2.2 Add and Subtract Rational Expressions
Learning Objectives
By the end of this section, you will be able to:
- Add and subtract rational expressions with a common denominator
- Add and subtract rational expressions whose denominators are opposites
- Find the least common denominator of rational expressions
- Add and subtract rational expressions with unlike denominators
- Add and subtract rational functions
Try It
Before you get started, take this readiness quiz:
1) Add: [latex]\frac{7}{10}+\frac{8}{15}[/latex]
2) Subtract: [latex]\frac{3x}{4}-\frac{8}{9}[/latex]
3) Subtract: [latex]6(2x+1)-4(x-5)[/latex]
Add and Subtract Rational Expressions with a Common Denominator
What is the first step you take when you add numerical fractions? You check if they have a common denominator. If they do, you add the numerators and place the sum over the common denominator. If they do not have a common denominator, you find one before you add.
It is the same with rational expressions. To add rational expressions, they must have a common denominator. When the denominators are the same, you add the numerators and place the sum over the common denominator.
Rational Expression Addition and Subtraction
If [latex]p[/latex], [latex]q[/latex], and [latex]r[/latex] are polynomials where [latex]r\neq0[/latex], then
To add or subtract rational expressions with a common denominator, add or subtract the numerators and place the result over the common denominator.
We always simplify rational expressions. Be sure to factor, if possible, after you subtract the numerators so you can identify any common factors.
Remember, too, we do not allow values that would make the denominator zero. What value of [latex]x[/latex] should be excluded in the next example?
Example 2.2.1
Add: [latex]\frac{11x+28}{x+4}+\frac{{x}^{2}}{x+4}[/latex].
Solution
Since the denominator is [latex]x+4[/latex], we must exclude the value [latex]x=-4[/latex].
[latex]\frac{11x+28}{x+4}+\frac{{x}^{2}}{x+4},x\neq-4[/latex]
Step 1: The fractions have a common denominator, so add the numerators and place the sum over the common denominator.
[latex]\frac{11x+28+{x}^{2}}{x+4}[/latex]
Step 2: Write the degrees in descending order.
[latex]\frac{{x}^{2}+11x+28}{x+4}[/latex]
Step 3: Factor the numerator.
[latex]\frac{(x+4)(x+7)}{x+4}[/latex]
Step 4: Simplify by removing common factors.
[latex]\frac{\cancel{(x+4)}(x+7)}{\cancel{x+4}}[/latex]
Step 5: Simplify.
[latex]x+7[/latex]
The expression simplifies to [latex]x+7[/latex] but the original expression had a denominator of [latex]x+4[/latex] so [latex]x\neq-4[/latex].
Try It
4) Simplify: [latex]\frac{9x+14}{x+7}+\frac{{x}^{2}}{x+7}[/latex].
Solution
[latex]x+2[/latex]
Try It
5) Simplify: [latex]\frac{{x}^{2}+8x}{x+5}+\frac{15}{x+5}[/latex].
Solution
[latex]x+3[/latex]
To subtract rational expressions, they must also have a common denominator. When the denominators are the same, you subtract the numerators and place the difference over the common denominator. Be careful of the signs when you subtract a binomial or trinomial.
Example 2.2.2
Subtract: [latex]\frac{5{x}^{2}-7x+3}{{x}^{2}-3x+18}-\frac{4{x}^{2}+x-9}{{x}^{2}-3x+18}[/latex].
Solution
Step 1: Subtract the numerators and place the difference over the common denominator.
[latex]\frac{5{x}^{2}-7x+3-(4{x}^{2}+x-9)}{{x}^{2}-3x+18}[/latex]
Step 2: Distribute the sign in the numerator.
[latex]\frac{5{x}^{2}-7x+3-4{x}^{2}-x+9}{{x}^{2}-3x-18}[/latex]
Step 3: Combine like terms.
[latex]\frac{{x}^{2}-8x+12}{{x}^{2}-3x-18}[/latex]
Step 4: Factor the numerator and the denominator.
[latex]\frac{(x-2)(x-6)}{(x+3)(x-6)}[/latex]
Step 5: Simplify by removing common factors.
[latex]\begin{align*}&\frac{(x-2)\cancel{(x-6)}}{(x+3)\cancel{(x-6)}}\\&\frac{(x-2)}{(x+3)}\end{align*}[/latex]
Try It
6) Subtract: [latex]\frac{4{x}^{2}-11x+8}{{x}^{2}-3x+2}-\frac{3{x}^{2}+x-3}{{x}^{2}-3x+2}[/latex].
