The techniques for solving rational equations are extensions of techniques you already know. Recall that when there are fractions in an equation you can multiply through by the denominator to clear the fraction. The same technique helps turn rational expressions into polynomials that you already know how to solve. When you multiply by a constant there is no problem, but when you multiply through by a value that varies and could possibly be zero interesting things happen.

Since every equation is trivially true when both sides are multiplied by zero, how do you account for this when solving rational equations?

#### Guidance

The first step in solving rational equations is to transform the equation into a polynomial equation. This is accomplished by clearing the fraction which means multiplying the entire equation by the common denominator of all the rational expressions. Then you should solve using what you already know. The last thing to check once you have the solutions is that they do not make the denominators of any part of the equation equal to zero when substituted back into the original equation. If so, that solution is called
**
extraneous
**
and is a “fake” solution that was introduced when both sides of the equation were multiplied by a number that happened to be zero.

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Example A
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Solve the following rational equation.

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Solution:
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Multiply all parts of the equation by
, the common denominator.

The only potential extraneous solution would have been -3, so both answers are possible.

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Example B
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Solve the following rational equation

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Solution:
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Multiply each part of the equation by the common denominator of
.

Note that -2 is an extraneous solution. The only actual solution is .

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Example C
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Solve the following rational equation for .

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Solution:
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This question can be done multiple ways. You can use the clearing fractions technique twice.

Now just get the variable to one side of the equation and everything else to the other side.

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Concept Problem Revisited
**

In order to deal with extra solutions introduced when both sides of an equation are multiplied by a variable, you must check each solution to see if it makes the denominator of any fraction in the original equation zero. If it does, it is called an extraneous solution.

#### Vocabulary

An
**
extraneous solution
**
is a “fake” solution to a rational equation that is introduced when both sides of an equation are multiplied through by zero.

A
**
rational equation
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is an equation with at least one rational expression.

A
**
rational expression
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is a ratio of two polynomial expressions.

#### Guided Practice

1. Solve the following rational equation.

2. In electrical circuits, resistance can be solved for using rational expressions. This is an electric circuit diagram with three resistors. The first resistor is run in series to the other two resistors and which are run in parallel. If the total resistance is 100 ohms and and are each 22 ohms, what is the resistance of ?

The equation of value is:

3. Solve the following rational equation.

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Answers:
**

1.

Neither solution is extraneous.

2.

A follow up question would be to ask whether or not ohms can be negative which is beyond the scope of this text.

3.

Note that -2 is an extraneous solution.

#### Practice

Solve the following rational equations. Identify any extraneous solutions.

- Explain what it means for a solution to be extraneous.