3.5 Divide Radical Expressions

a.

Step 1: Rewrite using the quotient property, [latex]\frac{\sqrt[n]{a}}{\sqrt[n]{b}}=\sqrt[n]{\frac{a}{b}}[/latex]

[latex]\sqrt{\frac{72{x}^{3}}{162x}}[/latex]

Step 2: Remove common factors.

[latex]\sqrt{\frac{\overline{)18}·4·{x}^{2}·\overline{)x}}{\overline{)18}·9·\overline{)x}}}[/latex]

Step 3: Simplify.

[latex]\sqrt{\frac{4{x}^{2}}{9}}[/latex]

Step 4: Simplify the radical.

[latex]\frac{2x}{3}[/latex]

b.

Step 1: Rewrite using the quotient property, [latex]\frac{\sqrt[n]{a}}{\sqrt[n]{b}}=\sqrt[n]{\frac{a}{b}}[/latex]

[latex]\sqrt[3]{\frac{32{x}^{2}}{4{x}^{5}}}[/latex]

Step 2: Simplify the fraction under the radical.

[latex]\sqrt[3]{\frac{8}{{x}^{3}}}[/latex]

Step 3: Simplify the radical.

[latex]\frac{2}{x}[/latex]

a.

Step 1: Rewrite using the quotient property.

[latex]\sqrt{\frac{147a{b}^{8}}{3{a}^{3}{b}^{4}}}[/latex]

Step 2: Remove common factors in the fraction.

[latex]\sqrt{\frac{49{b}^{4}}{{a}^{2}}}[/latex]

Step 3: Simplify the radical.

[latex]\frac{7{b}^{2}}{a}[/latex]

b.

Step 1: Rewrite using the quotient property.

[latex]\sqrt[3]{\frac{-250{m}^{}{n}^{-2}}{2{m}^{-2}{n}^{4}}}[/latex]

Step 2: Simplify the fraction under the radical.

[latex]\sqrt[3]{\frac{-125{m}^{3}}{{n}^{6}}}[/latex]

Step 3: Simplify the radical.

[latex]-\frac{5m}{{n}^{2}}[/latex]

Step 1: Rewrite using the quotient property.

[latex]\sqrt{\frac{54{x}^{5}{y}^{3}}{3{x}^{2}y}}[/latex]

Step 2: Remove common factors in the fraction.

[latex]\sqrt{18{x}^{3}{y}^{2}}[/latex]

Step 3: Rewrite the radicand as a product using the largest perfect square factor.

[latex]\sqrt{9{x}^{2}{y}^{2}\cdot 2x}[/latex]

Step 4: Rewrite the radical as the product of two radicals.

[latex]\sqrt{9{x}^{2}{y}^{2}}\cdot \sqrt{2x}[/latex]

Step 5: Simplify.

[latex]3xy\sqrt{2x}[/latex]

a.

To rationalize a denominator with one term, we can multiply a square root by itself. To keep the fraction equivalent, we multiply both the numerator and denominator by the same factor.

Step 1: Multiply both the numerator and denominator by [latex]\sqrt{3}[/latex]

[latex]\frac{4\;\cdot\;{\color{red}{\sqrt3}}}{\sqrt3\;\cdot\;{\color{red}{\sqrt3}}}[/latex]

Step 2: Simplify.

[latex]\frac{4\;\cdot\;{\color{black}{\sqrt3}}}3[/latex]

b.

We always simplify the radical in the denominator first, before we rationalize it. This way the numbers stay smaller and easier to work with.

Step 1: The fraction is not a perfect square, so rewrite using the Quotient Property.

[latex]\frac{\sqrt3}{\sqrt{20}}[/latex]

Step 2: Simplify the denominator.

[latex]\frac{\sqrt3}{2\sqrt5}[/latex]

Step 3: Multiply the numerator and denominator by [latex]\sqrt{5}[/latex]

[latex]\frac{\sqrt3\;\cdot\;{\color{red}{\sqrt5}}}{2\sqrt5\;\cdot\;{\color{red}{\sqrt5}}}[/latex]

Step 4: Simplify.

[latex]\begin{align*}&\frac{\sqrt{15}\;}{2\;\cdot\;5}\\[3ex]&\frac{\sqrt{15}\;}{10}\end{align*}[/latex]

c.

