Presentation is loading. Please wait.

Presentation is loading. Please wait.

Do Now: 1. Find the derivative of the following functions a) b) Agenda: I. Do Now II. Indefinite integral III. Reverse power rule IV. Integral rules V.

Published byBrendan Joseph Modified over 7 years ago

Similar presentations

Presentation on theme: "Do Now: 1. Find the derivative of the following functions a) b) Agenda: I. Do Now II. Indefinite integral III. Reverse power rule IV. Integral rules V."— Presentation transcript:

1

2 Do Now: 1. Find the derivative of the following functions a) b) Agenda: I. Do Now II. Indefinite integral III. Reverse power rule IV. Integral rules V. Homework Take out: pencil, notebook, calculator Homework: Handout Objectives: You will be able to find anti-derivatives and indefinite integrals using the reverse power rule.

3  Since you are all such experts at derivatives, its time to move on.  The next HUGE topic we’ll be covering is integrals.  Today, we’ll take our first step into integrals, with anti-derivatives  Essentially, an anti derivative, is a derivative in reverse

4  An antiderivative of the function f(x), is another function F(x), whose derivative is f(x).  In other words, an anti-derivative of f(x) is a function F(x), where F’(x) is f(x).  THAT SOUNDS CONFUSING, but really its not, an anti-derivative is just a derivative in reverse.  The process of finding the antiderivative is called antidifferentiation.

5  The reverse power rule is a tool for taking anti-derivatives of polynomials.  If you have a function:  Then the anti-derivative, F(x), is

6  Take the reverse power rule slowly at first.  Raise the exponent by 1 first!  Divide by that new exponent Check!

7

8  Find the derivative of the functions below: Same! Two different functions, same derivative!

9 All 3 of these curves have the same derivative! Thus, they are ALL anti- derivatives of some function. Their slopes are the same at each x value! This comes from the fact that the derivative of a constant =0

10  An indefinite integral represents the entire set of anti-derivatives (there are an infinite number of them).  The indefinite integral of f(x) is F(x)+C, We call C the constant of integration, and it could be anything! We’d need more information to figure out what it is.

11  We use the integral symbol to represent the anti-derivative. Integral Symbol The integrand We’ll learn about this later. Let’s you know you are integrating with respect to x Anti- Derivative Constant of Integration

12

13  Roots and Denominators!  Dividing by a fraction is the same as multiplying by its…  Reciprocal!

14  Integrate the following:

15  All of the common derivatives you have already memorized can be reversed to figure out common integrals.

16  Memorize ‘em all! You should know them already.

17  Before we start working with derivatives, we need to learn a few properties of integrals to make our lives easier. Integral of a constant: EX Slap an x on it!

18  Integral of a constant times a function:  EX You can pull out constants +C or – C….it don’t matter!

19 Addition and Subtraction Ex The integral of a sum is the sum of the integrals!

20 Multiplication! NOOOOO! We need reverse product and quotient rules!

Download ppt "Do Now: 1. Find the derivative of the following functions a) b) Agenda: I. Do Now II. Indefinite integral III. Reverse power rule IV. Integral rules V."

Similar presentations

Anti-Derivatives4.2 Revisited. These two functions have the same slope at any value of x. Functions with the same derivative differ by a constant.

Anti-Derivatives4.2 Revisited. These two functions have the same slope at any value of x. Functions with the same derivative differ by a constant.
Barnett/Ziegler/Byleen Business Calculus 11e1 Learning Objectives for Section 13.1 Antiderivatives and Indefinite Integrals The student will be able to.

Barnett/Ziegler/Byleen Business Calculus 11e1 Learning Objectives for Section 13.1 Antiderivatives and Indefinite Integrals The student will be able to.
Antiderivatives and the Rules of Integration

Antiderivatives and the Rules of Integration
Warm-up: 1)If a particle has a velocity function defined by, find its acceleration function. 2)If a particle has an acceleration function defined by, what.

