Solving Equations With Integers Using Properties of Equality
Learning Outcomes
- Solve equations using the addition and subtraction properties of equality
- Model the division property of equality
- Solve equations using the multiplication and division properties of equality
Solve Equations with Integers Using the Addition and Subtraction Properties of Equality
In Solve Equations with the Subtraction and Addition Properties of Equality, we solved equations similar to the two shown here using the Subtraction and Addition Properties of Equality. Now we can use them again with integers.[latex]x+4=12[/latex] [latex]y--5=9[/latex]
[latex]x+4\color{red}{--4}=12\color{red}{--4}[/latex] [latex]y--5\color{red}{+5}=9\color{red}{+5}[/latex]
[latex]x=8[/latex] [latex]y=14[/latex]
When you add or subtract the same quantity from both sides of an equation, you still have equality.Properties of Equalities
| Subtraction Property of Equality | Addition Property of Equality |
|---|---|
| [latex]\text{For any numbers }a,b,c[/latex], [latex]\text{if }a=b\text{ then }a-c=b-c[/latex]. | [latex]\text{For any numbers }a,b,c[/latex], [latex]\text{if }a=b\text{ then }a+c=b+c[/latex]. |
example
Solve: [latex]y+9=5[/latex] Solution| [latex]y+9=5[/latex] | |
| Subtract [latex]9[/latex] from each side to undo the addition. | [latex]y+9\color{red}{--9}=5\color{red}{--9}[/latex] |
| Simplify. | [latex]y=--4[/latex] |
| [latex]y+9=5[/latex] | |
| Substitute [latex]−4[/latex] for y | [latex]-4+9\stackrel{?}{=}5[/latex] |
| [latex]5=5\quad\checkmark[/latex] |
try it
[ohm_question]141721[/ohm_question]example
Solve: [latex]a - 6=-8[/latex]Answer: Solution
| [latex]a--6=--8[/latex] | |
| Add [latex]6[/latex] to each side to undo the subtraction. | [latex]a--6\color{red}{+6}=--8\color{red}{+6}[/latex] |
| Simplify. | [latex]a=--2[/latex] |
| Check the result by substituting [latex]-2[/latex] into the original equation: | [latex]a--6=--8[/latex] |
| Substitute [latex]-2[/latex] for [latex]a[/latex] | [latex]--2--6\stackrel{?}{=}--8[/latex] |
| [latex]--8=--8\quad\checkmark[/latex] |
try it
[ohm_question]146557[/ohm_question]Model the Division Property of Equality
All of the equations we have solved so far have been of the form [latex]x+a=b[/latex] or [latex]x-a=b[/latex]. We were able to isolate the variable by adding or subtracting the constant term. Now we’ll see how to solve equations that involve division. We will model an equation with envelopes and counters.
Here, there are two identical envelopes that contain the same number of counters. Remember, the left side of the workspace must equal the right side, but the counters on the left side are "hidden" in the envelopes. So how many counters are in each envelope?
To determine the number, separate the counters on the right side into [latex]2[/latex] groups of the same size. So [latex]6[/latex] counters divided into [latex]2[/latex] groups means there must be [latex]3[/latex] counters in each group (since [latex]6\div2=3[/latex]).
What equation models the situation shown in the figure below? There are two envelopes, and each contains [latex]x[/latex] counters. Together, the two envelopes must contain a total of [latex]6[/latex] counters. So the equation that models the situation is [latex]2x=6[/latex].
We can divide both sides of the equation by [latex]2[/latex] as we did with the envelopes and counters.
[latex]\Large{\frac{2x}{\color{red}{2}}=\frac{6}{\color{red}{2}}}[/latex]
[latex]x=3[/latex]
We found that each envelope contains [latex]\text{3 counters.}[/latex] Does this check? We know [latex]2\cdot 3=6[/latex], so it works. Three counters in each of two envelopes does equal six. Another example is shown below.
