3.3: TwoStep Equations and Properties of Equality
Suppose you are saving up to buy a leather jacket that costs $250. You currently have $90 put away, and you're saving at a rate of $40 per month. Can you write an equation to represent this situation and then solve it in two steps to find the number of months needed to reach your goal? In this Concept, you'll learn how to solve problems just like this.
Guidance
Suppose Shaun weighs 146 pounds and wants to lose enough weight to wrestle in the 130pound class. His nutritionist designed a diet for Shaun so he will lose about 2 pounds per week. How many weeks will it take Shaun to weigh enough to wrestle in his class?
This is an example that can be solved by working backward. In fact, you may have already found the answer by using this method. The solution is 8 weeks.
By translating this situation into an algebraic sentence, we can begin the process of solving equations. To solve an equation means to “undo” all the operations of the sentence, leaving a value for the variable.
Translate Shaun’s situation into an equation.
This sentence has two operations: addition and multiplication. To find the value of the variable, we must use both properties of equality: the Addition Property of Equality and the Multiplication Property of Equality.
Procedure to Solve Equations of the Form
1. Use the Addition Property of Equality to get the variable term
2. Use the Multiplication Property of Equality to get the variable
Example A
Solve Shaun’s problem.
Solution:
Apply the Addition Property of Equality:
Simplify:
Apply the Multiplication Property of Equality:
The solution is
It will take 8 weeks for Shaun to weigh 130 pounds.
Solving Equations by Combining Like Terms
Michigan has a 6% sales tax. Suppose you made a purchase and paid $95.12, including tax. How much was the purchase before tax?
Begin by determining the noun that is unknown and choose a letter as its representation.
The purchase price is unknown so this is our variable. Call it
To solve this equation, you must know how to combine like terms.
Like terms are expressions that have identical variable parts.
According to this definition, you can only combine like terms if they are identical. Combining like terms only applies to addition and subtraction! This is not a true statement when referring to multiplication and division.
The numerical part of an algebraic term is called the coefficient. To combine like terms, you add (or subtract) the coefficients of the identical variable parts.
Example B
Identify the like terms, and then combine.
Solution: Like terms have identical variable parts. The only terms having identical variable parts are
You will now apply this concept to the Michigan sales tax situation.
Example C
What was the purchase amount from this section's opening scenario?
Solution:
Combine the like terms:
Simplify:
Apply the Multiplication Property of Equality:
Simplify:
The price before tax was $89.74.
The next several examples show how algebraic equations can be created to represent realworld situations.
Guided Practice
1. An emergency plumber charges $65 as a callout fee plus an additional $75 per hour. He arrives at a house at 9:30 and works to repair a water tank. If the total repair bill is $196.25, at what time was the repair completed?
2. To determine the temperature in Fahrenheit, multiply the Celsius temperature by 1.8 and then add 32. Determine the Celsius temperature if it is
Solutions:
1. Translate the sentence into an equation. The number of hours it took to complete the job is unknown, so call it
Write the equation:
Apply the Addition Property and simplify.
Apply the Multiplication Property of Equality:
Simplify:
The plumber worked for 1.75 hours, or 1 hour, 45 minutes. Since he started at 9:30, the repair was completed at 11:15.
2. Translate the sentence into an equation. The temperature in Celsius is unknown; call it
Write the equation:
Apply the Addition Property and simplify.
Apply the Multiplication Property of Equality:
Simplify:
If the temperature is
Practice
Sample explanations for some of the practice exercises below are available by viewing the following video. Note that there is not always a match between the number of the practice exercise in the video and the number of the practice exercise listed in the following exercise set. However, the practice exercise is the same in both. CK12 Basic Algebra: TwoStep Equations (13:50)
 Define like terms. Give an example of a pair of like terms and a pair of unlike terms.
 Define coefficient.
In 3 – 7, combine the like terms.

−7x+39x 
3x2+21x+5x+10x2 
6xy+7y+5x+9xy 
10ab+9−2ab 
−7mn−2mn2−2mn+8  Explain the procedure used to solve
−5y−9=74 .
Solve and check your solution.

1.3x−0.7x=12 
6x−1.3=3.2 
5x−(3x+2)=1 
4(x+3)=1 
5q−7=23 
35x+52=23 
s−3s8=56 
\begin{align*}0.1y + 11 =0\end{align*}
0.1y+11=0 
\begin{align*}\frac{5q7}{12} = \frac{2}{3}\end{align*}
5q−712=23 
\begin{align*}\frac{5(q7)}{12} = \frac{2}{3}\end{align*}
5(q−7)12=23 
\begin{align*}33t  99 = 0\end{align*}
33t−99=0 
\begin{align*}5p  2 =32\end{align*}
5p−2=32 
\begin{align*}14x + 9x = 161\end{align*}
14x+9x=161 
\begin{align*}3m  1 + 4m = 5\end{align*}
3m−1+4m=5 
\begin{align*}8x + 3 = 11\end{align*}
8x+3=11 
\begin{align*}24 = 2x + 6\end{align*}
24=2x+6 
\begin{align*}66 = \frac{2}{3}k\end{align*}
66=23k 
\begin{align*}\frac{5}{8} = \frac{1}{2}(a + 2)\end{align*}
58=12(a+2) 
\begin{align*}16 = 3d  5\end{align*}
16=−3d−5  Jayden purchased a new pair of shoes. Including a 7% sales tax, he paid $84.68. How much did his shoes cost before sales tax?
 A mechanic charges $98 for parts and $60 per hour for labor. Your bill totals $498.00, including parts and labor. How many hours did the mechanic work?
 An electric guitar and amp set costs $1195.00. You are going to pay $250 as a down payment and pay the rest in 5 equal installments. How much should you pay each month?
 Jade is stranded downtown with only $10 to get home. Taxis cost $0.75 per mile, but there is an additional $2.35 hire charge. Write a formula and use it to calculate how many miles she can travel with her money. Determine how many miles she can ride.
 Jasmin’s dad is planning a surprise birthday party for her. He will hire a bouncy castle and provide party food for all the guests. The bouncy castle costs $150 dollars for the afternoon, and the food will cost $3.00 per person. Andrew, Jasmin’s dad, has a budget of $300. Write an equation to help him determine the maximum number of guests he can invite.
Mixed Review
 Trish showed her work solving the following equation. What did she do incorrectly? \begin{align*}2c & = 36 \\
c & = 18\end{align*}
−2cc=36=18  Write an expression for the following situation: Yoshi had \begin{align*}d\end{align*}
d dollars, spent $65, and earned $12. He had $96 left.  Find the domain of the following graph.
 Does the graph represent a function? Explain your answer.
 Find the difference: \begin{align*}\frac{1}{2} \frac{15}{9}\end{align*}
12−159 .  What is the additive identity?
 Find the opposite of –4.1398.
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Here you'll learn how to use the Addition Property and Multiplication Property to solve equations that you have written in two steps.