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In order to access this I need to be confident with:
Simplifying surds
Collecting like terms
Expanding brackets
Here you will learn about dividing radicals, including when radical expressions can be divided, how to simplify expressions using division and how to do the calculations.
Students first learn how to work with radicals in pre-algebra and expand this knowledge as they move into an algebra 1 and algebra 2 class.
Dividing radicals is where radicals are combined using the division rule to be written as a rationalized radical expression. To divide radicals, use the quotient rule:
\sqrt{\cfrac{m}{n}}=\cfrac{\sqrt{m}}{\sqrt{n}}=\sqrt{m}\div\sqrt{n}
Once the radical expression is written in the form of a numerator divided by a denominator, you must determine if they divide evenly.
If the radicands in the numerator and denominator do not divide, you cannot leave the expression with a radical in the denominator. If there is a radical in the denominator, you must simplify by rationalizing it.
Examples
In the second example, you cannot divide the numerator and the denominator of the expression for two reasons.
The first is that both expressions are not radical expressions. In order to divide radicals, both expressions have to be radicals.
The second reason is that 2 is not a factor of 5. So, \cfrac{2}{\sqrt{5}} cannot be divided, but notice that the denominator has a radical expression which means that the expression needs to be rationalized.
In order to rationalize the denominator, multiply the numerator and the denominator by the radical in the denominator as shown above.
Step-by-step guide: Rationalizing the denominator
Remember that surds can be further simplified using the product rule
\sqrt{a\times{b}}=\sqrt{a}\times\sqrt{b}How does this relate to high school math?
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DOWNLOAD FREEIn order to divide radicals:
Simplify the expression \cfrac{\sqrt{24}}{\sqrt{8}}.
2Simplify the expression.
\sqrt{\cfrac{24}{8}}=\sqrt{3}.So \cfrac{\sqrt{24}}{\sqrt{8}} simplified fully is \sqrt{3}.
Simplify the expression \cfrac{4\sqrt{15}}{2\sqrt{5}} fully.
Substitute known values into the quotient rule.
The coefficients and the radicals of the numerator and denominator divide each other; 2 is a factor of 4 and 5 is a factor of 15.
4\div{2}=2
\sqrt{15}\div\sqrt{5}=\cfrac{\sqrt{15}}{\sqrt{5}}=\sqrt{\cfrac{15}{5}}=\sqrt{3}
Simplify the expression.
Simplify fully the radical expression \cfrac{\sqrt{27}}{3\sqrt{3}}.
Substitute known values into the quotient rule.
The radical in the numerator and the radical in the denominator divide evenly, 3 is a factor of 27.
1 is the coefficient of the numerator and 3 is the coefficient of the denominator. 3 is not a factor of 1.
\sqrt{27}\div\sqrt{3}=\cfrac{\sqrt{27}}{\sqrt{3}}=\sqrt{\cfrac{27}{3}}=\sqrt{9}
1\div{3}=\cfrac{1}{3}
Simplify the expression.
9 is a perfect square so \sqrt{9} can be simplified further.
\sqrt{9}=\sqrt{3\times{3}}=\sqrt{3}\times\sqrt{3}=3
So \cfrac{\sqrt{27}}{3\sqrt{3}}=\cfrac{\sqrt{9}}{3}=\cfrac{3}{3}=1
Simplify the radical expression \cfrac{5\sqrt{2}}{\sqrt{3}} fully.
Substitute known values into the quotient rule.
\sqrt{2} is the radical in the numerator and \sqrt{3} is the radical in the denominator. 3 is not a factor of 2 so they do not divide evenly. The coefficient of the numerator is 5 and the coefficient of the denominator is 1, \, 5 divided by 1 is 5.
The numerator and denominator do not divide each other evenly.
In this case, you have to rationalize the denominator to get rid of the radical expression in the denominator.
Simplify the expression.
Expressions that have radicals in the denominator are considered irrational.
Rationalize the expression by multiplying the numerator and the denominator by \sqrt{3}.
