1.5 Solving Equations Containing Fractions

SECTION 1.5 Learning Objectives

1.5: Solving Equations Containing Fractions

  • Use the properties of equality to solve one-step equations containing fractions
  • Clear fractions in an equation and then solve the equation
  • Solve multi-step equations containing fractions
  • Solve a basic rational equation

 

THINK ABOUT IT

Can you determine what you would do differently if you were asked to solve equations like these?

Solve [latex]\frac{1}{4} + y = 3[/latex]. What makes this example different than the previous ones? Use the box below to write down a few thoughts about how you would solve this equation with a fraction.

Use the properties of equality to solve one-step equations containing fractions

Recall the addition property of equality from a previous section

Addition Property of Equality

For all real numbers a, b, and c: If [latex]a=b[/latex], then [latex]a+c=b+c[/latex].

If two expressions are equal to each other, and you add the same value to both sides of the equation, the equation will remain equal.

The next video shows how to use the addition property of equality to solve equations with fractions.

 

When you follow the steps to solve an equation, you try to isolate the variable. The variable is a quantity we don’t know yet. You have a solution when you get the equation x = some value.

Recall the multiplication property of equality from a previous section

Multiplication Property of Equality

For all real numbers a, b, and c: If a = b, then [latex]a\cdot{c}=b\cdot{c}[/latex] (or ab = ac).

If two expressions are equal to each other and you multiply both sides by the same number, the resulting expressions will also be equivalent.

In the video below you will see examples of how to use the multiplication property of equality to solve one-step equations with integers and fractions.

In the next example, it asks us to Solve [latex]-\frac{7}{2}=\frac{k}{10}[/latex] for k. We will solve this one-step equation using the multiplication property of equality. You will see that the variable is part of a fraction in the given equation, and using the multiplication property of equality allows us to remove the variable from the fraction. Remember that fractions imply division, so you can think of [latex]\frac{k}{10}[/latex] as the variable k is being divided by 10. To “undo” the division, you can use multiplication to isolate k. Lastly, note that there is a negative term in the equation, so it will be important to think about the sign of each term as you work through the problem. Stop after each step you take to make sure all the terms have the correct sign.

Example 1

Solve [latex]-\frac{7}{2}=\frac{k}{10}[/latex] for k.

In the following video you will see examples of using the multiplication property of equality to solve a one-step equation involving negative fractions.

Clear fractions in an equation and then solve the equation

Sometimes, you will encounter a multi-step equation with fractions. If you prefer not working with fractions, you can use the multiplication property of equality to multiply both sides of the equation by a common denominator of all of the fractions in the equation. This will clear all the fractions out of the equation.

Finding a least common denominator involves finding a “Least Common Multiple” (LCM). If you need a review on how to find a LCM, see the video below:

Now lets look at the example below and see how we use a common denominator to clear fractions before solving the equation.

Example 2

Solve  [latex]\frac{1}{2}x-3=2-\frac{3}{4}x[/latex] by clearing the fractions in the equation first.

Of course, if you like to work with fractions, you can just apply your knowledge of operations with fractions and solve.

Solving multi-step equations containing fractions

In the following video, we show how to solve a multi-step equation with fractions.

If the equation contains parentheses, distribute the coefficient in front of the parentheses first, and then clear the fractions. In the next video, we will show an example.

Example 3

Solve the equation [latex]\frac{3}{2}(\frac{5}{9}x + \frac{4}{27})=\frac{32}{9}[/latex]

Here are some steps to follow when you solve multi-step equations.

Steps for Solving Multi-Step Equations

1. Simplify each side by clearing parentheses and combining like terms.

2. (Optional) Multiply to clear any fractions or decimals.

3. Add or subtract to isolate the variable term—you may have to move a term with the variable.

4. Multiply or divide to isolate the variable.

5. Check the solution.

Solve a basic rational equation

Rational Equations

Equations that contain fractional expressions are sometimes called rational equations. For example, [latex]\frac{2x+1}{4}=\frac{x}{3}[/latex] is a rational equation. Rational equations can be useful for representing real-life situations and for finding answers to real problems. In particular, they are quite good for describing a variety of proportional relationships.

The difference between a linear equation and a rational equation is that rational equations can have polynomials in the numerator and denominator of the fractions.  In the next examples, we will clear the denominators of a rational equation with a term that has a polynomial in the numerator.  Note: We will discuss polynomials more in depth in a later module.  In the following example, [latex]{x+5}[/latex] is the polynomial being referred to.

Example 4

Solve the equation [latex]\frac{x+5}{8}=\frac{7}{4}[/latex].

In the next example, we show how to solve a rational equation with a variables on both sides of the equation.

Example 5

Solve the equation [latex]\frac{x+3}{5}=\frac{x+8}{3}[/latex].