section 7.2 Learning Objectives
7.2: Adding and Subtracting Radical Expressions
- Identify like radicals
- Simplify an expression by adding and subtracting like radicals
- Add and subtract radicals that must be simplified first
Identify like radicals
There are two keys to combining radicals by addition or subtraction: look at the index, and look at the radicand. If these are the same, then addition and subtraction are possible. If not, then you cannot combine the two radicals. In the graphic below, the index of the expression [latex]12\sqrt[3]{xy}[/latex] is [latex]3[/latex] and the radicand is [latex]xy[/latex].
Making sense of a string of radicals may be difficult. One helpful tip is to think of radicals as variables, and treat them the same way. When you add and subtract variables, you look for like terms, which is the same thing you will do when you add and subtract radicals.
In this first example, both radicals have the same radicand and index.
Example 1
Add. [latex] 3\sqrt{11}+7\sqrt{11}[/latex]
Simplify an expression by adding like radicals
This next example contains more addends, or terms that are being added together. Notice how you can combine like terms (radicals that have the same root and index), but you cannot combine unlike terms.
Example 2
Add. [latex] 5\sqrt{2}+\sqrt{3}+4\sqrt{3}+2\sqrt{2}[/latex]
Notice that the expression in the previous example is simplified even though it has two terms: [latex] 7\sqrt{2}[/latex] and [latex] 5\sqrt{3}[/latex]. It would be a mistake to try to combine them further! Some people make the mistake that [latex] 7\sqrt{2}+5\sqrt{3}=12\sqrt{5}[/latex]. This is incorrect because[latex] \sqrt{2}[/latex] and [latex]\sqrt{3}[/latex] are not like radicals so they cannot be added.
Example 3
Add. [latex] 3\sqrt{5}+12\sqrt[3]{7}+\sqrt{5}[/latex]
In the following video, we show more examples of how to identify and add like radicals.
Add radicals that must be simplified first
Sometimes you may need to add and simplify the radical. If the radicals are different, try simplifying first—you may end up being able to combine the radicals at the end as shown in these next two examples.
Example 4
Add and simplify. [latex] 2\sqrt[3]{40}+\sqrt[3]{135}[/latex]
Example 5
Simplify: [latex] \sqrt{12}+\sqrt{27}[/latex]
The following video shows more examples of adding radicals that require simplification.
Simplify an expression by subtracting like radicals
Subtraction of radicals follows the same set of rules and approaches as addition—the radicands and the indices must be the same for two (or more) radicals to be subtracted.
Example 6
Subtract. [latex] 5\sqrt{13}-3\sqrt{13}[/latex]
Example 7
Subtract. [latex] 4\sqrt[3]{5}-\sqrt[3]{3}-2\sqrt[3]{5}[/latex]
Example 8
Simplify: [latex] 5\sqrt{7}-8\sqrt[4]{11}+\sqrt{7}+3\sqrt[4]{11}[/latex]
In the following video, we show more examples of subtracting radical expressions when no simplifying is required.
Subtract radicals that must be simplified first
Example 9
Simplify: [latex] 3\sqrt{45}-8\sqrt{20}[/latex]
In our last video, we show more examples of subtracting radicals that require simplifying.
Summary
Combining radicals is possible when the index and the radicand of two or more radicals are the same. Radicals with the same index and radicand are known as like radicals. It is often helpful to treat radicals just as you would treat variables: like radicals can be added and subtracted in the same way that like variables can be added and subtracted. Sometimes, you will need to simplify a radical expression before it is possible to add or subtract like terms.