Find the following limits or state that they do not exist. Assume a, b, c, and k are fixed real numbers.


$\underset{x\to \infty }{\lim }x\cos \left(x\right)$

Limits at infinity involve evaluating the behavior of a function as the input approaches infinity. This concept is crucial for understanding how functions behave in extreme cases, particularly for determining whether they approach a finite value, diverge, or oscillate. In this context, we analyze the limit of the function as x approaches infinity to ascertain its long-term behavior.

Oscillatory behavior refers to functions that do not settle at a single value as their input increases but instead fluctuate between values. The cosine function, for example, oscillates between -1 and 1. When combined with a term that grows without bound, such as x in this limit, it can lead to indeterminate forms, necessitating careful analysis to determine the limit's existence.

The Squeeze Theorem is a method used to find limits of functions that are difficult to evaluate directly. It states that if a function is 'squeezed' between two other functions that converge to the same limit, then the squeezed function must also converge to that limit. This theorem is particularly useful in cases where oscillatory functions are involved, as it can help establish the limit's behavior by bounding it.