Difference between revisions of "008A Sample Final A, Question 11"

Question: Decompose into separate partial fractions ${\displaystyle {\frac {3x^{2}+6x+7}{(x+3)^{2}(x-1)}}}$

Foundations:
1) How many fractions will this decompose into? What are the denominators?
2) How do you solve for the numerators?
Answer:
1) Since each of the factors are linear, and one has multipliclity 2, there will be three denominators. The linear term, ${\displaystyle x-1}$, will appear once in the denominator of the decomposition. The other two denominators will be ${\displaystyle x+3{\text{, and }}(x+3)^{2}}$.
2) After writing the equality, ${\displaystyle {\frac {3x^{2}+6x+7}{(x+3)^{2}(x-1)}}={\frac {A}{x-1}}+{\frac {B}{x+3}}+{\frac {C}{(x+3)^{2}}}}$, clear the denominators, and evaluate both sides at x = 1, -3, and any third value. Each evaluation will yield the value of one of the three unknowns.

Solution:

Step 1:
From the factored form of the denominator we can observe that there will be three denominators: ${\displaystyle x-1,x+3}$, and ${\displaystyle (x+3)^{2}}$. So the final answer with have the following form: ${\displaystyle {\frac {A}{x-1}}+{\frac {B}{x+3}}+{\frac {C}{(x+3)^{2}}}}$

Step 2:
Now we have the equality ${\displaystyle {\frac {3x^{2}+6x+7}{(x+3)^{2}(x-1)}}={\frac {A}{x-1}}+{\frac {B}{x+3}}+{\frac {C}{(x+3)^{2}}}}$. We clear the denominators and end up with ${\displaystyle A(x+3)^{2}+B(x-1)(x+3)+C(x-1)=3x^{2}+6x+7}$.

Step 3:
By evaluation both sides by using x = 1, we will zero out the B and C. This leads to ${\displaystyle A(1+3)^{2}=3(1)^{2}+6(1)+7,16A=3+6+7}$ , and finally ${\displaystyle A=1}$.

Step 4:
Now evaluating at x = -3 to zero out both A and B. This yields the following equations ${\displaystyle C((-3)-1)=3(-3)^{2}+6(-3)+7}$, ${\displaystyle -4C=3(9)-18+7}$, ${\displaystyle -4C=27-11}$, and ${\displaystyle C=-4}$

Step 5:

To obtain the value of B we can evaluate x at any value except 1, and -3. We do not want to evaluate at 1 and -3 since both of these will zero out the B. Evaluating at x = 0 will make the arithmetic easier, and gives us ${\displaystyle A(0+3)^{2}+B(0-1)(0+3)+C(0-1)=9A-3B-C=7}$. However, we know the values of both A and C, which are 1 and -4, respectively. So ${\displaystyle 9-3B-(-4)=7}$, ${\displaystyle -3B+13=7}$, ${\displaystyle -3B=-6}$, and finally ${\displaystyle B=2}$.

Final Answer:
${\displaystyle {\frac {1}{x-1}}+{\frac {2}{x+3}}-{\frac {4}{(x+3)^{2}}}}$

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