Step 1: Multiply the numerator and denominator by [latex]\sqrt{6x}[/latex]

[latex]\frac{3\;\cdot\;{\color{red}{\sqrt{6x}}}}{\sqrt{6x}\;\cdot\;{\color{red}{\sqrt{6x}}}}[/latex]

Step 2: Simplify.

[latex]\begin{align*}&\frac{3\;{\color{black}{\sqrt{6x}}}}{6x}\\[3ex]&\frac{\;{\color{black}{\sqrt{6x}}}}{2x}\end{align*}[/latex]

a.

To rationalize a denominator with a cube root, we can multiply by a cube root that will give us a perfect cube in the radicand in the denominator. To keep the fraction equivalent, we multiply both the numerator and denominator by the same factor.

Step 1: The radical in the denominator has one factor of [latex]6[/latex].

Step 2: Multiply both the numerator and denominator by [latex]\sqrt[3]{{6}^{2}}[/latex], which gives us [latex]2[/latex] more factors of [latex]6[/latex].

[latex]\frac{1\;\cdot\;{\color{red}{\sqrt[3]{6^2}}}}{\sqrt[3]6\;\cdot{\color{red}{\sqrt[3]{6^2}}}}[/latex]

Step 3: Multiply. Notice the radicand in the denominator has [latex]3[/latex] powers of [latex]6[/latex].

[latex]\frac{\;\sqrt[3]{6^2}}{\sqrt[3]{6^3}}[/latex]

Step 4: Simplify the cube root in the denominator.

[latex]\frac{\;\sqrt[3]{36}}6[/latex]

b.

We always simplify the radical in the denominator first, before we rationalize it. This way the numbers stay smaller and easier to work with.

Step 1: The fraction is not a perfect cube, so rewrite using the Quotient Property.

[latex]\frac{\sqrt[3]7}{\sqrt[3]{24}}[/latex]

Step 2: Simplify the denominator.

[latex]\frac{\sqrt[3]7}{2\sqrt[3]3}[/latex]

Step 3: Multiply the numerator and denominator by [latex]\sqrt[3]{{3}^{2}}[/latex]
This will give us [latex]3[/latex] factors of [latex]3[/latex].

[latex]\frac{\sqrt[3]7\;\cdot\;{\color{red}{\sqrt[3]{3^2}}}}{2\sqrt[3]3\;\cdot\;{\color{red}{\sqrt[3]{3^2}}}}[/latex]

Step 4: Simplify.

[latex]\frac{\sqrt[3]{63}}{2\sqrt[3]{3^3}}[/latex]

Remember, [latex]\sqrt[3]{{3}^{3}}=3[/latex]

[latex]\frac{\sqrt[3]{63}}{2\;\cdot\;3}[/latex]

Step 5: Simplify.

[latex]\frac{\sqrt[3]{63}}6[/latex]

c.

Step 1: Rewrite the radicand to show the factors.

[latex]\frac{\;3}{\sqrt[3]{2^2\;\cdot\;x}}[/latex]

Step 2: Multiply the numerator and denominator by [latex]\sqrt[3]{2·{x}^{2}}[/latex]

Step 3: This will get us [latex]3[/latex] factors of [latex]2[/latex] and [latex]3[/latex] factors of [latex]x[/latex].

[latex]\frac{\;3\;\cdot\;{\color{red}{\sqrt[3]{2\;\cdot\;x^2}}}}{\sqrt[3]{2^2x}\;\cdot{\color{red}{\;}}{\color{red}{\sqrt[3]{2\;\cdot\;x^2}}}\;}[/latex]

Step 4: Simplify.

[latex]\frac{\;3\;\sqrt[3]{2x^2}}{\sqrt[3]{2^3x^3}\;\;}[/latex]

Step 5: Simplify the radical in the denominator.

[latex]\frac{\;3\;\sqrt[3]{2x^2}}{2x\;\;}[/latex]

a.

To rationalize a denominator with a fourth root, we can multiply by a fourth root that will give us a perfect fourth power in the radicand in the denominator. To keep the fraction equivalent, we multiply both the numerator and denominator by the same factor.

Step 1: The radical in the denominator has one factor of [latex]2[/latex].