Solution
[latex]\frac{x-11}{x-2}[/latex]
Try It
7) Subtract: [latex]\frac{6{x}^{2}-x+20}{{x}^{2}-81}-\frac{5{x}^{2}+11x-7}{{x}^{2}-81}[/latex].
Solution
[latex]\frac{x-3}{x+9}[/latex]
Add and Subtract Rational Expressions Whose Denominators are Opposites
When the denominators of two rational expressions are opposites, it is easy to get a common denominator. We just have to multiply one of the fractions by [latex]\frac{-1}{-1}[/latex].
Let’s see how this works.
Be careful with the signs as you work with the opposites when the fractions are being subtracted.
Example 2.2.3
Subtract: [latex]\frac{{m}^{2}-6m}{{m}^{2}-1}-\frac{3m+2}{1-{m}^{2}}[/latex].
Solution
Step 1: The denominators are opposites, so multiply the second fraction by [latex]\frac{-1}{-1}[/latex].
[latex]\frac{m^2-6m}{m^2-1}-\frac{{\color{Red}{-1}}(3m+2)}{{\color{Red}{-1}}(1-m^2)}[/latex]
Step 2: Simplify the second fraction.
[latex]\frac{m^2-6m}{m^2-1}-\frac{-3m+2}{m^2-1}[/latex]
Step 3: The denominators are the same. Subtract the numerators.
[latex]\frac{m^2-6m-(-3m-2)}{m^2-1}[/latex]
Step 4: Distribute.
[latex]\frac{m^2-6m+3m+2}{m^2-1}[/latex]
Step 5: Combine like terms.
[latex]\frac{m^2-3m+2}{m^2-1}[/latex]
Step 6: Factor the numerator and denominator.
[latex]\frac{(m-1)(m-2)}{(m-1)(m+1)}[/latex]
Step 7: Simplify by removing common factors.
[latex]\frac{\cancel{(m-1)}(m-2)}{\cancel{(m-1)}(m+1)}[/latex]
Step 8: Simplify.
[latex]\frac{m-2}{m+1}[/latex]
Try It
8) Subtract: [latex]\frac{{y}^{2}-5y}{{y}^{2}-4}-\frac{6y-6}{4-{y}^{2}}[/latex].
Solution
[latex]\frac{y+3}{y+2}[/latex]
Try It
9) Subtract: [latex]\frac{2{n}^{2}+8n-1}{{n}^{2}-1}-\frac{{n}^{2}-7n-1}{1-{n}^{2}}[/latex].
Solution
[latex]\frac{3n-2}{n-1}[/latex]
Find the Least Common Denominator of Rational Expressions
When we add or subtract rational expressions with unlike denominators, we will need to get common denominators. If we review the procedure we used with numerical fractions, we will know what to do with rational expressions.
Let’s look at this example: [latex]\frac{7}{12}+\frac{5}{18}[/latex]. Since the denominators are not the same, the first step was to find the least common denominator (LCD).
To find the LCD of the fractions, we factored [latex]12[/latex] and [latex]18[/latex] into primes, lining up any common primes in columns. Then we “brought down” one prime from each column. Finally, we multiplied the factors to find the LCD.
When we add numerical fractions, once we found the LCD, we rewrote each fraction as an equivalent fraction with the LCD by multiplying the numerator and denominator by the same number. We are now ready to add.
[latex]\begin{eqnarray*}&=&\frac7{12}+\frac5{18}\\&=&\frac{7\cdot{\color{red}{3}}}{12\cdot{\color{red}{3}}}+\frac{5\cdot{\color{red}{2}}}{18\cdot{\color{red}{2}}}\\&=&\frac{21}{26}+\frac{10}{36}\\\end{eqnarray*}[/latex]
[latex]\begin{array}{rlllllll} 12&=2&\cdot&2&\cdot&3\;&\;&\\ 18&=2&\cdot&\;&\;&3&\cdot&3\\ \hline LCD&=2&\cdot&2&\cdot&3&\cdot&3\\ LCD&=36&\;&\;&\;&\;&\;& \end{array}[/latex]
We do the same thing for rational expressions. However, we leave the LCD in factored form.
HOW TO
Find the least common denominator of rational expressions.
