Presentation is loading. Please wait.

Presentation is loading. Please wait.

4. Concavity and the 2 nd Derivative Test. Concavity If we know that a function has a positive derivative over an interval, we know the graph is increasing,

Published byMarion Terry Modified over 8 years ago

Similar presentations

Presentation on theme: "4. Concavity and the 2 nd Derivative Test. Concavity If we know that a function has a positive derivative over an interval, we know the graph is increasing,"— Presentation transcript:

1 4. Concavity and the 2 nd Derivative Test

2 Concavity If we know that a function has a positive derivative over an interval, we know the graph is increasing, but HOW is it increasing? At a constant rate? At a decreasing rate? At an increasing rate? The 2 functions below both increase, but they bend differently. The graph on the left increases at an increasing rate and the second increases at a decreasing rate. (functions that increase at a constant rate, are linear, boring, and don’t require calculus).

3 Concavity We can analyze the tangent lines in each of these cases. In the graph on the left, the tangent lines are below the curve and are increasing from left to right. In this case, we say the graph is concave up (like a smile) In the graph on the right, the tangent lines are above the curve and are decreasing from left to right. In this case, we say the graph is concave down (like a frown).

4 Concavity

5 Example 1 List the open intervals on which the graph is concave up (CU) and concave down (CD)

6 Concavity test Anytime we talk about something changing, we’re talking about the derivative When we talk about the slope of the tangent lines changing, we’re talking about how the derivative function is changing – this means we’re talking about the second derivative! Concave up where y’ is increasing (y” > 0) Concave down where y’ is decreasing (y” < 0)

7 Example 2 Sketch a possible graph of a function with the following conditions

8 Point of Inflection (POI) A point (c, f(c)) is called an inflection point if the graph of f changes from concave up to concave down OR from concave down to concave up. This means that f’’ will change from positive to negative or negative to positive. Concavity can also change at a discontinuity, but it won’t be an inflection point.

9 Point of Inflection (POI) To find POIs, find all points that f’’=0 or f’’ DNE and make a number line to test values

10 Example 3 Determine POI, and where CU and CD

11 Example 3 cont. Determine POI, and where CU and CD

12 Second derivative test for local extrema If f’(c)=0 and f’’(c)<0, then f has a local max at x=c If f’(c)=0 and f’’(c)>0, then f has a local min at x=c.

13 Example 4 Find the coordinates of the relative extrema for f(x) = -3x 5 + 5x 3. Justify using the 2 nd derivative test. Sketch the graph.

14 Example 5

Download ppt "4. Concavity and the 2 nd Derivative Test. Concavity If we know that a function has a positive derivative over an interval, we know the graph is increasing,"

Similar presentations

Page 44 What does the 1 st derivative of a function tell us about the graph of the function? It tells us __________________________________________________________.

Page 44 What does the 1 st derivative of a function tell us about the graph of the function? It tells us __________________________________________________________.
DO NOW: Find where the function f(x) = 3x4 – 4x3 – 12x2 + 5

DO NOW: Find where the function f(x) = 3x4 – 4x3 – 12x2 + 5
4.3 Connecting f’ and f’’ with the Graph of f

4.3 Connecting f’ and f’’ with the Graph of f
Section 3.4 – Concavity and the Second Derivative Test

Section 3.4 – Concavity and the Second Derivative Test
1 Concavity and the Second Derivative Test Section 3.4.

1 Concavity and the Second Derivative Test Section 3.4.
4.3 Derivatives and the shapes of graphs 4.4 Curve Sketching

4.3 Derivatives and the shapes of graphs 4.4 Curve Sketching
Concavity & the second derivative test (3.4) December 4th, 2012.

Concavity & the second derivative test (3.4) December 4th, 2012.
Objectives: 1.Be able to determine where a function is concave upward or concave downward with the use of calculus. 2.Be able to apply the second derivative.

Objectives: 1.Be able to determine where a function is concave upward or concave downward with the use of calculus. 2.Be able to apply the second derivative.
Aim: Concavity & 2 nd Derivative Course: Calculus Do Now: Aim: The Scoop, the lump and the Second Derivative. Find the critical points for f(x) = sinxcosx;

Aim: Concavity & 2 nd Derivative Course: Calculus Do Now: Aim: The Scoop, the lump and the Second Derivative. Find the critical points for f(x) = sinxcosx;
Miss Battaglia AP Calculus AB/BC.  Let f be differentiable on an open interval I. The graph of f is concave upward on I if f’ is increasing on the interval.

Miss Battaglia AP Calculus AB/BC.  Let f be differentiable on an open interval I. The graph of f is concave upward on I if f’ is increasing on the interval.
Concavity and Inflection Points The second derivative will show where a function is concave up or concave down. It is also used to locate inflection points.

Concavity and Inflection Points The second derivative will show where a function is concave up or concave down. It is also used to locate inflection points.
Maximum and Minimum Value Problems By: Rakesh Biswas

Maximum and Minimum Value Problems By: Rakesh Biswas
Relating Graphs of f and f’

Relating Graphs of f and f’
4.6 Curve Sketching Thurs Dec 11 Do Now Find intervals of increase/decrease, local max and mins, intervals of concavity, and inflection points of.

4.6 Curve Sketching Thurs Dec 11 Do Now Find intervals of increase/decrease, local max and mins, intervals of concavity, and inflection points of.
First and Second Derivative Test for Relative Extrema

First and Second Derivative Test for Relative Extrema
3.2 The Second-Derivative Test 1 What does the sign of the second derivative tell us about the graph? Suppose the second derivative is positive. But, is.

3.2 The Second-Derivative Test 1 What does the sign of the second derivative tell us about the graph? Suppose the second derivative is positive. But, is.
1 f ’’(x) > 0 for all x in I f(x) concave Up Concavity Test Sec 4.3: Concavity and the Second Derivative Test the curve lies above the tangentsthe curve.

1 f ’’(x) > 0 for all x in I f(x) concave Up Concavity Test Sec 4.3: Concavity and the Second Derivative Test the curve lies above the tangentsthe curve.
Concavity f is concave up if f’ is increasing on an open interval. f is concave down if f’ is decreasing on an open interval.

Concavity f is concave up if f’ is increasing on an open interval. f is concave down if f’ is decreasing on an open interval.
The Shape of the Graph 3.3. Definition: Increasing Functions, Decreasing Functions Let f be a function defined on an interval I. Then, 1.f increases on.

The Shape of the Graph 3.3. Definition: Increasing Functions, Decreasing Functions Let f be a function defined on an interval I. Then, 1.f increases on.
Increasing / Decreasing Test

Increasing / Decreasing Test

Similar presentations

Ads by Google