## SolveAdditionSubtractionEquationsUsingModels_ExitTicket.docx - Section 4: Exit Ticket

*SolveAdditionSubtractionEquationsUsingModels_ExitTicket.docx*

*SolveAdditionSubtractionEquationsUsingModels_ExitTicket.docx*

# Solving Addition and Subtraction Equations Using Models

Lesson 5 of 20

## Objective: SWBAT solve addition and subtraction equations using the algebra tile model

## Big Idea: Through modeling with tiles and drawing students come to see how inverse operations can be used to solve equations.

*50 minutes*

#### Introduction

*10 min*

I will begin by stating the essential question: How can you use inverse operations to solve an equation? I will tell my students that we will be solving the equations using a model (**MP5**). Most of my students solved one-step equations in the 6th grade, but they only solved equations with whole numbers. Now we will be solving equations with rational numbers - today the focus is on integers.

The model uses familiar integer counters. I will quickly model a few sums for students as a warmup.

Example 1

x - 3 = -4

I will model this as : X - - - = - - - -

Students may have the algebra tiles but will need to be able to draw the model as well. Students may think of this as x + -3 = -4, but of course that is okay.

I'll explain that when solving an equation we want to isolate the variable on one side of the equation "= sign". I'll ask: What needs to be removed so that the variable is isolated? Answer: -3. How can we do that? Answer: Add +3. I'll point out that what we do to one side of an equation we do to another side. (If necessary I'll explain this with a simple example: 1 + 2 = 3. If we add 5 to each side we get 1 + 2 + 5 = 3 + 5; both sides remain equal.)

The point is for students to see that to solve this subtraction equation we use addition.

Example 2

I will solve this in a similar manner. We'll conclude that to solve addition equations we use subtraction.

Common error: I notice that students often use the wrong value in the inverse operations. For example on example 2 students may try to subtract -5 from both sides. While that creates an equivalent equation, it does not isolate the variable.

Also it is worth pointing out that -5 = n + 2 is the same as n + 2 = -5.

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#### Guided Problem Solving

*15 min*

Students are asked to solve 8 problems with their partners. While students may still use the algebra tiles, I want them to model the equations by drawing plus (+) and minus (-) symbols to represent quantities being added or subtracted and also negative numbers.

For each problem the conversation should be centered around what is being done to isolate the variable. Using GP1 as an example, students will likely say they added -10 to both sides. Some may say they subtracted 10 from both sides.

The final four problems ask students to write an equation represented by algebra tiles, then solve.

When going over these problems with the class, I recommend writing the equation using notation and showing how the inverse operations are applied, so that students start to see the connection between the model and how it looks using the more abstract symbols of algebra.

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#### Independent Problem Solving

*20 min*

For independent practice, we will remove the tiles and have students draw the models only. Students will work on these 8 problems independently. I'll circulate to make sure students are drawing the models correctly. When we are done, I will do a quick **cold call **round. I'll call on a student and ask the student what operation and what number was used to isolate the variable. Example: on problem 1, the student should say they added 6. I will then call on another student to answer. This should go swiftly.

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#### Exit Ticket

*5 min*

Before we begin the exit ticket, I will ask a student to summarize what we learned about solving equations involving addition and subtraction. Because I am asked to enter exit ticket results in SchoolRunner I will assign points to each problem. The first two problems will each be worth 2 points and the third problem will be worth 1 point. I will explain this to my students. My thinking is that the point of the lesson is to model equations (problem 1) and identify how to solve addition and subtraction equations (problem 2). The solution, while important, is less of the cognitive load for this lesson. So if a student can answer problems 1 & 2, but somehow misses 3, they can still earn 4 out of 5 points or 80%.

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*Responding to Peter English*

I've used http://media.mivu.org/mvu_pd/a4a/homework/" href="http://media.mivu.org/mvu_pd/a4a/homework/ a" target="_blank" >http://media.mivu.org/mvu_pd/a4a/homework/">http://media.mivu.org/mvu_pd/a4a/homework/ a bit. I think I like the math playground site even better for modeling and solving equations. Thanks for pointing it out!

| 11 months ago | Reply

Have you tried using this? http://www.mathplayground.com/AlgebraEquations.html. It might be what you are looking for!

| 11 months ago | Reply*Responding to Val Orsburn*

Thank you for the comment. I am happy to hear that the lesson worked for you and your students.

| one year ago | Reply

I have never used algebra tiles to teach a lesson before and since it is now part of the curriculum, I was very happy to have a guiding hand. It was a perfect lesson and the students enjoyed it and stayed engaged for the whole lesson. Most of the students commented that it was easy. Thanks for your help.

| one year ago | Reply*expand comments*

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- LESSON 2: Expand Algebraic Expressions Using the Distributive Property
- LESSON 3: Factor Algebraic Expressions Using the Distributive Property
- LESSON 4: Linear Expressions and Word Problems
- LESSON 5: Solving Addition and Subtraction Equations Using Models
- LESSON 6: Solve Addition and Subtraction Equations using Inverse Operations
- LESSON 7: Solve One-Step Equations Using Inverse Operations
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