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APPLICATIONS OF DERIVATIVES

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Presentation on theme: "APPLICATIONS OF DERIVATIVES"— Presentation transcript:

1 APPLICATIONS OF DERIVATIVES
CHAPTER: 4 APPLICATIONS OF DERIVATIVES

2 Sec 4.1: Extreme Values of Functions
Outline: What are global and local maximum, minimum? Why? The extreme value theorem How? How to find max and min value? Fermat’s theorem Critical points The closed interval method 2

3 Sec 4.1: Extreme Values of Functions
absolute maximum global maximum local maximum relative maximum How many local maximum ??

4 Sec 4.1: Extreme Values of Functions
local minimum relative minimum absolute minimum global minimum How many local minimum ??

5 Sec 4.1: Extreme Values of Functions
The number f(c) is called the maximum value of f on D f(c) c d f(d) The number f(d) is called the minimum value of f on D The maximum and minimum values of f are called the extreme values of f.

6 Sec 4.1: Extreme Values of Functions
EXAMPLE: EXAMPLE:

7 Sec 4.1: Extreme Values of Functions
EXAMPLE: EXAMPLE:

8 Sec 4.1: Extreme Values of Functions
local max at a,b,c REMARK: A function f has a local maximum at the endpoint b if for all x in some half-open interval

9 Sec 4.1: Extreme Values of Functions
local min at a,b,c REMARK: A function f has a local minimum at the endpoint a if for all x in some half-open interval

10 Sec 4.1: Extreme Values of Functions

11 1 2 Sec 4.1: Extreme Values of Functions
We have seen that some functions have extreme values, whereas others do not. 1 f(x) is continuous on 2 Closed interval [a, b] attains an absolute maximum f(c) and minimum f(d) value THE EXTREME VALUE THEOREM

12 1 2 Sec 4.1: Extreme Values of Functions THE EXTREME VALUE THEOREM
f(x) is continuous on 2 Closed interval [a, b] attains an absolute maximum f(c) and minimum f(d) value THE EXTREME VALUE THEOREM Max?? Min?? What cond?? Max?? Min?? What cond??

13 Sec 4.1: Extreme Values of Functions
f(x) is continuous on 2 Closed interval [a, b] attains an absolute maximum f(c) and minimum f(d) value THE EXTREME VALUE THEOREM Remark: The Extreme Value Theorem says that a continuous function on a closed interval has a maximum value and a minimum value, but it does not tell us how to find these extreme values. 13

14 Sec 4.1: Extreme Values of Functions
interior point end point end point

15 Sec 4.1: Extreme Values of Functions

16 Sec 4.1: Extreme Values of Functions
Remark: If f has a local maximum or minimum value at an interior point c then c is critical.

17 Sec 4.1: Extreme Values of Functions
The only places where a function ƒ can possibly have an extreme value (local or global) are interior points where ƒ’= 0 interior points where is ƒ’ undefined, 3. endpoints of the domain of ƒ.

18 Sec 4.1: Extreme Values of Functions
How to find absolute Max and Min Find all critical points ( ƒ’= 0 , or ƒ’ undefined ) Evaluate ƒ at all criticals Evaluate ƒ at endpoints a and b Take the largest value and the smallest

19 Sec 4.1: Extreme Values of Functions
How to find absolute Max and Min Find all critical points ( ƒ’= 0 , or ƒ’ undefined ) Evaluate ƒ at all criticals Evaluate ƒ at endpoints a and b Take the largest value and the smallest

20 Sec 4.1: Extreme Values of Functions
How to find absolute Max and Min Find all critical points ( ƒ’= 0 , or ƒ’ undefined ) Evaluate ƒ at all criticals Evaluate ƒ at endpoints a and b Take the largest value and the smallest

21 Sec 4.1: Extreme Values of Functions
EXAMPLE: Find: Local max and min Global max and min How to find absolute Max and Min Find all critical points ( ƒ’= 0 , or ƒ’ undefined ) Evaluate ƒ at all criticals Evaluate ƒ at endpoints a and b Take the largest value and the smallest

22 Sec 4.1: Extreme Values of Functions
EXAMPLE: EXAMPLE: Find: Absolute max and min Find: Absolute max and min

23 Sec 4.1: Extreme Values of Functions
How to find absolute Max and Min (not closed interval) How to find absolute Max and Min Find all critical points ( ƒ’= 0 , or ƒ’ undefined ) Evaluate ƒ at all criticals Evaluate ƒ at endpoints a and b Take the largest value and the smallest EXAMPLE: Find: Absolute max and min

24 Sec 4.1: Extreme Values of Functions
EXAMPLE: Find: Absolute max and min EXAMPLE: Find: Absolute max and min Remarks: Polynomial with odd degree  no absolute max, no absoulte min Polynomial with even degree  absolute max only or absoulte min only

25 How many local maximum How many local minimum
Sec 4.1: Extreme Values of Functions How many local maximum How many local minimum

26 Sec 4.1: Extreme Values of Functions
EXAMPLE: Find: Absolute max and min EXAMPLE: Find: Absolute max and min Remarks: Polynomial with odd degree  no absolute max, no absoulte min Polynomial with even degree  absolute max only or absoulte min only

27 Sec 4.1: Extreme Values of Functions

28 Sec 4.1: Extreme Values of Functions

29 Sec 4.1: Extreme Values of Functions

30 Sec 4.1: Extreme Values of Functions

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