<< Chapter < Page | Chapter >> Page > |
A rational equation means that you are setting two rational expressions equal to each other. The goal is to solve for x; that is, find the x value(s) that make the equation true.
Suppose I told you that:
If you think about it, the x in this equation has to be a 3. That is to say, if x=3 then this equation is true; for any other x value, this equation is false.
This leads us to a very general rule.
A very general rule about rational equations
If you have a rational equation where the denominators are the same, then the numerators must be the same.
This in turn suggests a strategy: find a common denominator, and then set the numerators equal.
Example: Rational Equation | |
---|---|
Same problem we worked before, but now we are equating these two fractions, instead of subtracting them. | |
Rewrite both fractions with the common denominator. | |
Based on the rule above—since the denominators are equal, we can now assume the numerators are equal. | |
Multiply it out | |
What we’re dealing with, in this case, is a quadratic equation. As always, move everything to one side... | |
...and then factor. A common mistake in this kind of problem is to divide both sides by ; this loses one of the two solutions. | |
or | Two solutions to the quadratic equation. However, in this case, is not valid, since it was not in the domain of the original right-hand fraction. (Why?) So this problem actually has only one solution, . |
As always, it is vital to remember what we have found here. We started with the equation . We have concluded now that if you plug into that equation, you will get a true equation (you can verify this on your calculator). For any other value, this equation will evaluate false.
To put it another way: if you graphed the functions and , the two graphs would intersect at one point only: the point when .
Notification Switch
Would you like to follow the 'Advanced algebra ii: conceptual explanations' conversation and receive update notifications?