## Distributive Property And Combining Like Terms Homework Assignments

You probably don't keep bananas in your sock drawer or toothpaste on your bookshelf. If you do, we can recommend a good therapist. Aside from it being an awful hassle to run from the bookshelf to the bathroom sink every time you need to spit, the reason we don't do stuff like this is because it makes sense to keep like things together. Algebraic terms are no exception.

A term in an expression has two parts: the constant part, also called the **coefficient**, and the variable part. Just as they sound, the constant part is the product of all the constants in the term, and the variable part is the product of all the variables in the term. If someone approaches you about Variable Life and Annuities, they probably want your help on an algebra problem.

### Sample Problems

1. In the term 9*x*, the constant part, or coefficient, is 9 and the variable part is *x*.

2. In the term 2*y*(3*x*^{2}), the coefficient is 6 and the variable part is *x*^{2}*y*.

3. In the term *mc*^{2} where *c* is a constant, *c*^{2} is the coefficient and *m* is the variable part.

In an expression, **like terms** are terms with the same variable part. Going back to one of our earlier examples, bananas go with bananas, and socks go with socks. Although, if bananas *could* go with socks, we sure could make some hilarious puppets.

### Sample Problems

1. The terms *x* and 8*x* are like terms, since they both have *x* as their variable part.

2. Both 5*x*^{7}*y* and 89*x*^{7}*y* are like terms, since they both have *x*^{7}*y* as their variable part.

3. The numbers 4 and 5 are like terms, since both are constants with no variable part. We know what we're getting *them* for Chanukah.

### Non-Sample Problems

1. The terms *x* and *x*^{2} are not like terms, since they have different variable parts.

2. The variables *y* and *x* are not like terms, since they have different variable parts.

3. The terms *x*^{2}*y* and *xy*^{2} are not like terms, since they have different variable parts.

If we have a pile with 5 lemons and a pile with 6 lemons, we can combine them to get one pile with 11 lemons. Of course, what we actually should do is make lemonade, but that's more of a life philosophy and less of a mathematical solution. In this real-life situation, the lemons are our variables. Therefore, we can **combine like terms**. Or, in this case, combine like lemons.

### Sample Problems

1. Combining 3 homework assignments with 2 homework assignments gives us 5 homework assignments. Plus 1 disgruntled student.

2. Combining 9 fingers and 1 finger gives us 10 fingers. Thank goodness. We thought we misplaced one for a second there.

3. Combining 3 copies of the letter *x* with 5 copies of the letter *x* gives us 8 copies of the letter *x*. With which we can spell the word "xxxxxxxx."

In order to combine terms, they need to be alike. We can't combine *x* and 2*x*^{2}. We could use the distributive property to rewrite *x* + 2*x*^{2} as (1 + 2*x*)*x* (give it a try; the math checks out), but (1 + 2*x*)*x* isn't that much prettier than *x* + 2*x*^{2}. Not to sound superficial, but when it comes to mathematical expressions, it's all about the looks.

### Sample Problem

Combine like terms in the expression 7*x* + 3*xy* + 3 + 4*xy* + 2*x*^{2} + 6.

First, rearrange the expression to put like terms next to each other. Pull your bananas out of your sock drawer and move them over to the banana drawer of your dresser. Wait a minute...

7*x* + (3*xy* + 4*xy*) + 2*x*^{2} + (3 + 6)

Now it's easier to see what goes with what. Which is good, because you don't want your terms to clash.

Combine the terms with the variable part *xy* first:

7*x* + (3*xy* + 4*xy*) + 2*x*^{2} + (3 + 6) =

7*x* + 7*xy* + 2*x*^{2} + (3 + 6)

Then combine the constant terms:

7*x* + 7*xy* + 2*x*^{2} + 9

This line is as clean and clear as it gets. Without over-the-counter acne medication, anyway.

**Be careful** when fractions are involved. Some of them have sharp edges. Using the distributive property to combine like terms with fractional coefficients is a little more complicated, so pay extra close attention to what you're doing. Put on your thinking cap, if you have one. If you don't, a particularly snug baseball cap will do.

### Sample Problem

Combine like terms:

First, do some rearranging so that like terms are next to each other:

Next, use the distributive property to factor out the variables.

Finally, add the fractions like we learned to do in the section on fractions. As we're sure you recall, we'll need to convert these guys so that they have like denominators. If you don't remember how to do that, return to Start and draw 2 cards.

Thinking about the distributive property allows us to separate out the coefficients from the variables, which means we don't need to think about both at once. Remember how well it worked when you tried to think at the same time about riding your bicycle and about that kiss you got from Heather Pelnicki? Didn't turn out well for you, did it? Didn't turn out well for Heather Pelnicki, either. To be fair, she shouldn't have been standing right in the middle of the bike lane.

## Presentation on theme: "Homework Answers (1-2 Worksheet)"— Presentation transcript:

1 **Homework Answers (1-2 Worksheet)**

2 Combining Like TermsTerm: Part of the expression or equation separated by + and -Variable: Letter that represents a number, or a set of numbers.Coefficient: A number in front of a variable. Tells us what to multiply the variable by.Constant: A term with no variables (number by itself).

3

4 **Combining like terms allows us to simplify an expression**

Combining like terms allows us to simplify an expression. To combine like terms ADD or SUBTRACT (look at the signs) the Coefficients. The variables and their exponents will remain the same.Examples:

5 Try:

6 **The Distributive Property**

Objective: You will be able to use the distributive property to evaluate and simplify expressions

7 **The Distributive Property**

8 **The Distributive Property**

9 **Example 1: Rewrite each expression using the distributive property**

Example 1: Rewrite each expression using the distributive property. Then evaluate.

10 **Example 2: Rewrite each product using the distributive property**

Example 2: Rewrite each product using the distributive property. Then simplify. a) b)c)d)

11 Try:

12 e)g)f)

13 **When expressions require us to use the distributive property and combine like terms to**

simplify, distribute first, then combine like terms.Example 3

14

15 **2-4 Dividing Real Numbers**

When multiplying using the distributive property, the term on the outside of the parenthesis multiplies all terms on the inside of parenthesis.When simplifying fractions with one term in the denominator, a similar process is used. Every term in the numerator is divided by the term in the denominator.

16 **Example 3: Simplify each fraction.**

17 **You try. Simplify the fraction.**

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