Warm-up: 1)If a particle has a velocity function defined by, find its acceleration function. 2)If a particle has an acceleration function defined by, what.
Antidifferentiation TS: Making decisions after reflection and review.

Antidifferentiation TS: Making decisions after reflection and review.
Clicker Question 1 What is the volume of the solid formed when area enclosed by the line y = x and the curve y = x 2 is revolved around the x- axis? –

Clicker Question 1 What is the volume of the solid formed when area enclosed by the line y = x and the curve y = x 2 is revolved around the x- axis? –
Wicomico High School Mrs. J. A. Austin 2009-2010 AP Calculus 1 AB Third Marking Term.

Wicomico High School Mrs. J. A. Austin AP Calculus 1 AB Third Marking Term.
Formal Definition of Antiderivative and Indefinite Integral Lesson 5-3.

Formal Definition of Antiderivative and Indefinite Integral Lesson 5-3.
The Integral chapter 5 The Indefinite Integral Substitution The Definite Integral As a Sum The Definite Integral As Area The Definite Integral: The Fundamental.

The Integral chapter 5 The Indefinite Integral Substitution The Definite Integral As a Sum The Definite Integral As Area The Definite Integral: The Fundamental.
Copyright © Cengage Learning. All rights reserved.

Copyright © Cengage Learning. All rights reserved.
11 The student will learn about: §4.1 Antiderivatives and Indefinite Integrals. the properties associated with these functions, antiderivatives and indefinite.

11 The student will learn about: §4.1 Antiderivatives and Indefinite Integrals. the properties associated with these functions, antiderivatives and indefinite.
INTEGRATION ANTIDERIVATIVE: If F ' ( x ) = f ( x ), then F ( x ) is an antiderivative of f ( x ). If F ( x ) and G ( x ) are both antiderivatives of a.

INTEGRATION ANTIDERIVATIVE: If F ' ( x ) = f ( x ), then F ( x ) is an antiderivative of f ( x ). If F ( x ) and G ( x ) are both antiderivatives of a.
Differentiation Formulas

Differentiation Formulas
8-2 Dividing Monomials Objectives Students will be able to: 1)Simplify expressions involving the quotient of monomials 2)Simplify expressions containing.

8-2 Dividing Monomials Objectives Students will be able to: 1)Simplify expressions involving the quotient of monomials 2)Simplify expressions containing.
Techniques of Differentiation. I. Positive Integer Powers, Multiples, Sums, and Differences A.) Th: If f(x) is a constant, B.) Th: The Power Rule: If.

Techniques of Differentiation. I. Positive Integer Powers, Multiples, Sums, and Differences A.) Th: If f(x) is a constant, B.) Th: The Power Rule: If.
Clicker Question 1 What is the volume of the solid formed when the curve y = 1 / x on the interval [1, 5] is revolved around the x-axis? – A.  ln(5) –

Clicker Question 1 What is the volume of the solid formed when the curve y = 1 / x on the interval [1, 5] is revolved around the x-axis? – A.  ln(5) –
Antiderivatives: Think “undoing” derivatives Since: We say is the “antiderivative of.

Antiderivatives: Think “undoing” derivatives Since: We say is the “antiderivative of.
4.1 The Indefinite Integral. Antiderivative An antiderivative of a function f is a function F such that Ex.An antiderivative of since is.

4.1 The Indefinite Integral. Antiderivative An antiderivative of a function f is a function F such that Ex.An antiderivative of since is.
Antiderivatives Lesson 7.1A. Think About It Suppose this is the graph of the derivative of a function What do we know about the original function? Critical.

Antiderivatives Lesson 7.1A. Think About It Suppose this is the graph of the derivative of a function What do we know about the original function? Critical.
Lesson 15-2 part 3 Antiderivatives and the Rules of Integration Objective: To find the antiderivatives (integrals) of polynomial functions.

Lesson 15-2 part 3 Antiderivatives and the Rules of Integration Objective: To find the antiderivatives (integrals) of polynomial functions.

Similar presentations

Ads by Google