Expressions and Equations / What is a solution to a System of Equations

Grade Level 8

Activity 16 of 18

In this lesson students are introduced to a system of linear equations in two variables and find solutions using balances. Then students investigate graphically systems with a unique solution, no solutions, or infinitely many solutions.

Planning and Resources

Objectives
Students should be able to identify whether the solution to a system of two linear equations is a point, all points on a line, or there is no solution. They should also be able to describe the solution in terms of the graphs of the two equations, and identify characteristics of equations that will lead to each possible outcome.

Vocabulary
system of linear equations in two variables
intersection
slope
parallel lines
solution to a system of two linear equations

Standard:

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What is a Solution to a System of Equations.zip

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Student Activity.pdf

Teacher Notes.pdf

Expressions and Equations Overview.pdf

DOC

Student Activity.doc

Teacher Notes.doc

TNS

TI-Nspire Activity.tns

Lesson Snapshot

Understanding

Students understand that the solution to a system of two linear equations is the intersection of the graphical representation of the two equations.

What to look for

Students make the connection between the \((x, y)\) pair that makes each equation true and the point of intersection of the two lines.

Sample Assessment

Joe solved this linear system correctly.
\(6x+3y=6\)
\(y=2x+2\)

These are the last two steps of his work
\(6x-6x+6=6\)
\(6=6\)

Which statements about this linear system must be true?

a. \(x\) must equal 6
b. \(y\) must equal 6
c. There is no solution to this system
d. There are infinitely many solutions to this system

Answer: d

The Big Idea

Some systems of linear equations in two variables have one point as a solution, some have no points as a solution, and some have infinitely many points as a solution.

What are the students doing?

Students reason about solutions to systems of two linear equations using balance beams.

What is the teacher doing?

Encourage students to build on the knowledge that all of the points \((x, y)\) that make \(ax+by = c\) a true statement lie on a line, and recognize that the solution, if one exists, would be the pair \((x, y)\) that makes both statements true.

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Expressions and Equations / What is a solution to a System of Equations

Planning and Resources

Downloads

Lesson Snapshot

Understanding

What to look for

Sample Assessment

The Big Idea

What are the students doing?

What is the teacher doing?

Building Concepts in Mathematics

The Program

The Support

The Topics

Control your cookie preferences

Expressions and Equations / What is a solution to a System of Equations

Planning and Resources

Downloads

Lesson Snapshot

Understanding

What to look for

Sample Assessment

The Big Idea

What are the students doing?

What is the teacher doing?

Previous Module

Expressions & Equations

15. Visualizing Systems of Linear Equations

Next Module

Expressions & Equations

17. Solving Systems of Equations Algebraically

Building Concepts in Mathematics

The Program

The Support

The Topics

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