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## Modeling Relationships with Variables

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### Modeling Relationships with Variables

There are many ways to define the word variable. For now, a variable is a symbol, usually a letter that represents an unknown number. This number is known because it can change. Let’s say you work a part time job at the local corner store and you are paid \$7.50 per hour. How do you find the amount of money you make? Oh course, you multiply the number of hours you work by the amount of money you are paid, in this case \$7.50. There are very few jobs that you will work the same amount of hours week after week. Because the number of hours worked changes, h represents the number of hours work and \$7.50h is the algebraic expression used to find your pay. An algebraic expression is a mathematical statement relating numbers and variables with mathematical operations. Algebraic expressions are sometimes called variable expressions.

The following table and examples model how to write algebraic expressions from given English or written phrase.

### Example 1 Writing an Algebraic Expression

Write an algebraic expression for each phrase.

a)            x increased by 12

x + 12 “increased by” means to add 12 to the variable x

b)            9 less than n

n – 9 “less than” means to subtract 9 from the variable n. Notice the order of the number and variable, it switches

c)              triple y

3y “triple” means to multiply by 3. Can you think of other special words that mean to multiply?

d)            the quotient of q and

“quotient” means to divide. Notice the order q is 1st and goes in the numerator.

In each part of the first example, the variable was given in the verbal phrase, in the next example, there are no variables given, so we will need to define a variable before translating the English phrase into an algebraic expression.

### Example 2 Writing an Algebraic Expression

Define a variable and write an algebraic expression for each phrase.

a)            four times a number subtracted from twenty-one

Highlight/Underline the Different Partsfour times a number subtracted from twenty-one

Define a Variable: Let x = the number

Translate Into Math: 21 4 x

b)            the sum of 3 and a number divided by another number

Relate

Highlight/Underline the Different Parts: the sum of 3 and a number divided by another number

Define variables:             Let x = a number

Let y = another number

Translate Into Math: (3 + x) ÷ y or  .

### Modeling Relationships with Equations

An equation is a mathematical sentence that includes an equal sign. An equation consists of two numerical expressions, one on each side of the equation. For an equation to be ‘true’ both sides must evaluate to the same value. A special equation, called an open sentence, contains at least one variable. To determine if an open sentence is true or false, values must be substituted in for the variable. Once each side is simplified, the truth value of the open sentence can be determined.

### Example 3 Write an Equation to Model Income from Sales

Write an equation to model the amount of income from selling cups of lemonade for \$1.25 per cup.

When I first read this problem, I think about making a table. To create the table I ask myself which of the two values affects the other? Which value ‘depends’ on the other value? In this case, the money made depends on the number of cups sold. I do not know how much money is made, until I know how many cups I have sold. Therefore, I put the number of cups sold in the first column and the money made into the second column. Once I filled out the cups sold column, I filled in 1.25 across from cups sold 1, then I added 1.25 to 1.25 to get 2.50 in the money made column adjacent to cups sold 2. I continued to add 1.25 to the new value to get the next. I stopped a 5 cups sold.

As I was making the table, I realized that repeated addition is the same as multiplying. If I multiply 1.25 by the number of cups sold, then I get the amount of money made. To say this simply, the amount of money made is 1.25 times the number of cups sold.

Highlight/Underline the Different Parts

the amount of money made is 1.25 times the number of cups sold

Define a Variable(s)

c = number of cups sold

m = the amount of money made

Translate Into Math

m = 1.25c

### Example 4 Writing an Equation from a Table of Data

Define variables and write an equation to model the data in the table.

In the previous example, I talked about the dependent relationship between the quantities. When using a table the dependent value is stored in the second column. Knowing that the dependent variable is in the second column, I can try dividing the values of the second column by the corresponding values in the first column. If I get the same value I have found common factor or the number I can multiply the first column by to get the second column.

In this example, dividing the total commission by the number of policies sold:

33 ÷ 1 = 33

66 ÷ 2 = 33

99 ÷ 3 = 33

132 ÷ 4 = 33

Highlight/Underline the Different Parts

the total commission earned is 33 times the number of policies sold

Define a Variable(s)

c = total commission earned

p = number of policies sold

Translate Into Math

c = 33p

### Conclusion

When working with variables, it is important to remember what the variable means. That it why I define variables near the beginning of the process of writing an algebraic expression or an equation. The most important take away from this lesson is writing an equation to represent a table of data. You will want to look for a pattern. I will usually ask this question when looking at a table of values, “how can I change the first column into the second column?” I start with single operations such as addition or subtraction, looking for a common difference between the two. The exercises in this lesson are focused on one step equations, which means only one operation is involved.

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