{ Ch. 5 Review: Integrals AP Calculus. 5.2: The Differential dy 5.2: Linear Approximation 5.3: Indefinite Integrals 5.4: Riemann Sums (Definite Integrals)

Slides:

Advertisements

Similar presentations

We Calculus!!! 3.2 Rolle s Theorem and the Mean Value Theorem.

Advertisements

This theorem allows calculations of area using anti-derivatives. What is The Fundamental Theorem of Calculus?

When you see… Find the zeros You think…. To find the zeros...

DERIVATIVE OF A FUNCTION 1.5. DEFINITION OF A DERIVATIVE OTHER FORMS: OPERATOR:,,,

The Derivative and the Tangent Line Problem. Local Linearity.

{ Semester Exam Review AP Calculus. Exam Topics Trig function derivatives.

Section 2.9 Linear Approximations and Differentials Math 1231: Single-Variable Calculus.

THE DERIVATIVE AND THE TANGENT LINE PROBLEM

5/16/2015 Perkins AP Calculus AB Day 5 Section 4.2.

AP Calculus AB Chapter 3, Section 2 Rolle’s Theorem and the Mean Value Theorem

Rolle’s and The Mean Value Theorem BC Calculus. Mean Value and Rolle’s Theorems The Mean-Value Theorem ( and its special case ) Rolle’s Theorem are Existence.

Section 4.3 Indefinite Integrals and Net Change Theorem Math 1231: Single-Variable Calculus.

Wicomico High School Mrs. J. A. Austin AP Calculus 1 AB Third Marking Term.

 Exploration:  Sketch a rectangular coordinate plane on a piece of paper.  Label the points (1, 3) and (5, 3).  Draw the graph of a differentiable.

SECTION 3.1 The Derivative and the Tangent Line Problem.

Section 5.3 – The Definite Integral

Constructing the Antiderivative Solving (Simple) Differential Equations The Fundamental Theorem of Calculus (Part 2) Chapter 6: Calculus~ Hughes-Hallett.

Today in Calculus Go over homework Derivatives by limit definition Power rule and constant rules for derivatives Homework.

AP Calculus AB Chapter 2, Section 5 Implicit Differentiation

Rolle’s and The Mean Value Theorem BC Calculus. Mean Value and Rolle’s Theorems The Mean-Value Theorem ( and its special case ) Rolle’s Theorem are Existence.

1 Copyright © 2015, 2011 Pearson Education, Inc. Chapter 5 Integration.

Section 4.4 The Fundamental Theorem of Calculus Part II – The Second Fundamental Theorem.

Fundamental Theorem of Calculus: Makes a connection between Indefinite Integrals (Antiderivatives) and Definite Integrals (“Area”) Historically, indefinite.

SECTION 5.4 The Fundamental Theorem of Calculus. Basically, (definite) integration and differentiation are inverse operations.

Calculus and Analytic Geometry I Cloud County Community College Fall, 2012 Instructor: Timothy L. Warkentin.

11/10/2015 Perkins AP Calculus AB Day 1 Section 2.1.

5.3 Definite Integrals and Antiderivatives Objective: SWBAT apply rules for definite integrals and find the average value over a closed interval.

4-3: Riemann Sums & Definite Integrals

Chapter 5 Integration. Indefinite Integral or Antiderivative.

Section 5.5 The Intermediate Value Theorem Rolle’s Theorem The Mean Value Theorem 3.6.

AP Calculus Unit 1 Day 1 What is Calculus?. Calculus is the study of CHANGE There are 2 Branches: 1)Differential Calculus 2)Integral Calculus.

4.2 Mean Value Theorem Objective SWBAT apply the Mean Value Theorem and find the intervals on which a function is increasing or decreasing.

5.3 Definite Integrals and Antiderivatives. What you’ll learn about Properties of Definite Integrals Average Value of a Function Mean Value Theorem for.

WS: Riemann Sums. TEST TOPICS: Area and Definite Integration Find area under a curve by the limit definition. Given a picture, set up an integral to calculate.

