When approximating f'(x) numerically at a point, which concept is typically used?

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Prepare for the AP Calculus BC Test. Study with flashcards and multiple choice questions, each question has hints and explanations. Maximize your exam performance!

Multiple Choice

When approximating f'(x) numerically at a point, which concept is typically used?

Numerical differentiation relies on the difference quotient: the slope of the secant line joining the points (x, f(x)) and (x+h, f(x+h)). This secant slope, computed as [f(x+h) − f(x)]/h, estimates the instantaneous rate of change at x. As h shrinks, this slope approaches the slope of the tangent line, which is the derivative. So, to approximate f′(x) when you don’t have an exact formula, you use the secant slope between x and x+h (forward difference), and sometimes refine with central differences for better accuracy. The area under the curve relates to integration, and an antiderivative is about reversing differentiation, not about approximating a derivative at a point.

When approximating f'(x) numerically at a point, which concept is typically used?

Prepare for the AP Calculus BC Test. Study with flashcards and multiple choice questions, each question has hints and explanations. Maximize your exam performance!

When approximating f'(x) numerically at a point, which concept is typically used?

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