# At a Glance - Eliminating Parentheses

### Getting Rid of Parentheses—Who Needs 'Em?

We have seen a lot of expressions with parentheses in them on this algebraic journey of ours. We prefer them as smiley faces in emoticons—the rest of the time, they sort of confuse things. Here's a valid, but horrid, expression:

((*x* + 1)((3 - 4*x*)(4*x* + 2) - 5))^{2}.

While this expression makes mathematical sense, the high number of parentheses in it makes it hard to tell what's going on. In terms of English, how would you like to read this sentence?

"This sentence (the one you are reading (as if we would be referring to any other sentence) right now (as opposed to later)) is so (poorly) constructed (put together (like a building with an unstable foundation)), it makes me (literally) want to vomit."

Not pretty, right? To make things clearer, we can use the symbols {} or [] in place of some of the parentheses (). While still not the most pleasant-looking expression we have ever seen, at least it is a little easier to figure out what's being multiplied by what in this rewritten expression:

(*x* + 1)[(3 - 4*x*)(4*x* + 2) - 5]^{2}.

It is okay to think of (), {}, and [] all as parentheses, since they are all used for the same purpose. Because these symbols serve to group terms together, we also call them **grouping symbols**. The person who uses these symbols is called the **grouper**. He tastes delicious when broiled and seasoned with ground white pepper and paprika.

When we are given an expression with a plethora of parentheses, one way to rewrite the expression is to eliminate parentheses until they're all gone. Unfortunately, there is no special "Parentheses-B-Gone" spray you can buy at CVS. Getting rid of parentheses often involves using the distributive property.

### Sample Problem

1. Eliminate parentheses in the expression 4{*x* + 2(3 - *x*^{2})}.

First way: Use the distributive property on the inner set of parentheses to find that 4{*x* + 6 - 2*x*^{2}}, and then on the remaining set of parentheses to find that 4*x* + 24 - 8*x*^{2}. Parentheses, we hardly knew ye.

Second way: Use the distributive property on the outer set of parentheses to find that 4*x* + 8(3 - *x*^{2}), then on the remaining set of parentheses to find that 4*x* + 24 - 8*x*^{2}. Reassuringly, we got the same answer as we did when we tried it the first way.

Third way: Yell "Fire!" and watch them scatter.

As long as we are careful with the arithmetic, it is okay to get rid of parentheses in any order. In fact, it provides a good way to check our work. No matter the order in which we eliminate parentheses, we should reach the same answer. We can solve each problem a couple of different ways to make sure we find the same answer. We figured you would probably want to solve each problem more than once anyway, and this situation works out perfectly!

**Be Careful** with negative signs, and remember that, to distribute a negative sign over a quantity in parentheses, we erase the negative sign and parentheses while flipping the signs of all the terms in the parentheses. You will want to flip them about once every thirty seconds to ensure maximum crispiness.

2. -(*a* - *b*) = -*a* + *b*.

#### Example 1

Eliminate parentheses in the expression 4( |

#### Example 2

Get rid of the parentheses in the expression 4 + ( |

#### Example 3

Get rid of the parentheses in the expression |

#### Exercise 1

Get rid of the parentheses.

- (- *x* - *y*)

#### Exercise 2

Get rid of the parentheses.

8(*a* + *b*)

#### Exercise 3

Get rid of the parentheses.

3 + (*x* + *y*)

#### Exercise 4

Get rid of the parentheses.

4 - (*x*^{2} + *y*)

#### Exercise 5

Get rid of the parentheses.

5{2*x* + *y*[3 - (*x* + *z*)]}

#### Exercise 6

Get rid of the parentheses.

7[3 + 2(*a* + 4*b*^{2}) + *a*^{2}]

#### Exercise 7

Get rid of the parentheses.

2(*a* - 3*b*) - *b*(*a* + *b*)