Integration 4 Copyright © Cengage Learning. All rights reserved.

If f (x) is continuous over [ a, b ] and differentiable in (a,b), then at some point, c, between a and b : Mean Value Theorem for Derivatives.

Calculus and Analytical Geometry Lecture # 15 MTH 104.

Definite Integral df. f continuous function on [a,b]. Divide [a,b] into n equal subintervals of width Let be a sample point. Then the definite integral.

Fundamental Theorem of Calculus: Makes a connection between Indefinite Integrals (Antiderivatives) and Definite Integrals (“Area”) Historically, indefinite.

Section 3.2 Mean Value Theorem Math 1231: Single-Variable Calculus.

AP Calculus AB 6.3 Separation of Variables Objective: Recognize and solve differential equations by separation of variables. Use differential equations.

5-7: The 1 st Fundamental Theorem & Definite Integrals Objectives: Understand and apply the 1 st Fundamental Theorem ©2003 Roy L. Gover

4.3 Finding Area Under A Curve Using Area Formulas Objective: Understand Riemann sums, evaluate a definite integral using limits and evaluate using properties.

Theorems Lisa Brady Mrs. Pellissier Calculus AP 28 November 2008.

If f(x) is a continuous function on a closed interval x ∈ [a,b], then f(x) will have both an Absolute Maximum value and an Absolute Minimum value in the.

MTH 252 Integral Calculus Chapter 6 – Integration Section 6.6 – The Fundamental Theorem of Calculus Copyright © 2005 by Ron Wallace, all rights reserved.

Fundamental Theorem of Calculus: Makes a connection between Indefinite Integrals (Antiderivatives) and Definite Integrals (“Area”) Historically, indefinite.

4.2 - The Mean Value Theorem

3.2 Rolle’s Theorem and the

4.2 The Mean Value Theorem State Standard

Hypothesis: Conclusion:

3.2 Rolle’s Theorem and the Mean Value Theorem

Then  a # c in (a, b) such that f  (c) = 0.

Rolle’s Theorem Section 3.2.

2-4 Rates of change & tangent lines

5-2 mean value theorem.

Table of Contents 21. Section 4.3 Mean Value Theorem.

9-6 Other Angles.

3.2 Rolle’s Theorem and the

Applications of Derivatives

THE DERIVATIVE AND THE TANGENT LINE PROBLEM

F’ means derivative or in this case slope.

Chapter 4 Integration.

2.1 The Derivative & the Tangent Line Problem

Section 3.2 Calculus AP/Dual, Revised ©2017

The Intermediate Value Theorem

Unit 5 : Day 6 Linear Approximations,

Section 4.2 Mean Value Theorem.

Tangent Line Approximations and Theorems

Presentation transcript:

{ Ch. 5 Review: Integrals AP Calculus

5.2: The Differential dy 5.2: Linear Approximation 5.3: Indefinite Integrals 5.4: Riemann Sums (Definite Integrals) 5.5: Mean Value Theorem/Rolle’s Theorem Ch. 5 Test Topics

The Differential dy Tangent line

Linear Approximation

If a function is continuous and differentiable on the interval [a, b], then there is at least one point x = c at which the slope of the tangent equals the slope of the secant connecting f(a) and f(b) Mean Value Theorem

If a function f is: 1) Differentiable for all values of x in the open interval (a, b) and 2) Continuous for all values of x in the closed interval [a, b] Then there is at least one number x = c in (a, b) such that Mean Value Theorem (MVT)

If a function is differentiable and continuous on the interval [a, b], and f(a) = f(b) = 0, then there is at least one value x = c such that f’(c) = 0. Rolle’s Theorem

Remember – Function must be CONTINUOUS and DIFFERENTIABLE on interval! Otherwise, conclusion of MVT may not be met. Mean Value Theorem

Integrals Self-Quiz

R Problems, pg. 260: R1 –R5 ab