Determine the following limits.

Question

\lim_{t \to \infty} \frac{\cos (t)}{e^{3 t}}

Accepted Answer

Welcome back, everyone. Find the limit. Limit as he approaches infinity of sinet divided by E to the power of T T, and we're given for answer choices A 0 B infinity, C1 and D negative infinity. So, let's analyze the given limit. Limit as T approaches infinity. We have sin T in the numerator, and in the denominator, we have an exponential function E to the power of TT. Now, we're going to apply the right substitution and also apply the analytical method. We have a rational function that consists of two functions, and one of them is sine T in the numerator. And we know that it keeps oscillating between -1 and 1, right? It is a periodic function, so we have Y of X as a function and sine T as T approaches infinity. It just keeps oscillating within the range between -1 and 1. On average, that's basically 0. Now, what about the denominator? We have an exponential function, so if we plot it. We have to recall that as E increases. E to T goes to infinity, right? So basically an exponential function grows infinitely. So as T goes to infinity, the denominator grows towards infinity. And now when we look at this attempted calculation, we are dividing a number that oscillates between 1 and 1 by an infinitely large number. So this means that the limit to this specific function is going to be equal to 0. And our final answer to the problem corresponds to the answer choice A. Thank you for watching.

Determine the following limits.
$\lim_{t \to \infty} \frac{\cos (t)}{e^{3 t}}$

Key Concepts

Limits at Infinity

Behavior of Exponential Functions

Trigonometric Functions and Boundedness

Watch next