Extremas – First Derivative Test & Second Derivative Test

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Presentation transcript:

Extremas – First Derivative Test & Second Derivative Test Calculus - Santowski 11/29/2018

Fast Five 1. Determine the first and second derivatives of the function f(x) = x4 – 4x3 + 4x2 2. Determine the first and second derivatives of the function f(x) = x4 – 4x3 3. Determine the first and second derivatives of the function f(x) = x2e-x 4. Determine the first and second derivatives of the function f(x) = 2sin(x) + sin2(x) Calculus - Santowski 11/29/2018

Lesson Objectives 1. Explain what the First Derivative Test is and why it “works” 2. Explain what the Second Derivative Test is and why it “works” 3. Work with the FDT & SDT to classify extrema Calculus - Santowski 11/29/2018

(A) First Derivative Test Let f be a differentiable function with f '(c) = 0 then 1. If f '(x) changes from positive to negative, then f has a relative maximum at c. 2. If f '(x) changes from negative to positive, then f has a relative minimum at c. 3. If f '(x) does not change sign at c, then f has neither an maximum or minimum at c. (Stationary point) Calculus - Santowski 11/29/2018

(A) First Derivative Test Use the FDT to classify all extrema of the function f(x) = x4 – 4x3 + 4x2 Calculus - Santowski 11/29/2018

(B) Second Derivative Test Let f be a twice differentiable function near x = c such that f '(c) = 0. Then 1. If f ''(x) > 0 then f(c) is a relative minimum. 2. If f ''(x) < 0 then f(c) is a relative maximum. 3. If f ''(x) = 0 then use the first derivative test to classify the extrema. Calculus - Santowski 11/29/2018

(B) Second Derivative Test Your task: Write an explanation/clarification/rationalization of the FDT. Include diagrams in your explanation Calculus - Santowski 11/29/2018

(B) Second Derivative Test Use the function f(x) = x4 – 4x3 to show algebraically HOW the SDT can be used to classify the extremas as either (i) maximums, (ii) minimums, or (iii) stationary points Calculus - Santowski 11/29/2018

(C) Examples ex 1. Find and classify all extrema using FDT of f(x) = 3x5 - 25x3 + 60x. ex 2. Find and classify all extrema using SDT of f(x) = 3x4 - 16x3 + 18x2 + 2. Calculus - Santowski 11/29/2018

(C) Examples - FDT Ex 3. Find the intervals of increase and decrease and max/min values of f(x) = cos(x) – sin(x) on (-,) Ex 4. Find the intervals of increase/decrease and max/min points of f(x) = x2e-x Ex 5. Find the local and absolute maximum & minimum points for f(x) = x(ln(x))2 Calculus - Santowski 11/29/2018