- Factor each denominator completely.
- List the factors of each denominator. Match factors vertically when possible.
- Bring down the columns by including all factors, but do not include common factors twice.
- Write the LCD as the product of the factors.
Remember, we always exclude values that would make the denominator zero. What values of [latex]x[/latex] should we exclude in this next example?
Example 2.2.4
a. Find the LCD for the expressions [latex]\frac{8}{{x}^{2}-2x-3},\frac{3x}{{x}^{2}+4x+3}[/latex] and
b. Rewrite them as equivalent rational expressions with the lowest common denominator.
Solution
a.
Step 1: Find the LCD for[latex]\frac{8}{{x}^{2}-2x-3},\frac{3x}{{x}^{2}+4x+3}[/latex].
Step 2: Factor each denominator completely, lining up common factors.
[latex]\begin{array}{ccccccccccccccc}x^2&-&2x&-&3&=&(x&+&1)&(x&-&3)&{\color{red}{(}}&&{\color{red}{)}}\\x^2&+&4x&+&3&=&(x&+&1)&{\color{red}{(}}&&{\color{red}{)}}&(x&+&3)\end{array}[/latex]
Step 3: Bring down the columns.
[latex]\begin{array}{ccccccccccccccc}x^2&-&2x&-&3&=&(x&+&1)&(x&-&3)&{\color{red}{(}}&&{\color{red}{)}}\\x^2&+&4x&+&3&=&(x&+&1)&{\color{red}{(}}&&{\color{red}{)}}&(x&+&3)\\ \hline &&&&LCD&=&(x&+&1)&(x&-&3)&(x&+&3)\end{array}[/latex]
Step 4: Write the LCD as the product of the factors.
The LCD is[latex](x+1)(x-3)(x+3)[/latex].
b.
[latex]\frac8{x^2-2x-3},\frac{3x}{x^2+4x+3}[/latex]
Step 1: Factor each denominator.
[latex]\frac8{(x+1)(x-3)},\frac{3x}{(x+1)(x+3)}[/latex]
Step 2: Multiply each denominator by the ‘missing’ LCD factor and multiply each numerator by the same factor.
[latex]\frac{8{\color{Red}{(x+3)}}}{(x+1)(x-3){\color{Red}{(x+3)}}},\frac{3x{\color{Red}{(x-3)}}}{(x+1)(x+3){\color{Red}{(x-3)}}}[/latex]
Step 3: Simplify the numerators.
[latex]\frac{8x+24}{(x+1)(x-3)(x+3)},\frac{3x^2-9x}{(x+1)(x+3)(x-3)}[/latex]
Try It
10) Complete the following:
a. Find the LCD for the expressions [latex]\frac{2}{{x}^{2}-x-12},\frac{1}{{x}^{2}-16}[/latex]
b. Rewrite them as equivalent rational expressions with the lowest common denominator.
Solution
a. [latex](x-4)(x+3)(x+4)[/latex]
b. [latex]\frac{2x+8}{(x-4)(x+3)(x+4)}[/latex], [latex]\frac{x+3}{(x-4)(x+3)(x+4)}[/latex]
Try It
11) Complete the following:
a. Find the LCD for the expressions [latex]\frac{3x}{{x}^{2}-3x+10},\frac{5}{{x}^{2}+3x+2}[/latex]
b. Rewrite them as equivalent rational expressions with the lowest common denominator.
Solution
a. [latex](x+2)(x-5)(x+1)[/latex]
b. [latex]\frac{3{x}^{2}+3x}{(x+2)(x-5)(x+1)}[/latex], [latex]\frac{5x-25}{(x+2)(x-5)(x+1)}[/latex]
Add and Subtract Rational Expressions with Unlike Denominators
Now we have all the steps we need to add or subtract rational expressions with unlike denominators.
Example 2.2.5
Add: [latex]\frac{3}{x-3}+\frac{2}{x-2}[/latex].
Solution
Step 1: Determine if the expressions have a common denominator.
Yes — go to Step 2:
No — Rewrite each rational expression with the LCD.
Find the LCD.
Rewrite each rational expression as an equivalent rational expression with the LCD.
No.
[latex]\displaystyle{\frac{x-3:(x-3){\color{Red}{()}}\\x-2{\color{Red}{()}}:(x-2)}{\mathrm{LCD}:(x-3)(x-2)}}[/latex]
Find the LCD of [latex](x-3)[/latex] and [latex](x-2)[/latex].
