find the following limit or state that it does not exist. assume b is a fixed real number.\n…

find the following limit or state that it does not exist. assume b is a fixed real number.\n lim_{x\rightarrow b}\frac{(x - b)^{30}-3x + 3b}{x - b}\nsimplify the given limit.\n lim_{x\rightarrow b}\frac{(x - b)^{30}-3x + 3b}{x - b}=lim_{x\rightarrow b}(square)\text{ (simplify your answer.)}
Answer
Explanation:
Step1: Rewrite the numerator
We can rewrite $-3x + 3b$ as $-3(x - b)$. So the limit $\lim_{x\rightarrow b}\frac{(x - b)^{30}-3x + 3b}{x - b}=\lim_{x\rightarrow b}\frac{(x - b)^{30}-3(x - b)}{x - b}$.
Step2: Factor out common factor
Factor out $(x - b)$ from the numerator: $\lim_{x\rightarrow b}\frac{(x - b)[(x - b)^{29}-3]}{x - b}$.
Step3: Cancel out common factor
Cancel out the common factor $(x - b)$ in the numerator and the denominator. We get $\lim_{x\rightarrow b}[(x - b)^{29}-3]$.
Step4: Substitute $x = b$
Substitute $x = b$ into the expression $(x - b)^{29}-3$. Since $x - b$ becomes $b - b=0$, we have $(b - b)^{29}-3=0 - 3=-3$.
Answer:
$-3$