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Ch. 5 – Applications of Derivatives

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1 Ch. 5 – Applications of Derivatives
5.3 – Connecting f’ and f’’ with the Graph of f

2 Concavity: The curvature of the graph at a point
A graph is concave up at x = c if it curves upwards (slope is increasing) at x = c Concave up means f’(c) is increasing and f’’(c) > 0 ! A graph is concave down at x = c if it curves downwards (slope is decreasing) at x = c Concave down means f’(c) is decreasing and f’’(c) < 0 ! f(x) is concave up at x = 1 but concave down at x = -1

3 Point of Inflection: a point where the graph of a function has a tangent line and changes concavity
f must be continuous at a point of inflection So... To find local extrema, find when... f(x) changes slope (from + to – , or visa versa), or f’(x) changes sign (when f‘(x) = 0 or f‘(x) does not exist) To find changes in concavity (pts. of inflection), find when... f‘(x) changes slope (from + to – , or visa versa), or f’’(x) changes sign (when f‘’(x) = 0 or f‘’(x) does not exist) If f is differentiable at all points, then... At a maximum, the graph is always concave down At a minimum, the graph is always concave up

4 - - + + + Ex: Find the local extrema of . Find the critical points...
f‘ = 0 when x = -2/3 and x = 1, and f’ exists everywhere, so those are the 2 critical points Don’t forget to plug -2/3 and 1 into f to find the y-values! There is a local maximum at (-2/3, 130/27) and a local minimum at (1, 5/2). To verify the local extrema, one can use a 2nd derivative sign chart. Since f’’(-2/3) > 0 and f’(-2/3) = 0, f has a local maximum at x = -2/3 Since f’’(1) < 0 and f’(1) = 0, f has a local minimum at x = 1 - + + - +

5 - + Ex: Find the local extrema and concavity of f‘ = 0 when x = ½
Test a line chart... Local ( ½ , -e/2) No local maxes - +

6 - + Ex (cont’d): Now let’s find the concavity: f‘ = 0 when x = 0
Test a line chart... Concave up on (0, ∞) Concave down on (-∞, 0) - +


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