[latex]\frac3{x-3}+\frac2{x-2}[/latex]
Change into equivalent rational expressions with the LCD, [latex](x-3)[/latex] and [latex](x-2)[/latex].
[latex]\frac{3{\color{Red}{(x-2)}}}{(x-3){\color{Red}{(x-2)}}}+\frac{2{\color{Red}{(x-3)}}}{(x-2){\color{Red}{(x-3)}}}[/latex]
Keep the denominators factored!
[latex]\frac{3x-6}{(x-3)(x-2)}+\frac{2x-6}{(x-2)(x-3)}[/latex]
Step 2: Add or subtract the rational expressions.
Add the numerators and place the sum over the common denominator.
[latex]\frac{3x-6+2x-6}{(x-3)(x-2)}[/latex]
Step 3: Simplify, if possible.
Because [latex]5x-12[/latex] cannot be factored, the answer is simplified.
[latex]\frac{5x-12}{(x-3)(x-2)}[/latex]
Try It
12) Add: [latex]\frac{2}{x-2}+\frac{5}{x+3}[/latex].
Solution
[latex]\frac{7x-4}{(x-2)(x+3)}[/latex]
Try It
13) Add: [latex]\frac{4}{m+3}+\frac{3}{m+4}[/latex].
Solution
[latex]\frac{7m+25}{(m+3)(m+4)}[/latex]
The steps used to add rational expressions are summarized here.
HOW TO
Add or subtract rational expressions.
- Determine if the expressions have a common denominator.
- Yes – go to step 2.
- No – Rewrite each rational expression with the LCD.
- Find the LCD.
- Rewrite each rational expression as an equivalent rational expression with the LCD.
- Add or subtract the rational expressions.
- Simplify, if possible.
Avoid the temptation to simplify too soon. In the example above, we must leave the first rational expression as [latex]\frac{3x-6}{(x-3)(x-2)}[/latex] to be able to add it to [latex]\frac{2x-6}{(x-2)(x-3)}[/latex]. Simplify only after you have combined the numerators.
Example 2.2.6
Add: [latex]\frac{8}{{x}^{2}-2x-3}+\frac{3x}{{x}^{2}+4x+3}[/latex].
Solution
Step 1: Do the expressions have a common denominator?
No.
Step 2: Rewrite each expression with the LCD.
Find the LCD.
[latex]\begin{align*} x^2-2x-3&=(x+1)(x-3)\\ x^2+4x+3&=(x+1)(x+3)\\ LCD&=(x+1)(x-3)(x+3) \end{align*}[/latex]
Step 3: Rewrite each rational expression as an equivalent rational expression with the LCD.
[latex]\frac{8{\color{Red}{(x+3)}}}{(x+1)(x-3){\color{Red}{(x+3)}}}+\frac{3x{\color{Red}{(x-3)}}}{(x+1)(x+3){\color{Red}{(x-3)}}}[/latex]
Step 4: Simplify the numerators.
[latex]\frac{8x+24}{(x+1)(x-3)(x+3)}+\frac{3x^2-9x}{(x+1)(x+3)(x-3)}[/latex]
Step 5: Add the rational expressions.
[latex]\frac{8x+24+3x^2-9x}{(x+1)(x-3)(x+3)}[/latex]
Step 6: Simplify the numerator.
[latex]\frac{3x^2-x+24}{(x+1)(x-3)(x+3)}[/latex]
The numerator is prime, so there are no common factors.
Try It
14) Add: [latex]\frac{1}{{m}^{2}-m-2}+\frac{5m}{{m}^{2}+3m+2}[/latex].
Solution
[latex]\frac{5{m}^{2}-9m+2}{(m+1)(m-2)(m+2)}[/latex]
Try It
15) Add: [latex]\frac{2n}{{n}^{2}-3n-10}+\frac{6}{{n}^{2}+5n+6}[/latex].
Solution
[latex]\frac{2{n}^{2}+12n-30}{(n+2)(n-5)(n+3)}[/latex]
The process we use to subtract rational expressions with different denominators is the same as for addition. We just have to be very careful of the signs when subtracting the numerators.
Example 2.2.7
Subtract: [latex]\frac{8y}{{y}^{2}-16}-\frac{4}{y-4}[/latex].