Step 2: Multiply both the numerator and denominator by [latex]\sqrt[4]{{2}^{3}}[/latex], which gives us [latex]3[/latex] more factors of [latex]2[/latex].

[latex]\frac{1\;\cdot\;{\color{red}{\sqrt[4]{2^3}}}}{\sqrt[4]2\;\cdot\;{\color{red}{\sqrt[4]{2^3}}}}[/latex]

Step 3: Multiply. Notice the radicand in the denominator has [latex]4[/latex] powers of [latex]2[/latex].

[latex]\frac{\;\sqrt[4]8}{\sqrt[4]{2^4}}[/latex]

Step 4: Simplify the fourth root in the denominator.

[latex]\frac{\;\sqrt[4]8}2[/latex]

b.

We always simplify the radical in the denominator first, before we rationalize it. This way the numbers stay smaller and easier to work with.

Step 1: The fraction is not a perfect fourth power, so rewrite using the Quotient Property.

[latex]\frac{\sqrt[4]5}{\sqrt[4]{64}}[/latex]

Step 2: Rewrite the radicand in the denominator to show the factors.

[latex]\frac{\sqrt[4]5}{\sqrt[4]{2^6}}[/latex]

Step 3: Simplify the denominator.

[latex]\frac{\sqrt[4]5}{2\sqrt[4]{2^2}}[/latex]

Step 4: Multiply the numerator and denominator by [latex]\sqrt[4]{{2}^{2}}[/latex]
This will give us [latex]4[/latex] factors of [latex]2[/latex].

[latex]\frac{\sqrt[4]5\;\cdot{\color{red}{\;}}{\color{red}{\sqrt[4]{2^2}}}}{2\sqrt[4]{2^2}\;.\;{\color{red}{\;}}{\color{red}{\sqrt[4]{2^2}}}}[/latex]

Step 5: Simplify.

[latex]\frac{\sqrt[4]5\;\cdot\;\sqrt[4]4}{2\sqrt[4]{2^4}\;}[/latex]

Remember, [latex]\sqrt[4]{{2}^{4}}=2[/latex]

[latex]\frac{\sqrt[4]{20}}{2\;\cdot\;2\;}[/latex]

Step 6: Simplify.

[latex]\frac{\sqrt[4]{20}}{4\;}[/latex]

c.

Step 1: Rewrite the radicand to show the factors.

[latex]\frac2{\sqrt[4]{2^3\;\cdot\;x}}[/latex]

Step 2: Multiply the numerator and denominator by [latex]\sqrt[4]{2·{x}^{3}}[/latex]
This will get us [latex]4[/latex] factors of [latex]2[/latex] and [latex]4[/latex] factors of [latex]x[/latex].

[latex]\frac{2\;\cdot{\color{red}{\;}}{\color{red}{\sqrt[4]{2\;\cdot\;x^3}}}}{\sqrt[4]{2^3x\;}\;\cdot\;{\color{red}{\sqrt[4]{2\;\cdot\;x^3\;}}}}[/latex]

Step 3: Simplify.

[latex]\frac{2\;\sqrt[4]{2x^3}}{\sqrt[4]{2^4x^4\;}}[/latex]

Step 4: Simplify the radical in the denominator.

[latex]\frac{2\;\sqrt[4]{2x^3}}{2^4x^4\;}[/latex]

Step 5: Simplify the fraction.

[latex]\frac{\;\sqrt[4]{2x^3}}x[/latex]

Step 1: Multiply the numerator and denominator by the conjugate of the denominator.

[latex]\frac{5\;{\color{red}{\left(2+\sqrt3\right)}}}{\left(2-\sqrt3\right){\color{red}{\left(2+\sqrt3\right)}}}[/latex]

Step 2: Multiply the conjugates in the denominator.

[latex]\frac{5\;\left(2+\sqrt3\right)}{2^2\;-\left(\sqrt3\right)^2}[/latex]

Step 3: Simplify the denominator.

[latex]\frac{5\;\left(2+\sqrt3\right)}{4-3}[/latex]

Step 4: Simplify the denominator.

[latex]\frac{5\;\left(2+\sqrt3\right)}1[/latex]

Step 5: Simplify.

[latex]5\;\left(2+\sqrt3\right)[/latex]