Evaluate the limit as x approaches 0 of x sin(1/x) using the squeeze theorem.

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Prepare for the DAY 2002A Limits Test with interactive quizzes, detailed explanations, and various study resources. Strengthen your understanding of limits concepts and ace your exam!

Multiple Choice

Evaluate the limit as x approaches 0 of x sin(1/x) using the squeeze theorem.

The key idea is that sin(1/x) stays between -1 and 1 no matter how x behaves near 0. Multiply by x, and you get -|x| ≤ x sin(1/x) ≤ |x|. As x approaches 0, both -|x| and |x| go to 0, so the whole expression is squeezed to 0. This shows the limit exists and equals 0, because the oscillations of sin(1/x) are damped by the factor x shrinking to zero. The magnitude cannot approach 1 or -1, and it certainly doesn’t diverge, since it’s always within ±|x|, which collapses to 0.

Evaluate the limit as x approaches 0 of x sin(1/x) using the squeeze theorem.

Prepare for the DAY 2002A Limits Test with interactive quizzes, detailed explanations, and various study resources. Strengthen your understanding of limits concepts and ace your exam!

Evaluate the limit as x approaches 0 of x sin(1/x) using the squeeze theorem.

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