\cfrac{5\sqrt{2}}{\sqrt{3}}\times\cfrac{\sqrt{3}}{\sqrt{3}}=\cfrac{5\sqrt{6}}{\sqrt{9}}=\cfrac{5\sqrt{6}}{3}
\cfrac{5\sqrt{2}}{\sqrt{3}} simplified fully is \cfrac{5\sqrt{6}}{3}.
Simplify the expression \cfrac{\sqrt{40}}{\sqrt{5}}.
Substitute known values into the quotient rule.
Simplify the expression.
\sqrt{8} can be simplified further using the product rule.
\sqrt{8}=\sqrt{4\times{2}}=\sqrt{4}\times\sqrt{2}=2\sqrt{2}
So \cfrac{\sqrt{40}}{\sqrt{5}} simplified fully is 2\sqrt{2}.
Simplify the expression \cfrac{4\sqrt{15}+\sqrt{60}}{\sqrt{5}}.
Substitute known values into the quotient rule.
Before substituting into the quotient rule, the numerator can be simplified first.
In this case, you can use factoring skills to determine if the radical in the denominator divides the numerator. The expression can be rewritten as:
\cfrac{4\sqrt{15}+\sqrt{60}}{\sqrt{5}}=\cfrac{4\times\sqrt{5\times{3}}+\sqrt{5\times{12}}}{\sqrt{5}}=\cfrac{4\times\sqrt{5}\times\sqrt{3}+\sqrt{5}\times\sqrt{12}}{\sqrt{5}}
Notice how all of the terms in the fraction contain a common factor of \sqrt{5}.
You can factor the numerator to be:
\cfrac{4\times\sqrt{5}\times\sqrt{3}+\sqrt{5}\times\sqrt{12}}{\sqrt{5}}=\cfrac{\sqrt{5}(4 \sqrt{3}+\sqrt{12})}{\sqrt{5}}
The \sqrt{5} in the denominator cancels the \sqrt{5} in the numerator.
\cfrac{\sqrt{5}(4 \sqrt{3}+\sqrt{12})}{\sqrt{5}}=4 \sqrt{3}+\sqrt{12}
Simplify the expression.
4 \sqrt{3}+\sqrt{12} can be simplified further because 12 has a perfect square factor of 4.
\sqrt{12} can be rewritten as 2\sqrt{3}\text{.}
Therefore 4\sqrt{3}+\sqrt{12}=4\sqrt{3}+2\sqrt{3}.
Since the numbers under the radicals are the same, you add them together.
4\sqrt{3}+2\sqrt{3}=6\sqrt{3}
So \cfrac{4\sqrt{15}+\sqrt{60}}{\sqrt{5}} fully simplified is 6\sqrt{3}.
Simplify the radical expression \cfrac{5}{1+\sqrt{2}}.
Substitute known values into the quotient rule.
In the expression \cfrac{5}{1+\sqrt{2}} , you cannot divide the numerator by the denominator.
Simplify the expression.
In order to simplify \cfrac{5}{1+\sqrt{2}}, you must find the conjugate of the denominator and then multiply the numerator and the denominator by the conjugate.
The conjugate of the binomial in the denominator, 1+\sqrt{2}, is 1-\sqrt{2}. Notice how the operation of “+” changed to “-”.
Step-by-step guide: Difference of two squares
When multiplying radical expressions in the denominator, the radical simplifies to a whole number.
\cfrac{5}{1+\sqrt{2}}\times\cfrac{1-\sqrt{2}}{1-\sqrt{2}}=\cfrac{5-5\sqrt{2}}{1+\sqrt{2}-\sqrt{2}-\sqrt{4}}=\cfrac{5-5\sqrt{2}}{1-2}=\cfrac{5-5\sqrt{2}}{- \, 1}
=- \, 5+5\sqrt{2}
\cfrac{5}{1+\sqrt{2}}=- \, 5+5 \sqrt{2}
1. Simplify the expression \cfrac{\sqrt{40}}{\sqrt{4}} completely.
For the expression \cfrac{\sqrt{40}}{\sqrt{4}}, the radical in the denominator divides into the radical in the numerator because 4 is a factor of 40.
