Presentation is loading. Please wait.

Presentation is loading. Please wait.

Dr. Omar Al Jadaan Assistant Professor – Computer Science & Mathematics General Education Department Mathematics.

Published byDarlene Tyler Modified over 8 years ago

Similar presentations

Presentation on theme: "Dr. Omar Al Jadaan Assistant Professor – Computer Science & Mathematics General Education Department Mathematics."— Presentation transcript:

1 Dr. Omar Al Jadaan Assistant Professor – Computer Science & Mathematics General Education Department Mathematics

2 DERIVATIVES Instantaneous rate of change of a Function is called the limit which is equivalent to that of finding a tangent line to the graph of the function. Definitions: assume that a chemical reaction is taking place and that f(t) designates the amount of a substance present t units of time after the reaction starts. Then the change in the amount of the substance from time t 1 to time t 2 is f(t 2 ) – f(t 1 ), and the average rate of change of the amount per unit of time during the time interval [t 1, t 2 ] is ( f(t2) – f(t1))/(t2 - t1).

3 DERIVATIVES Definition The derivative of a function f is the function f ’ defined by f’(a) = limit f(x) – f(a) The domain of f ` is the set consisting of every number a at which the above limit exists. If we let h = x – a so that x = h + a then h is close to 0 when x is close to a. Therefore we have: x - a x a f`(a) = limit f(a + h) – f(a) h 0h

4 EXAMPLES 1. If f(x) = x 2, find the derivative f ` of f. f ’ defined by f’(a) = limit x 2 – a 2 x - a x a f`(a) = limit (x + a) = 2a x a

5 EXAMPLES 2. If g(x) = 1/x, find the derivative g ` of g. g`(a) = limit g(a + h) –g(a) h 0 h g`(a) = limit 1/(a + h) – 1/a h 0 h g`(a) = limit a – h – a ah(a + h) h 0 = -1/a 2

6 Skill practice 1. If g(x) = √x, find the derivative g ` of g. 2. If f(x) = x 3 - 1, find the derivative f ` of f.

7 Differentiation formulas The derivative of f(x) = k where k is a constant is f ` = 0. The derivative of f(x) = x n where n is a positive integer is given by f ` = n x n-1

8 Examples 1. find the derivative of the function f(x) = 5x 4 – 3x 3 + 6x 2 + 2 f ` = 20x 3 – 9x 2 + 12 x 2. find equation of the tangent line to the graph of the function f(x) = x 2 at the point P(2,4). f ` (x) = 2x. Therefore f ` (2) = 4. equation of the tangent line is 4 = (y-4)/(x-2) which equals 4x – 8 = y -4 y = 4x - 4

9 Example Graph of function y = x 2, tangent at P(2,4) x y 0 P(2,4)

10 Skill practice 1. Find the derivative of the function f(x) = 4x 5 – 2x 4 + 8x 2 + 7x + 4 2. find equation of the tangent line to the graph of the function f(x) = x 2 at the point P(-2,4). 3. Find equation of the tangent line to the graph of the function f(x) = x 2 - 4 at the point P(-1,1).

11 Example Find the derivative of the function f(x) = x 2 + 2x + 4 using a) first principle b)power rule Solution: a) y = x 2 + 2x + 4 a) ∆y + y = (∆x + x) 2 + 2(∆x + x) + 4 ∆y = -y + (∆x) 2 + 2x ∆x + x 2 + 2 ∆x + 2x +4 ∆y = -x 2 -2x -4 + (∆x) 2 +2x ∆x +x 2 +2 ∆x +2x+4 ∆y = (∆x) 2 + 2x ∆x + 2 ∆x. Taking limit both sides lim ∆y = (∆x) 2 + 2x ∆x + 2 ∆x = 2x + 2 ∆x 0 ∆x ∆x

12 Example b) using the power rule: dy/dx = 2x + 2

13 Skill practice Find the derivative of the function f(x) = x 2 + 3x + 5 using a) first principle b) power rule

14 The slope of a curve is variable The slope of the curve along any interval is given approximately by the slope of the chord along that same interval. The slope of the curve is changing as the slope of each chord is different. A B C D

15 Slope of y=x 2 using first principle y=x 2 means y + ∆y = (x + ∆x) 2 then ∆y = -y + x 2 +2x ∆x + (∆x) 2 means ∆y =- x 2 +x 2 + 2x ∆x+(∆x) 2 lim ∆y = (∆x) 2 + 2x ∆x then dy/dx = 2x ∆x 0 ∆x ∆x A B A B B*(∆x,∆y)

16 Notations for derivatives Notations used for derivative of y=f(x): dy/dx df(x)/dx df/dx f ` (x) y`y` Dy Df(x)

17 PRODUCT AND QUOTIENT DIFFERENTIATION FORMULAS If f and g are two functions then D(fg) = f Dg + g Df If f and g are two functions then D(f/g) = (g Df – f Dg)/ g 2

18 Examples 1. Find the derivative of F(x) = x 2 /(x 2 – 4) DF(x) = ((x 2 – 4) 2x - x 2 2x)/ (x 2 – 4) 2 ) = -8x/ (x 2 – 4) 2 2. Find the derivative of F(x) = (x 3 +2x) (x 2 – 4) DF(x) = (x 3 +2x) 2x + (x 2 – 4) (3x 2 +2)

19 Skill practice 1. Find the derivative of F(x) = x 3 /(x 3 – 4) 2. Find the derivative of F(x) = (x 4 +3x) (x 2 – 5)

20 Slope of a curve and turning point The Slope of the curve at a point is the same as the slope of the tangent at that point. a b c d at turning point a, b, c and d slope dy/dx = 0. Local min c Local max b Absolute min a Absolute max d

21 Turning points To find the x coordinates of the turning points for y=f(x), the following method is used. Step 1: Find dy/dx for the given curve y=f(x). Step2: Solve the equation dy/dx = 0.

