systems Using Tables and Graphs

Algebra Cheat Sheets

7. Solving Linear Inequalities and Compound Inequalities

EQUATIONS and INEQUALITIES

x x y y Then, my slope is =. Notice, if we use the slope formula, we ll get the same thing: m =

The Point-Slope Form

LINEAR INEQUALITIES. less than, < 2x + 5 x 3 less than or equal to, greater than, > 3x 2 x 6 greater than or equal to,

Solving Equations Involving Parallel and Perpendicular Lines Examples

Slope-Intercept Equation. Example

Brain Game. 3.4 Solving and Graphing Inequalities HOW TO PLAY PRACTICE. Name Date Class Period. MATERIALS game cards

IOWA End-of-Course Assessment Programs. Released Items ALGEBRA I. Copyright 2010 by The University of Iowa.

What does the number m in y = mx + b measure? To find out, suppose (x 1, y 1 ) and (x 2, y 2 ) are two points on the graph of y = mx + b.

Math 0980 Chapter Objectives. Chapter 1: Introduction to Algebra: The Integers.

Chapter 9. Systems of Linear Equations

Question 2: How do you solve a linear programming problem with a graph?

No Solution Equations Let s look at the following equation: 2 +3=2 +7

Method To Solve Linear, Polynomial, or Absolute Value Inequalities:

Solution of the System of Linear Equations: any ordered pair in a system that makes all equations true.

Make sure you look at the reminders or examples before each set of problems to jog your memory! Solve

SYSTEMS OF LINEAR EQUATIONS

Warm Up. Write an equation given the slope and y-intercept. Write an equation of the line shown.

Absolute Value Equations and Inequalities

3 1B: Solving a System of Equations by Substitution

Write the Equation of the Line Review

CONTENTS. Please note:

5 Systems of Equations

4.9 Graph and Solve Quadratic

Elements of a graph. Click on the links below to jump directly to the relevant section

1 Determine whether an. 2 Solve systems of linear. 3 Solve systems of linear. 4 Solve systems of linear. 5 Select the most efficient

Inequalities - Solve and Graph Inequalities

Inequalities - Absolute Value Inequalities

Answer Key Building Polynomial Functions

Sneaking up on Slope

The Graphical Method: An Example

What are the place values to the left of the decimal point and their associated powers of ten?

Section 1.1 Linear Equations: Slope and Equations of Lines

Determine If An Equation Represents a Function

Linear Inequality in Two Variables

Algebra II A Final Exam

Midterm 2 Review Problems (the first 7 pages) Math Intermediate Algebra Online Spring 2013

PLOTTING DATA AND INTERPRETING GRAPHS

Activity 6 Graphing Linear Equations

1.4 Compound Inequalities

Formula for linear models. Prediction, extrapolation, significance test against zero slope.

How To Understand And Solve Algebraic Equations

Part 1: Background - Graphing

Tennessee Department of Education. Task: Sally s Car Loan

Correlation key concepts:

Math 1. Month Essential Questions Concepts/Skills/Standards Content Assessment Areas of Interaction

Using Mathematics to Solve Real World Problems

Algebra I Notes Relations and Functions Unit 03a

Plot the following two points on a graph and draw the line that passes through those two points. Find the rise, run and slope of that line.

1 Functions, Graphs and Limits

LINEAR INEQUALITIES. Mathematics is the art of saying many things in many different ways. MAXWELL

Graphing Linear Equations

To Be or Not To Be a Linear Equation: That Is the Question

Successful completion of Math 7 or Algebra Readiness along with teacher recommendation.

MATH 60 NOTEBOOK CERTIFICATIONS

F.IF.7b: Graph Root, Piecewise, Step, & Absolute Value Functions

Polynomial and Rational Functions

Linear Programming Notes V Problem Transformations

AP CALCULUS AB 2009 SCORING GUIDELINES

Algebra 1 Course Title

10.1 Systems of Linear Equations: Substitution and Elimination

Math 113 Review for Exam I

Mathematics Curriculum Guide Precalculus Page 1 of 12

Answer Key for California State Standards: Algebra I

GRADES 7, 8, AND 9 BIG IDEAS

Florida Algebra 1 End-of-Course Assessment Item Bank, Polk County School District

Example SECTION X-AXIS - the horizontal number line. Y-AXIS - the vertical number line ORIGIN - the point where the x-axis and y-axis cross

Lecture 8 : Coordinate Geometry. The coordinate plane The points on a line can be referenced if we choose an origin and a unit of 20

Introduction to Quadratic Functions

Unit 1 Equations, Inequalities, Functions

Algebraic expressions are a combination of numbers and variables. Here are examples of some basic algebraic expressions.

FINAL EXAM SECTIONS AND OBJECTIVES FOR COLLEGE ALGEBRA

Linear Programming. Solving LP Models Using MS Excel, 18

Let s explore the content and skills assessed by Heart of Algebra questions.

Systems of Equations Involving Circles and Lines

High School Algebra Reasoning with Equations and Inequalities Solve systems of equations.

PRIMARY CONTENT MODULE Algebra I -Linear Equations & Inequalities T-71. Applications. F = mc + b.

Creating, Solving, and Graphing Systems of Linear Equations and Linear Inequalities

Slope-Intercept Form of a Linear Equation Examples

Because the slope is, a slope of 5 would mean that for every 1cm increase in diameter, the circumference would increase by 5cm.

