Evaluate the limit as n approaches infinity of (n/(n+1))^n.

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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 n approaches infinity of (n/(n+1))^n.

Think of it as a standard “atomizes to e” scenario: a base that’s close to 1 raised to a large power. Write the expression as (1 - 1/(n+1))^n. Taking natural logs, let L be the limit and compute ln L = lim n ln(1 - 1/(n+1)). For small t, ln(1 - t) ~ -t, so with t = 1/(n+1) we get ln L = lim n * (-1/(n+1)) = -1. Therefore L = e^{-1}. Another way is to note (1 - 1/(n+1))^{n+1} -> e^{-1} and the overall exponent n/(n+1) -> 1, giving the same result.

Evaluate the limit as n approaches infinity of (n/(n+1))^n.

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 n approaches infinity of (n/(n+1))^n.

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