22 Examples Find the turning point for the following functions: 1. y = 3x 2 -18x + 34 2. y = x 3 -1 Solution: dy/dx = 6x -18 when dy/dx = 0 we have 0 = 6x -18 which is x = 3. when x = 3 then y=7. the turning point exists at x=3 and y=7. 2. dy/dx = 3x 2, when dy/dx = 0 we have 0 = 3x 2 means x =0. when x=0 then y=-1. The turning point exists at x=0 and y = -1

23 Skill practice Locate the turning point for the following functions: 1. y = x 2 - 6x + 62. y = 2x 3 - 3x 2 3. y = x 4 – 2 x 2 4. y = x 3 - 3x 2 - 9x

24 THANK YOU

Download ppt "Dr. Omar Al Jadaan Assistant Professor – Computer Science & Mathematics General Education Department Mathematics."

Similar presentations

Remember: Derivative=Slope of the Tangent Line.

Remember: Derivative=Slope of the Tangent Line.
ESSENTIAL CALCULUS CH11 Partial derivatives

ESSENTIAL CALCULUS CH11 Partial derivatives
THE DERIVATIVE AND THE TANGENT LINE PROBLEM

THE DERIVATIVE AND THE TANGENT LINE PROBLEM
Dr .Hayk Melikyan Departmen of Mathematics and CS

Dr .Hayk Melikyan Departmen of Mathematics and CS
Rates of Change and Tangent Lines Section 2.4. Average Rates of Change The average rate of change of a quantity over a period of time is the amount of.

Rates of Change and Tangent Lines Section 2.4. Average Rates of Change The average rate of change of a quantity over a period of time is the amount of.
4.2 The Mean Value Theorem.

4.2 The Mean Value Theorem.
2 Average Rate of Change of f over [a, b]: Difference Quotient The average rate of change of the function f over the interval [a, b] is Average rate of.

2 Average Rate of Change of f over [a, b]: Difference Quotient The average rate of change of the function f over the interval [a, b] is Average rate of.
1.4 – Differentiation Using Limits of Difference Quotients

1.4 – Differentiation Using Limits of Difference Quotients
Chapter 3 Derivatives. Can u imagine if, anything on that bridge wasn’t move?

Chapter 3 Derivatives. Can u imagine if, anything on that bridge wasn’t move?
10.5 Basic Differentiation Properties. Instead of finding the limit of the different quotient to obtain the derivative of a function, we can use the rules.

10.5 Basic Differentiation Properties. Instead of finding the limit of the different quotient to obtain the derivative of a function, we can use the rules.
Chapter 3 The Derivative Definition, Interpretations, and Rules.

Chapter 3 The Derivative Definition, Interpretations, and Rules.
Mathematics for Business (Finance)

Mathematics for Business (Finance)
CHAPTER 2 2.4 Continuity Derivatives Definition The derivative of a function f at a number a denoted by f’(a), is f’(a) = lim h  0 ( f(a + h) – f(a))

CHAPTER Continuity Derivatives Definition The derivative of a function f at a number a denoted by f’(a), is f’(a) = lim h  0 ( f(a + h) – f(a))
AP CALCULUS PERIODIC REVIEW. 1: Limits and Continuity A function y = f(x) is continuous at x = a if: i) f(a) is defined (it exists) ii) iii) Otherwise,

AP CALCULUS PERIODIC REVIEW. 1: Limits and Continuity A function y = f(x) is continuous at x = a if: i) f(a) is defined (it exists) ii) iii) Otherwise,
Chapter 2 Section 2 The Derivative!. Definition The derivative of a function f(x) at x = a is defined as f’(a) = lim f(a+h) – f(a) h->0 h Given that a.

Chapter 2 Section 2 The Derivative!. Definition The derivative of a function f(x) at x = a is defined as f’(a) = lim f(a+h) – f(a) h->0 h Given that a.
Calculus Chapter 3 Derivatives. 3.1 Informal definition of derivative.

Calculus Chapter 3 Derivatives. 3.1 Informal definition of derivative.
INTRODUCTORY MATHEMATICAL ANALYSIS For Business, Economics, and the Life and Social Sciences  2011 Pearson Education, Inc. Chapter 11 Differentiation.

INTRODUCTORY MATHEMATICAL ANALYSIS For Business, Economics, and the Life and Social Sciences  2011 Pearson Education, Inc. Chapter 11 Differentiation.
Business Mathematics MTH-367 Lecture 21. Chapter 15 Differentiation.

Business Mathematics MTH-367 Lecture 21. Chapter 15 Differentiation.
Block 4 Nonlinear Systems Lesson 14 – The Methods of Differential Calculus The world is not only nonlinear but is changing as well 1 Narrator: Charles.

Block 4 Nonlinear Systems Lesson 14 – The Methods of Differential Calculus The world is not only nonlinear but is changing as well 1 Narrator: Charles.
The Derivative Definition, Interpretations, and Rules.

The Derivative Definition, Interpretations, and Rules.

Similar presentations

Ads by Google