The degree of a polynomial function is equal to the highest exponent found on the independent variables.

Absolute Value Equations and Inequalities

ALGEBRA I (Common Core)

Lesson 4: Solving and Graphing Linear Equations

7.3 Solving Systems by Elimination

This unit will lay the groundwork for later units where the students will extend this knowledge to quadratic and exponential functions.

Solutions to Math 51 First Exam January 29, 2015

A Quick Algebra Review

Simple Regression Theory II 2010 Samuel L. Baker

Linear functions Increasing Linear Functions. Decreasing Linear Functions

Chapter 2: Linear Equations and Inequalities Lecture notes Math 1010

Definition 8.1 Two inequalities are equivalent if they have the same solution set. Add or Subtract the same value on both sides of the inequality.

Algebra 1 End-of-Course Exam Practice Test with Solutions

For each learner you will need: mini-whiteboard. For each small group of learners you will need: Card set A Factors; Card set B True/false.

Transcription:

6.4 Linear Inequalities Now that we can graph linear equations, it only makes sense to change the equal sign to an inequality symbol and graph that as well. Definition: Linear Inequality- A linear equation with an inequality symbol instead of an equal sign. As it turns out, a solution to a linear inequality works the same as a solution to an equation, that is to say, an ordered pair is a solution if it satisfies the inequality. Example 1: Determine if the given point is a solution to the given inequality. a. (-1, 3); 5x 3y >1 b. (0, 1); 3x - y 5 Solution: a. To see if the ordered pair is a solution, we need to find out if the ordered pair makes the inequality a true statement. So, all we need to do is plug it in and see what happens. Since this is not a true statement, we can say (-1, 3) is not a solution to 5x 3y >1 b. Similar to part a, we need only to plug the ordered pair in and see what we get This time we have a true statement, so (0, 1) is a solution to 3x - y 5 Of course, just like with equations, there are an infinite number of possible solutions to an inequality. The main difference here is that with an inequality, we don t just have the ordered pairs that fall on the line, we have an entire half of the rectangular coordinate system as solutions. So the only way that we can capture all the solutions is to graph it. We have the following method to do so. Graphing a Linear Inequality 1. Replace the inequality symbol with an equal sign. Graph the equation (Dotted for < and >; Solid for and ) 3. Test a point not on the line. If the point satisfies the inequality, shade the portion containing the point, if not, shade the other portion. The reason for the dotted line for < and > verses the solid line for and is because with the < or > symbol, the equation isn t an included part of the solutions. So, the dotted line simply shows a guide as to where the line would be. However, for the and, the equation is actually part of

the solution since they have an or equal to component. So the solid line signals that the line itself is included in the solutions. Example : Graph the given inequality. a. b. c. Solution: a. To graph the inequality, the first thing we do is change to. Now, we graph the equation the same way we always did, the slope-intercept-intercept method. We start with putting the equation in the proper form So m = -1 and y-intercept is (0, 3). Now we find the x-intercept by going back to the original equation and setting y = 0. So the x-intercept is (3, 0). Now we draw the graph with a dotted line, since our inequality symbol is <. Finally, to determine the proper shading, we need to test a point, any point, not on the line. To make it easy, lets test (0, 0). We do so by plugging it into the original inequality and seeing if we get a true statement. So since we got a true statement, (0, 0) must be a solution. Therefore, every ordered pair in the region containing (0, 0) is a solution. So we shade the side of the line containing (0, 0) to get our completed graph.

b. Again we start by changing to. Then we get all the info we need to produce the graph. So m = and y-intercept is (0, 3). So our x-intercept is (5, 0). This time we graph with a solid line since we have a. Now lets again test the point (0, 0) for simplicity.

This is not a true statement. This means that (0, 0) cannot be in the shaded side which contains the solutions. So we have to shade the side that does not contain (0, 0) as follows c. Finally, we again start by changing to and then graphing. Slope-intercept: x-intercept: So m =, y-intercept is (0, -) and x-intercept is (6, 0). We graph with a dotted line because we are dealing with <. Now we test (0, 0) to get So we shade the side containing (0, 0)

One cautionary note: Even though we used (0, 0) for every example here, you can actually use any point that you want, as long as it is not on the line. Since (0, 0) is very easy to use, we like to use it as often as possible. However, if (0, 0) turns out to be on the line, we would have to choose something else. 6.4 Exercises Determine if the given point is a solution to the given inequality. 1.,3., 3., 4., 1 5.,0 ; 3x 1 ; x y 4 ; 3x y 6 3 ; x y 4 0 ; x 7y 1 6.,0 7. 1, 4 8.,1 9., 1 10., 0 ; x, x y 1 ; 4x 7 y 3 ; x y 4 0 ; 4x Graph the given inequality. 11. y x 3 1 3 1. y 5 x 13. y x 4 14. y x 5 15. 3x y 1 16. 4x 10 17. 5x y 3 18. x 15 19. 3x 4y 8 0. 3x y 1. x 6. x 3 3. x 4 4. y 3 5. 3x 10 6. x y 7. y 3 x 8. y 1 5 x 9. x 30. 3x y

2026 © DocPlayer.net Privacy Policy | Terms of Service | Feedback  | Do Not Sell My Personal Information