Lesson 7Subtraction in Equivalent Expressions

Learning Goal

Let’s find ways to work with subtraction in expressions.

Learning Targets

  • I can organize my work when I use the distributive property.

  • I can re-write subtraction as adding the opposite and then rearrange terms in an expression.

Lesson Terms

  • term

Warm Up: Number Talk: Additive Inverses

Problem 1

Find each sum or difference mentally.

Activity 1: A Helpful Observation

Problem 1

Lin and Kiran are trying to calculate . Here is their conversation:

Lin: “I plan to first add and , so I will have to start by finding equivalent fractions with a common denominator.”

Kiran: “It would be a lot easier if we could start by working with the and . Can we rewrite it like ?

Lin: “You can’t switch the order of numbers in a subtraction problem like you can with addition; is not equal to .

Kiran: “That’s true, but do you remember what we learned about rewriting subtraction expressions using addition? is equal to .

  1. Write an expression that is equivalent to that uses addition instead of subtraction.

  2. If you wrote the terms of your new expression in a different order, would it still be equivalent? Explain your reasoning.

Activity 2: Organizing Work

Problem 1

Write two expressions for the area of the big rectangle.

3 rectangles - 8y, x, and 12 with one-half on the outside.

Problem 2

Use the distributive property to write an expression that is equivalent to . The boxes can help you organize your work.

3 rectangles - 8y, -x, and -12 with one-half on the outside.

Problem 3

Use the distributive property to write an expression that is equivalent to .

Are you ready for more?

Problem 1

Here is a calendar for April 2017.

Let’s choose a date: the 10th. Look at the numbers above, below, and to either side of the 10th: 3, 17, 9, 11.

A calendar for April 2017 with a circle around 10.
  1. Average these four numbers. What do you notice?

  2. Choose a different date that is in a location where it has a date above, below, and to either side. Average these four numbers. What do you notice?

  3. Explain why the same thing will happen for any date in a location where it has a date above, below, and to either side.

Lesson Summary

Working with subtraction and signed numbers can sometimes get tricky. We can apply what we know about the relationship between addition and subtraction—that subtracting a number gives the same result as adding its opposite—to our work with expressions. Then, we can make use of the properties of addition that allow us to add and group in any order. This can make calculations simpler. For example:

We can also organize the work of multiplying signed numbers in expressions. The product can be found by drawing a rectangle with the first factor, , on one side, and the three terms inside the parentheses on the other side:

3 rectangles - 6y, -2x, and -8 with three-halves on the outside.


Multiply by each term across the top and perform the multiplications:

Same as previous showing multiplying three-halves into each of the rectangles resulting in 9y, -3x, and -12 in the rectangles.

Reassemble the parts to get the expanded version of the original expression: