If lim_{x→c} f(x) exists and equals L, and f(c) = L, what does this imply about f at c?

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Study for the AP Calculus BC Test. Discover flashcards and multiple choice questions with hints and explanations to prepare effectively. Ace your exam!

Multiple Choice

If lim_{x→c} f(x) exists and equals L, and f(c) = L, what does this imply about f at c?

Continuity at a point. If the limit of f(x) as x approaches c exists and equals L, and the value f(c) is also L, then f is continuous at c. The function approaches the same finite value from nearby points and actually takes that value at c, so there’s no jump or gap. This is exactly what continuity means at the point c. Note that differentiability isn’t guaranteed by continuity alone, and whether the function is increasing near c isn’t determined by this information.

If lim_{x→c} f(x) exists and equals L, and f(c) = L, what does this imply about f at c?

Study for the AP Calculus BC Test. Discover flashcards and multiple choice questions with hints and explanations to prepare effectively. Ace your exam!

If lim_{x→c} f(x) exists and equals L, and f(c) = L, what does this imply about f at c?

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