Solving Using Elimination

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Course: Michigan Algebra I Sept. 2012
Book: Solving Using Elimination
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Date: Sunday, November 24, 2024, 1:04 AM

Description

Elimination

Another method of symbolically solving a system of equations is elimination. When solving a linear system by elimination (sometimes called linear combination) simple addition and subtraction is used to simplify the system of equations to one equation involving a single variable. We begin with two unknowns (x and y) and move to a single unknown (either x or y), and, therefore, this method is often referred to as solving by elimination. One variable is eliminated in order to make the equations solvable. To accomplish this, something may need to be done to one, or both equations so that one variable will be eliminated.


Example 1

If one apple plus one banana costs$1.25 and one apple plus two bananas costs$2.00, how much does it cost for one banana? How much does it cost for one apple?

Step 1. Use a and b as the cost for apples and bananas, write two equations.

a + b = 1.25

a + 2b = 2.00

Step 2. Pretend the two equations create columns to add down and see if either variable will cancel.

Eliminate_ex1-1

Since neither variable will cancel automatically, move on to the next step.

Step 3. Determine which variable will cancel, then multiply one equation so that the variable will cancel.

In this equation the two "a" variables have the same coefficient and would cancel with opposite signs. Therefore, multiply one equation by -1.

a + b = 1.25

-1(a + b = 1.25)

-a - b = -1.25


Example 1 Continued

Step 4. Add down the "columns".

Eliminate_ex1-2

Step 5. Solve the remaining equation.

b = 0.75

Step 6. Substitute the variable from step 5 into either equation and solve for the remaining variable.

a + b = 1.25

a + 0.75 = 1.25

a = 0.50

Therefore, one apple will cost $0.50 and one banana will cost $0.75.

Example 2

Solve the system.

7x + 4y = 12

5x - 2y = 11

Step 1. Pretend the two equations create columns to add down and see if either variable will cancel.

Eliminate_ex2-1

Since neither variable will cancel automatically, move on to the next step.

Step 2. Determine which variable will cancel, then multiply one equation so that the variable will cancel.

In this equation the 2 "y" variables have an easy GCF and would cancel if their coefficients were 4, -4. Therefore, multiply the second equation by 2.

2(5x - 2y = 11)

10x - 4y = 22

Step 3. Add down the "columns".

Eliminate_ex2-2

Example 2 Continued

Step 4. Solve the remaining equation.

17x = 34

x = 2

Step 5. Substitute the variable from step 4 into either equation and solve for the remaining variable.

7(2) + 4y =12

14 + 4y = 12

4y = -2

y = Eliminate_ex2-3

The solution point is:x = 2 and y = Eliminate_ex2-3 .

Video lesson

To learn how to solve systems using elimination select the following link:

Systems by Elimination

Guided Practice

To solidify your understanding of solving systems using elimination, visit the following link to Holt, Rinehart and Winston Homework Help Online. It provides examples, video tutorials and interactive practice with answers available. The Practice and Problem Solving section has two parts. The first part offers practice with a complete video explanation for the type of problem with just a click of the video icon. The second part offers practice with the solution for each problem only a click of the light bulb away.

Guided Practice

Practice

Systems by Eliminations Worksheet

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Answer Key

Systems by Eliminations Key

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Sources

Embracing Mathematics, Assessment & Technology in High Schools; A Michigan Mathematics & Science Partnership Grant Project

Andrew and Anne Gloag, This chapter covers solving systems of equations graphically, Created: Jan. 18, 2010, http://www.ck12.org/flexr/search/Linear%20systmes%20of%20Equations/

Holt, Rinehart, & Winston. "Systems of Equations." http://my.hrw.com/math06_07/nsmedia/homework_help/alg1/
alg1_ch06_03_homeworkhelp.html (accessed August 4, 2010)