Solution
[latex]\frac{8y}{y^2-16}-\frac4{y-4}[/latex]
Step 1: Do the expressions have a common denominator?
No.
Step 2: Rewrite each expression with the LCD.
Find the LCD.
[latex]\begin{align*}{y}^{2}-16&=(y-4)(y+4)\\y-4&=y-4\\LCD&=(y-4)(y+4)\end{align*}[/latex]
Step 3: Rewrite each rational expression as an equivalent rational expression with the LCD.
[latex]\frac{8y}{(y-4)(y+4)}-\frac{4{\color{Red}{(y+4)}}}{y-4{\color{Red}{(y+4)}}}[/latex]
Step 4: Simplify the numerators.
[latex]\frac{8y}{(y-4)(y+4)}-\frac{4y+16}{y-4{\color{Red}{(y+4)}}}[/latex]
Step 5: Subtract the rational expressions.
[latex]\frac{8y-4y-16}{(y-4)(y+4)}[/latex]
Step 6: Simplify the numerator.
[latex]\frac{4y-16}{(y-4)(y+4)}[/latex]
Step 7: Factor the numerator to look for common factors.
[latex]\frac{4(y-4)}{(y-4)(y+4)}[/latex]
Step 8: Remove common factors.
[latex]\frac{4\cancel{(y-4)}}{\cancel{(y-4)}(y+4)}[/latex]
Step 9: Simplify.
[latex]\frac4{(y+4)}[/latex]
Try It
16) Subtract: [latex]\frac{2x}{{x}^{2}-4}-\frac{1}{x+2}[/latex].
Solution
[latex]\frac{1}{x-2}[/latex]
Try It
17) Subtract: [latex]\frac{3}{z+3}-\frac{6z}{{z}^{2}-9}[/latex].
Solution
[latex]\frac{-3}{z-3}[/latex]
There are lots of negative signs in the next example. Be extra careful.
Example 2.2.8
Subtract:[latex]\frac{-3n-9}{{n}^{2}+n-6}-\frac{n+3}{2-n}[/latex].
Solution
Step 1: Factor the denominator.[latex]\frac{-3n-9}{(n-2)(n+3)}-\frac{n+3}{2-n}[/latex]
Step 2: Since [latex]n-2[/latex] and [latex]2-n[/latex] are opposites, we will multiply the second rational expression by [latex]\frac{-1}{-1}[/latex].
[latex]\frac{-3n-9}{(n-2)(n+3)}-\frac{{\color{Red}{(-1)}}(n+3)}{{\color{Red}{(-1)}}(2-n)}[/latex]
Step 3: Write [latex]{\color{Red}{(-1)}}(2-n)[/latex] as [latex]n-2[/latex]
[latex]\frac{-3n-9}{(n-2)(n+3)}-\frac{{\color{Red}{(-1)}}n+3}{(n-2)}[/latex]
Step 4: Simplify. Remember, [latex]a-(-b)=a+b[/latex].
[latex]\frac{-3n-9}{(n-2)(n+3)}+\frac{(n+3)}{(n-2)}[/latex]
Step 5: Do the rational expressions have a common denominator?
No.
Step 6: Find the LCD.
[latex]\begin{align*}{n}^{2}+n-6&=(n-2)(n+3)\\n-2&=(n-2)\\LCD&=(n-2)(n+3)\end{align*}[/latex]
Step 7: Rewrite each rational expression as an equivalent rational expression with the LCD.
[latex]\frac{-3n-9}{(n-2)(n+3)}+\frac{(n+3){\color{Red}{(n+3)}}}{(n-2){\color{Red}{(n+3)}}}[/latex]
Step 8: Simplify the numerators.
[latex]\frac{-3n-9}{(n-2)(n+3)}+\frac{n^2+6n+9}{(n-2)(n+3)}[/latex]
Step 9: Add the rational expressions.
[latex]\frac{-3n-9+n^2+6n+9}{(n-2)(n+3)}[/latex]
Step 10: Simplify the numerator.
[latex]\frac{n^2+3n}{(n-2)(n+3)}[/latex]
Step 11: Factor the numerator to look for common factors.
[latex]\frac{n\cancel{(n+3)}}{(n-2)\cancel{(n+3)}}[/latex]
Step 12: Simplify.
[latex]\frac n{(n-2)}[/latex]
Try It
18) Subtract :[latex]\frac{3x-1}{{x}^{2}-5x-6}-\frac{2}{6-x}[/latex].