\sqrt{40}\div\sqrt{4}=\sqrt{\cfrac{40}{4}}=\sqrt{10}
2. Simplify the expression \cfrac{\sqrt{90}}{\sqrt{2}} completely.
For the expression \cfrac{\sqrt{90}}{\sqrt{2}} , the radical in the denominator divides into the radical in the numerator because 2 is a factor of 90.
\sqrt{90} \div \sqrt{2}=\sqrt{45}
\cfrac{\sqrt{90}}{\sqrt{2}}=\sqrt{45}
\sqrt{45} can be simplified further because 9 is the largest square factor of 45.
\begin{aligned}\sqrt{45}&=\sqrt{9}\times\sqrt{5} \\\\ &=3\times\sqrt{5} \\\\ &=3\sqrt{5} \end{aligned}
3. Simplify the expression \cfrac{7 \sqrt{5}}{\sqrt{6}} fully.
For the expression \cfrac{7 \sqrt{5}}{\sqrt{6}}, the radical in the denominator does not divide into the radical in the numerator because 6 is not a factor of 5.
So in order to remove the radical from the denominator, you have to rationalize the denominator by multiplying the numerator and the denominator by \sqrt{6}.
\cfrac{7\sqrt{5}}{\sqrt{6}}\times\cfrac{\sqrt{6}}{\sqrt{6}}=\cfrac{7\sqrt{30}}{\sqrt{36}}=\cfrac{7\sqrt{30}}{6}
\cfrac{7\sqrt{30}}{6}
30 does not have any square factors except 1 so this cannot be simplified any further.
4. Simplify the expression \cfrac{12 \sqrt{12}}{2 \sqrt{6}} fully.
The expression \cfrac{12\sqrt{12}}{2\sqrt{6}} can be divided because the coefficient of the denominator divides the coefficient of the numerator (2 is a factor of 12).
Also, the radical in the denominator divides the radical in the numerator, (6 is a factor of 12).
You can remove the radical from the denominator by dividing.
12\div2=6
\sqrt{12} \div \sqrt{6}=\sqrt{2}
\cfrac{12\sqrt{12}}{2\sqrt{6}}=6\sqrt{2}
5. Divide the expression \cfrac{\sqrt{2}}{3\sqrt{11}}.
For the expression \cfrac{\sqrt{2}}{3 \sqrt{11}} , the denominator does not divide evenly into the numerator.
So, to remove the radical from the denominator, you have to rationalize the denominator.
To rationalize the denominator, multiply the denominator and the numerator by \sqrt{11}.
\cfrac{\sqrt{2}}{3\sqrt{11}}\times\cfrac{\sqrt{11}}{\sqrt{11}}=\cfrac{\sqrt{22}}{3\sqrt{121}}=\cfrac{\sqrt{22}}{3\times11}=\cfrac{\sqrt{22}}{33}
6. Simplify the expression \cfrac{4 \sqrt{15}+2 \sqrt{15}}{3 \sqrt{5}} fully.
For the expression \cfrac{4 \sqrt{15}+2 \sqrt{15}}{3 \sqrt{5}}, the numerator can be simplified because the numbers under the radicals are the same.
So, the radical in the denominator can be removed by division.
So, \cfrac{4\sqrt{15}+2\sqrt{15}}{3\sqrt{5}}=\cfrac{6\sqrt{15}}{3\sqrt{5}}
The numerator and the denominator can divide because 6\div{3}=2 and \sqrt{15}\div\sqrt{5}=\sqrt{3}
So, \cfrac{6\sqrt{15}}{3\sqrt{5}}=2\sqrt{3}
Yes, exponential expressions can be written as exponential expressions using rational exponents.
Yes, cube root expressions can be simplified using the same strategies as simplifying square root expressions.
Yes, there can be polynomials under radical signs such as \sqrt{x^{2}+2x+1}.
When solving radical equations, you will see polynomials under the radical.
Yes, there can be radicals in rational expressions, such as in the expressions, \cfrac{\sqrt{x}}{\sqrt{2x-4}}.
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