Now we have [latex]3[/latex] identical envelopes and [latex]\text{12 counters.}[/latex] How many counters are in each envelope? We have to separate the [latex]\text{12 counters}[/latex] into [latex]\text{3 groups.}[/latex] Since [latex]12\div 3=4[/latex], there must be [latex]\text{4 counters}[/latex] in each envelope.
The equation that models the situation is [latex]3x=12[/latex]. We can divide both sides of the equation by [latex]3[/latex].
[latex]\Large{\frac{3x}{\color{red}{3}}=\frac{12}{\color{red}{3}}}[/latex]
[latex]x=4[/latex]
Does this check? It does because [latex]3\cdot 4=12[/latex].example
Write an equation modeled by the envelopes and counters, and then solve it.
Solution
There are [latex]\text{4 envelopes,}[/latex] or [latex]4[/latex] unknown values, on the left that match the [latex]\text{8 counters}[/latex] on the right. Let’s call the unknown quantity in the envelopes [latex]x[/latex].
| Write the equation. | [latex]4x=8[/latex] |
| Divide both sides by [latex]4[/latex]. | [latex]\Large{\frac{4x}{\color{red}{4}}=\frac{8}{\color{red}{4}}}[/latex] |
| Simplify. | [latex]x=2[/latex] |
try it
Write the equation modeled by the envelopes and counters. Then solve it.
[latex-display]4x=12[/latex]; [latex]x=3[/latex-display]
Write the equation modeled by the envelopes and counters. Then solve it.
[latex-display]3x=6[/latex]; [latex]x=2[/latex-display]
Solve Equations Using the Division Property of Equality
The previous examples lead to the Division Property of Equality. When you divide both sides of an equation by any nonzero number, you still have equality.Division Property of Equality
[latex-display]\begin{array}{ccc}\text{For any numbers}& a,b,c,\text{and}& c\ne 0,\\ \hfill \text{If}& a=b\text{ then}& \large{\frac{a}{c}=\frac{b}{c}}.\end{array}[/latex-display]example
[latex]\text{Solve: }7x=-49[/latex].Answer: Solution To isolate [latex]x[/latex], we need to undo multiplication.
| [latex]7x=--49[/latex] | |
| Divide each side by [latex]7[/latex]. | [latex]\Large{\frac{7x}{\color{red}{7}}=\frac{--49}{\color{red}{7}}}[/latex] |
| Simplify. | [latex]x=--7[/latex] |
| [latex]7x=-49[/latex] | |
| Substitute [latex]−7[/latex] for x. | [latex]7\left(-7\right)\stackrel{?}{=}-49[/latex] |
| [latex]-49=-49\quad\checkmark[/latex] |
try it
[ohm_question]146560[/ohm_question]example
Solve: [latex]-3y=63[/latex].Answer: Solution To isolate [latex]y[/latex], we need to undo the multiplication.
| [latex]--3y=63[/latex] | |
| Divide each side by [latex]−3[/latex]. | [latex]\Large{\frac{--3y}{\color{red}{--3}}=\frac{63}{\color{red}{--3}}}[/latex] |
| Simplify | [latex]y=--21[/latex] |
| [latex]-3y=63[/latex] | |
| Substitute [latex]−21[/latex] for y. | [latex]-3\left(-21\right)\stackrel{?}{=}63[/latex] |
| [latex]63=63\quad\checkmark[/latex] |
try it
[ohm_question]146561[/ohm_question]Licenses & Attributions
CC licensed content, Original
- Queston ID: 146560, 146561. Authored by: Lumen Learning. License: CC BY: Attribution. License terms: IMathAS Community License CC-BY + GPL.
CC licensed content, Shared previously
- Ex: Solving One Step Equation by Add/Subtracting Integers (Var on Left). Authored by: James Sousa (Mathispower4u.com). License: CC BY: Attribution.
- Ex: Solving One Step Equation by Mult/Div. Integers (Var on Left). Authored by: James Sousa (Mathispower4u.com). License: CC BY: Attribution.
CC licensed content, Specific attribution
- Prealgebra. Provided by: OpenStax License: CC BY: Attribution. License terms: Download for free at http://cnx.org/contents/[email protected].