Solution
[latex]\frac{5x+1}{(x-6)(x+1)}[/latex]
Try It
19) Subtract: [latex]\frac{-2y-2}{{y}^{2}+2y-8}-\frac{y-1}{2-y}[/latex].
Solution
[latex]\frac{y+3}{y+4}[/latex]
Things can get very messy when both fractions must be multiplied by a binomial to get the common denominator.
Example 2.2.9
Subtract: [latex]\frac{4}{{a}^{2}+6a+5}-\frac{3}{{a}^{2}+7a+10}[/latex].
Solution
Step 1: Factor the denominators.
[latex]\frac4{(a+1)(a+5)}-\frac3{(a+2)(a+5)}[/latex]
Step 2: Do the rational expressions have a common denominator?
No.
Step 3: Find the LCD.
[latex]\begin{align*}{a}^{2}+6a+5&=(a+1)(a+5)\\{a}^{2}+7a+10&=(a+5)(a+2)\\LCD&=(a+1)(a+5)(a+2)\end{align*}[/latex]
Step 4: Rewrite each rational expression as an equivalent rational expression with the LCD.
[latex]\frac{4{\color{Red}{(a+2)}}}{(a+1)(a+5){\color{Red}{(a+2)}}}-\frac{3{\color{Red}{(a+1)}}}{(a+2)(a+5){\color{Red}{(a+1)}}}[/latex]
Step 5: Simplify the numerators.
[latex]\frac{4a+8}{(a+1)(a+5)(a+2)}-\frac{3a+3}{(a+2)(a+5)(a+1)}[/latex]
Step 6: Subtract the rational expressions.
[latex]\frac{4a+8-(3a+3)}{(a+1)(a+5)(a+2)}[/latex]
Step 7: Simplify the numerator.
[latex]\begin{align*}\frac{4a+8-3a-3}{(a+1)(a+5)(a+2)}\\[2ex]\frac{a+5}{(a+1)(a+5)(a+2)}\end{align*}[/latex]
Step 8: Look for common factors.
[latex]\frac{\cancel{(a+5)}}{(a+1)\cancel{(a+5)}(a+2)}[/latex]
Step 9: Simplify.
[latex]\frac1{(a+1)(a+2)}[/latex]
Try It
20) Subtract: [latex]\frac{3}{{b}^{2}-4b-5}-\frac{2}{{b}^{2}-6b+5}[/latex].
Solution
[latex]\frac{1}{(b+1)(b-1)}[/latex]
Try It
21) Subtract: [latex]\frac{4}{{x}^{2}-4}-\frac{3}{{x}^{2}-x-2}[/latex].
Solution
[latex]\frac{1}{(x+2)(x+1)}[/latex]
We follow the same steps as before to find the LCD when we have more than two rational expressions. In the next example, we will start by factoring all three denominators to find their LCD.
Example 2.2.10
Simplify: [latex]\frac{2u}{u-1}+\frac{1}{u}-\frac{2u-1}{{u}^{2}-u}[/latex].
Solution
Step 1: Do the expressions have a common denominator?
No.
Step 2: Rewrite each expression with the LCD.
Find the LCD.
[latex]\begin{align*}u-1&=(u-1)\\u&=u\\{u}^{2}-u&=u(u-1)\\LCD&=u(u-1)\end{align*}[/latex]
Step 3: Rewrite each rational expression as an equivalent rational expression with the LCD.
[latex]\begin{align*}\frac{2u\cdot{\color{Red}{u}}}{(u-1){\color{Red}{u}}}&+\frac{1\cdot{\color{Red} (u-1)}}{u\cdot{\color{Red}{(u-1)}}}-\frac{2u-1}{u(u-1)}\\[2ex]\frac{2u^2}{(u-1)u}&+\frac{u-1}{u\cdot(u-1)}-\frac{2u-1}{u(u-1)}\end{align*}[/latex]
Step 4: Write as one rational expression.
[latex]\frac{2u^2+u-1-2u+1}{u(u-1)}[/latex]
Step 5: Simplify.
[latex]\frac{2u^2-u}{u(u-1)}[/latex]
Step 6: Factor the numerator, and remove common factors.
[latex]\frac{\cancel u(2u-1)}{\cancel u(u-1)}[/latex]
Step 7: Simplify.
