### Unit 1: Variables and Variable Expressions

In algebra, we use letters to represent numbers in equations. We call these letters variables, because the numbers they represent vary. For example, let’s say your salary is $10 per hour. If you worked two hours, you would be paid $10 × 2, or $20. If you worked five hours you would be paid $10 × 5, or $50. To generalize this we can say that if you work *h* hours, you will be paid $10 × *h*. In this unit, we learn that the properties of numbers also apply to the letters we use in these formulas: you treat variables the same way you treat numbers in calculations. We discuss how to recognize like terms, which you can add and subtract as if they were numbers.

**Completing this unit should take you approximately 4 hours.**

Upon successful completion of this unit, you will be able to:

- identify parts of algebraic expressions, including terms, factors, and coefficients;
- evaluate algebraic expressions for the given values of the variables; and
- apply commutative, associative, and distributive properties of real numbers to simplify algebraic expressions.

### 1.1: Variables, Constants, and Coefficients

The first step in understanding algebra is knowing the definitions of variables, constants, and coefficients. These are all important parts of an algebraic equation.

Read these notes to get a handle on the definitions we'll be using and to see a few examples. After you read, complete a few practice problems and check your answers.

### 1.2: Replacing Variables with Their Values

We often know the value of a variable for a given problem. For the example given at the start of the chapter, we said that if you make $10 per hour and you work h hours, your pay would be $10 ×

*h*. Let's say you worked 40 hours in a given week. For that week, we say*h*= 40. So, your pay would be $10 × 40 = $400.Being able to substitute a value in for a variable appropriately is an important skill in algebra. You also need to understand how to write variable expressions when multiplication is involved.

Watch this video, which highlights some common ways to write multiplication in algebra. It also shows examples of how to substitute values in algebraic expressions.

After you watch, complete these assessments that involve substituting values into algebraic expressions with variables. If you need help, use the review tools at the bottom of the page.

Continue with this second set of assessments. If you need help, use the review tools at the bottom of the page.

### 1.3: Order of Operations Review

Mathematicians use the convention order of operations to ensure we always evaluate expressions with many operations in the same way. This ensures we complete complicated calculations the same way every time.

Watch this video to review the rules for order of operations. Many use the acronym PEMDAS to remember the order of operations: parentheses, exponents, multiplication and division, addition and subtraction.

Try each of the examples on this worksheet without looking at the solution. Then, check your answers. If you need more practice, you can do the review problems that follow the examples.

### 1.4: Commutative Property of Addition and Multiplication

In addition to knowing the order of operations, we need to understand some properties of arithmetic before we can begin evaluating more complicated algebraic expressions.

The commutative property of addition and multiplication states that the order of the input numbers does not matter. For example, 3 + 2 = 5 and 2 + 3 = 5. Likewise, 3 × 2 = 6 and 2 × 3 = 6.

Watch these videos for examples of how to apply these laws in arithmetic.

### 1.5: Associative Property of Addition and Multiplication

The associative property states that we can add or multiply several numbers in any order. We use this property frequently, such as when we switch terms around to simplify algebraic expressions. For example, (1 + 1) + 3 = 5 and 1+ (1 + 3) = 5.

Watch these videos for examples of how to use this property in arithmetic.

### 1.6: Distributive Property of Multiplication over Addition/Subtraction

The distributive property is another property we use extensively to simplify algebraic expressions. It allows us to "distribute" a multiplicative factor over an addition or subtraction. For example, for the expression 4 × (3 + 2), we can distribute the multiple of four across the addition in the parentheses to get (4 x 3) + (4 × 2) = 12 + 8 = 20.

Watch this video for examples of how to use this property in arithmetic.

### 1.7: Definition and Examples of Like Terms

Like terms have the same variables using the same exponents, but may have different numerical coefficients. You need to recognize like terms to add and subtract them. For example, 3

*x*and 8*x*are like terms because they have the same variables and exponents. The terms 3*x*and 8*x*^{2}are not like terms because, although the variables are the same, the exponents on the variables are different.Review this brief definition and examples in this encyclopedia entry.

### 1.8: Simplifying Expressions by Combining Like Terms

In general algebraic expressions, we open the parentheses to combine like terms. Due to the commutative and associative properties, we can move like terms around to combine them. This makes it easier to solve complicated-looking expressions.

- Watch these videos to see examples of how to combine like terms to simplify algebraic expressions.
After you watch, complete this first set of assessments. If you need help, use the review tools at the bottom of the page.

Continue with this second set of assessments. If you need help, use the review tools at the bottom of the page.