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     • Concavity in Calculus helps us predict the shape and behavior of a graph at critical intervals and points. Knowing about the graph’s concavity will also be helpful when sketching functions with complex graphs.
     www.storyofmathematics.com/concavity-calculus/

     Concavity calculus – Concave Up, Concave Down, and Points of ...

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   Why do we need to know where a graph is concave?

   • If we are trying to understand the shape of the graph of a function, knowing where it is concave up and concave down helps us to get a more accurate picture. Of particular interest are points at which the concavity changes from up to down or down to up; such points are called inflection points.

   5.4: Concavity and Inflection Points - Mathematics LibreTexts

   math.libretexts.org/Bookshelves/Calculus/Calculus_(Guichard)/05:_Curve_Sketching/5.04:_Concavity_and_Inflection_Points

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   How do you know if a graph is convex or concave?

   • An easy way to test for both is to connect two points on the curve with a straight line. If the line is above the curve, the graph is convex. If the line is below the curve, the graph is concave. A point of inflexion occurs when the curve transitions from convex to concave or vice versa. We’re looking for sections of the graph where f'' (x) = 0.

   Convex and Concave Curves | Revision | MME - MME Revise

   mmerevise.co.uk/a-level-maths-revision/convex-and-concave-curves/

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   How do you know if a function is concave?

   • The second derivative tells us if a function is concave up or concave down If f ″ (x) is positive on an interval, the graph of y = f(x) is concave up on that interval. We can say that f is increasing (or decreasing) at an increasing rate. If f ″ (x) is negative on an interval, the graph of y = f(x) is concave down on that interval.

   2.6: Second Derivative and Concavity - Mathematics LibreTexts

   math.libretexts.org/Courses/Penn_State_University_Greater_Allegheny/MATH_110:_Techniques_of_Calculus_I_(Gaydos)/02:_The_Derivative/2.06:_Second_Derivative_and_Concavity

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   Which graph represents a local minimum if a graph is concave?

   • Figure \ (\PageIndex {13}\): A graph of \ (f (x)\) in Example \ (\PageIndex {4}\). The second derivative is evaluated at each critical point. When the graph is concave up, the critical point represents a local minimum; when the graph is concave down, the critical point represents a local maximum.

   3.4: Concavity and the Second Derivative - Mathematics LibreTexts

   math.libretexts.org/Bookshelves/Calculus/Calculus_3e_(Apex)/03:_The_Graphical_Behavior_of_Functions/3.04:_Concavity_and_the_Second_Derivative

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   What does a concave up curve look like?

   • Generally, a concave up curve has a shape resembling "∪" and a concave down curve has a shape resembling "∩" as shown in the figure below. There are a number of ways to determine the concavity of a function. If given a graph of f (x) or f' (x), determining concavity is relatively simple.

   Concavity - Math.net

   www.math.net/concavity

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   Does concavity change at points B and G?

   • The concavity changes at points b and g. At points a and h, the graph is concave up on both sides, so the concavity does not change. At points c and f, the graph is concave down on both sides. At point e, even though the graph looks strange there, the graph is concave down on both sides – the concavity does not change.

   2.6: Second Derivative and Concavity - Mathematics LibreTexts

   math.libretexts.org/Courses/Penn_State_University_Greater_Allegheny/MATH_110:_Techniques_of_Calculus_I_(Gaydos)/02:_The_Derivative/2.06:_Second_Derivative_and_Concavity

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3. math.libretexts.org › Bookshelves › Calculus3.4: Concavity and the Second Derivative - Mathematics LibreTexts

   math.libretexts.org › Bookshelves › Calculus

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   Dec 21, 2020 · When the graph is concave up, the critical point represents a local minimum; when the graph is concave down, the critical point represents a local maximum. We have been learning how the first and second derivatives of a function relate information about the graph of that function.

4. mmerevise.co.uk › convex-and-concave-curvesConvex and Concave Curves | Revision | MME - MME Revise

   mmerevise.co.uk › convex-and-concave-curves

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   When f''(x) \textcolor{red}{< 0}, we have a portion of the graph where the gradient is decreasing, so the graph is concave at this section. An easy way to test for both is to connect two points on the curve with a straight line. If the line is above the curve, the graph is convex. If the line is below the curve, the graph is concave.

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6. www.math.net › concavityConcavity - Math.net

   www.math.net › concavity

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   The concavity of the graph of a function refers to the curvature of the graph over an interval; this curvature is described as being concave up or concave down. Generally, a concave up curve has a shape resembling "∪" and a concave down curve has a shape resembling "∩" as shown in the figure below. Concave up.

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7. math.libretexts.org › Bookshelves › Calculus5.4: Concavity and Inflection Points - Mathematics LibreTexts

   math.libretexts.org › Bookshelves › Calculus

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   Dec 21, 2020 · If we are trying to understand the shape of the graph of a function, knowing where it is concave up and concave down helps us to get a more accurate picture. Of particular interest are points at which the concavity changes from up to down or down to up; such points are called inflection points.

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     Concavity, Inflection Points, and Second Derivative

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     Ex: Concavity / Points of Inflection by Analyzing a Graph (Algebra Topic)

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     Concavity, Inflection Points, Increasing Decreasing, First & Second Derivative - Calculus

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9. courses.lumenlearning.com › calculus1 › chapterThe First Derivative Test and Concavity | Calculus I

   courses.lumenlearning.com › calculus1 › chapter

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   State the first derivative test for critical points. Use concavity and inflection points to explain how the sign of the second derivative affects the shape of a function’s graph. Explain the concavity test for a function over an open interval.

10. math.libretexts.org › Courses › Penn_State_University2.6: Second Derivative and Concavity - Mathematics LibreTexts

    math.libretexts.org › Courses › Penn_State_University

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    If f ′ (x) is negative on an interval, the graph of y = f(x) is decreasing on that interval. The second derivative tells us if a function is concave up or concave down. If f ″ (x) is positive on an interval, the graph of y = f(x) is concave up on that interval.

11. mathstat.slu.edu › ~may › ExcelCalculusThe Second Derivative and Concavity - Saint Louis University

    mathstat.slu.edu › ~may › ExcelCalculus

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    We say that a graph is concave up if the line between any two points is above the graph. If the second derivative is positive we are at a local minimum. If the second derivative is positive we are at a local maximum.