[latex]\frac{2u-1}{u-1}[/latex]
Try It
22) Simplify: [latex]\frac{v}{v+1}+\frac{3}{v-1}-\frac{6}{{v}^{2}-1}[/latex].
Solution
[latex]\frac{v+3}{v+1}[/latex]
Try It
23) Simplify: [latex]\frac{3w}{w+2}+\frac{2}{w+7}-\frac{17w+4}{{w}^{2}+9w+14}[/latex].
Solution
[latex]\frac{3w}{w+7}[/latex]
Add and Subtract Rational Functions
To add or subtract rational functions, we use the same techniques we used to add or subtract polynomial functions.
Example 2.2.11
Find [latex]R(x)=f(x)-g(x)[/latex] where [latex]f(x)=\frac{x+5}{x-2}[/latex] and [latex]g(x)=\frac{5x+18}{{x}^{2}-4}[/latex].
Solution
Step 1: Substitute in the functions [latex]f(x),[/latex][latex]g(x)[/latex].
[latex]R(x)=\frac{x+5}{x-2}-\frac{5x+18}{x^2-4}[/latex]
Step 2: Factor the denominators.
[latex]R(x)=\frac{x+5}{x-2}-\frac{5x+18}{(x-2)(x+2)}[/latex]
Step 3: Do the expressions have a common denominator?
No.
Step 4: Rewrite each expression with the LCD.
Find the LCD.
[latex]\begin{align*}x-2&=(x-2)\\{x}^{2}-4&=(x-2)(x+2)\\LCD&=(x-2)(x+2)\end{align*}[/latex]
Step 5: Rewrite each rational expression as an equivalent rational expression with the LCD.
[latex]R(x)=\frac{(x+5){\color{Red}{(x+2)}}}{(x-2){\color{Red}{(x+2)}}}-\frac{5x+18}{(x-2)(x+2)}[/latex]
Step 6: Write as one rational expression.
[latex]R(x)=\frac{(x+5)(x+2)-(5x+18)}{(x-2)(x+2)}[/latex]
Step 7: Simplify.
[latex]\begin{align*}R(x)&=\frac{x^2+7x+10-5x-18}{(x-2)(x+2)}\\R(x)&=\frac{x^2+2x-8}{(x-2)(x+2)}\end{align*}[/latex]
Step 8: Factor the numerator, and remove common factors.
[latex]R(x)=\frac{(x+4)\cancel{(x-2)}}{\cancel{(x-2)}(x+2)}[/latex]
Step 9: Simplify.
[latex]R(x)=\frac{(x+4)}{(x+2)}[/latex]
Try It
24) Find [latex]R(x)=f(x)-g(x)[/latex] where [latex]f(x)=\frac{x+1}{x+3}[/latex] and [latex]g(x)=\frac{x+17}{{x}^{2}-x-12}[/latex].
Solution
[latex]\frac{x-7}{x-4}[/latex]
Try It
25) Find [latex]R(x)=f(x)+g(x)[/latex] where [latex]f(x)=\frac{x-4}{x+3}[/latex] and [latex]g(x)=\frac{4x+6}{{x}^{2}-9}[/latex].
Solution
[latex]\frac{{x}^{2}-3x+18}{(x+3)(x-3)}[/latex]
Access this online resource for additional instruction and practice with adding and subtracting rational expressions.
Key Concepts
- Rational Expression Addition and Subtraction
If [latex]p[/latex], [latex]q[/latex], and [latex]r[/latex] are polynomials where [latex]r\ne 0,[/latex] then
[latex]\frac{p}{r}+\frac{q}{r}=\frac{p+q}{r}[/latex] and [latex]\frac{p}{r}-\frac{q}{r}=\frac{p-q}{r}[/latex] - How to find the least common denominator of rational expressions.
- Factor each expression completely.
- List the factors of each expression. Match factors vertically when possible.
- Bring down the columns.
- Write the LCD as the product of the factors.
- How to add or subtract rational expressions.
- Determine if the expressions have a common denominator.
- Yes – go to step 2.
- No – Rewrite each rational expression with the LCD.
- Find the LCD.
- Rewrite each rational expression as an equivalent rational expression with the LCD.
- Add or subtract the rational expressions.
- Simplify, if possible.
- Determine if the expressions have a common denominator.
Self Check
a) After completing the exercises, use this checklist to evaluate your mastery of the objectives of this section.
b) After reviewing this checklist, what will you do to become confident for all objectives?
