2.3 Simplify Complex Rational Expressions

Step 1: Rewrite the complex fraction as division.

[latex]\frac{6}{x-4}\div\frac{3}{{x}^{2}-16}[/latex]

Step 2: Rewrite as the product of first times the reciprocal of the second.

[latex]\frac{6}{x-4}\cdot\frac{{x}^{2}-16}{3}[/latex]

Step 3: Factor.

[latex]\frac{3\cdot2}{x-4}\cdot\frac{(x-4)(x+4)}{3}[/latex]

Step 4: Multiply.

[latex]\frac{3\cdot2(x-4)(x+4)}{3(x-4)}[/latex]

Step 5: Remove common factors.

[latex]\frac{\cancel{3}\cdot2\cancel{(x-4)}(x+4)}{\cancel{3}\cancel{(x-4)}}[/latex]

Step 6: Simplify.

[latex]2(x+4)[/latex]

Are there any values of [latex]x[/latex] that should not be allowed?

The original complex rational expression had denominators of [latex]x-4[/latex] and [latex]{x}^{2}-16[/latex].

This expression would be undefined if [latex]x=4[/latex] or [latex]x=-4[/latex].

Step 1: Simplify the numerator and denominator.

a: Find the LCD and add the fractions in the numerator.
b: Find the LCD and subtract the fractions in the denominator.

[latex]\frac{{\frac{1\cdot{\color{Red}{2}}}{3\cdot{\color{Red}{2}}}}+{\frac16}}{{\frac{1\cdot{\color{Red}{3}}}{2\cdot{\color{Red}{3}}}}-{\frac{1\cdot{\color{Red}{2}}}{3\cdot{\color{Red}{2}}}}}[/latex]

Step 2: Simplify the numerator and denominator.

[latex]\frac{{\frac26}+{\frac16}}{{\frac36}-{\frac26}}[/latex]

Step 3: Rewrite the complex rational expression as a division problem.

[latex]\frac36\div\frac16[/latex]

Step 4: Multiply the first by the reciprocal of the second.

[latex]\frac36\cdot\frac61[/latex]

Step 5: Simplify.

[latex]3[/latex]

Step 1: Simplify the numerator and denominator.
We will simplify the sum in then numerator and difference in the denominator.

[latex]\frac{{\frac1x}+{\frac1y}}{{\frac xy}-{\frac yx}}[/latex]

Find a common denominator and add the fractions in the numerator

[latex]\begin{align*}\frac{{\frac{1\cdot{\color{Red}{y}}}{x\cdot{\color{Red}{y}}}}+{\frac{1\cdot{\color{Red}{x}}}{y\cdot{\color{Red}{x}}}}}{{\frac{x\cdot{\color{Red}{x}}}{y\cdot{\color{Red}{x}}}}-{\frac{y\cdot{\color{Red}{y}}}{x\cdot{\color{Red}{y}}}}}\\[3ex]\frac{{\frac y{xy}}+{\frac x{xy}}}{{\frac{x^2}{xy}}-{\frac{y^2}{xy}}}\end{align*}[/latex]

Find a common denominator and subtract the fractions in the denominator.
We now have just one rational expression in the numerator and one in the denominator.

[latex]\frac{\frac{y+x}{xy}}{\frac{x^2-y^2}{xy}}[/latex]

Step 2: Rewrite the complex rational expression as a division problem.
We write the numerator divided by the denominator.

[latex]\left(\frac{y+x}{xy}\right)\div\left(\frac{x^2-y^2}{xy}\right)[/latex]

Step 3: Divide the expressions.

[latex]\begin{array}{lll} &\text{Multiply the first by the reciprocal of the second.}\;\;\;&\left(\frac{y+x}{xy}\right)\div\left(\frac{x^2-y^2}{xy}\right)\\[2ex] &\text{Factor any expressions if possible.}\;\;\;&\frac{xy(y+x)}{xy(x-y)(x+y)}\\[2ex] &\text{Remove common factors.}\;\;\;&\frac{\cancel x\cancel y\cancel{(y+x)}}{\cancel x\cancel y(x-y)\cancel{(y+x)}}\\[2ex] &\text{Simplify.}\;\;\;&\frac{1}{x-y} \end{array}[/latex]

Step 1: Simplify the numerator and denominator.
Find common denominators for the numerator and denominator.

[latex]\frac{\frac{n{\color{Red}{(n+5)}}}{1{\color{Red}{(n+5)}}}-\frac{4n}{n+5}}{\frac{1{\color{Red} {(n-5)}}}{(n+5){\color{Red}{(n-5)}}}+\frac{1{\color{Red}{(n+5)}}}{(n-5){\color{Red}{(n+5)}}}}[/latex]

Step 2: Simplify the numerators.

[latex]\frac{{\frac{n^2+5n}{n+5}}-{\frac{4n}{n+5}}}{{\frac{n-5}{(n+5)(n-5)}}+{\frac{(n+5)}{(n-5)(n+5)}}}[/latex]

Step 3: Subtract the rational expressions in the numerator and add in the denominator.

[latex]\frac{\frac{n^2+5n-4n}{n+5}}{\frac{n-5+n+5}{(n+5)(n-5)}}[/latex]

Step 4: Simplify. (We now have one rational expression over one rational expression.)

[latex]\frac{\frac{n^2+n}{n+5}}{\frac{2n}{(n+5)(n-5)}}[/latex]

Step 5: Rewrite as fraction division.

[latex]\frac{n^2+n}{n+5}\div\frac{2n}{(n+5)(n-5)}[/latex]

Step 6: Multiply the first times the reciprocal of the second.

[latex]\frac{n^2+n}{n+5}\cdot\frac{(n+5)(n-5)}{2n}[/latex]

Step 7: Factor any expressions if possible.

[latex]\frac{n(n+1)(n+5)(n-5)}{(n+5)2n}[/latex]

Step 8: Remove common factors.

[latex]\frac{\cancel n(n+1)\cancel{(n+5)}(n-5)}{\cancel{(n+5)}2\cancel n}[/latex]

Step 9: Simplify.

[latex]\frac{(n+1)(n-5)}2[/latex]