Exercise
$\lim_{x\to-55}\left(\frac{sin\left(\sqrt{x+55}\right)}{x+55}\right)$
Step-by-step Solution
Learn how to solve problems step by step online. Find the limit of sin((x+55)^(1/2))/(x+55) as x approaches -55. If we directly evaluate the limit \lim_{x\to-55}\left(\frac{\sin\left(\sqrt{x+55}\right)}{x+55}\right) as x tends to -55, we can see that it gives us an indeterminate form. We can solve this limit by applying L'Hôpital's rule, which consists of calculating the derivative of both the numerator and the denominator separately. After deriving both the numerator and denominator, and simplifying, the limit results in. The limit of the product of a function and a constant is equal to the limit of the function, times the constant: \displaystyle \lim_{t\to 0}{\left(at\right)}=a\cdot\lim_{t\to 0}{\left(t\right)}.
Find the limit of sin((x+55)^(1/2))/(x+55) as x approaches -55
Final answer to the exercise
$\infty $