chapter 5-the integral calculus, 2ed, by blank & krantz, copyright 2011 by john wiley &...
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![Page 1: Chapter 5-The Integral Calculus, 2ed, by Blank & Krantz, Copyright 2011 by John Wiley & Sons, Inc, All Rights Reserved](https://reader036.vdocuments.us/reader036/viewer/2022062314/56649f175503460f94c2e179/html5/thumbnails/1.jpg)
Chapter 5-The Integral
Calculus, 2ed, by Blank & Krantz, Copyright 2011 by John Wiley & Sons, Inc, All Rights Reserved
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Chapter 5-The Integral5.1 Introduction to Integration-The Area Problem
Calculus, 2ed, by Blank & Krantz, Copyright 2011 by John Wiley & Sons, Inc, All Rights Reserved
Summation Notation
EXAMPLE: Evaluate the sums:
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Chapter 5-The Integral5.1 Introduction to Integration-The Area Problem
Calculus, 2ed, by Blank & Krantz, Copyright 2011 by John Wiley & Sons, Inc, All Rights Reserved
Some Special Sums
EXAMPLE: Calculate the following sums:
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Chapter 5-The Integral5.1 Introduction to Integration-The Area Problem
Calculus, 2ed, by Blank & Krantz, Copyright 2011 by John Wiley & Sons, Inc, All Rights Reserved
Some Special Sums
EXAMPLE: Suppose that x0, x1, …, xN are points in the domain of a function F. Show that
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Chapter 5-The Integral5.1 Introduction to Integration-The Area Problem
Calculus, 2ed, by Blank & Krantz, Copyright 2011 by John Wiley & Sons, Inc, All Rights Reserved
Approximation of Area
DEFINITION: Let N be a positive integer. The uniform partition P of order N of the interval [a, b] is the set{x0, x1, . . . , xN} of N + 1 equally spaced points such that
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Chapter 5-The Integral5.1 Introduction to Integration-The Area Problem
Calculus, 2ed, by Blank & Krantz, Copyright 2011 by John Wiley & Sons, Inc, All Rights Reserved
Approximation of Area
EXAMPLE: Using the uniform partition of order 6 of the interval [1, 4], find the right endpoint approximation to the area A of the region bounded above by the graph of f(x) = x2 + x, below by the x-axis, on the left by the vertical line x = 1, and on the right by the vertical line x = 4.
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Chapter 5-The Integral5.1 Introduction to Integration-The Area Problem
Calculus, 2ed, by Blank & Krantz, Copyright 2011 by John Wiley & Sons, Inc, All Rights Reserved
A Precise Definition of Area
DEFINITION: The area A of the region that is bounded above by the graph of f, below by the x-axis, and laterally by the vertical lines x = a and x = b, is defined as the limit
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Chapter 5-The Integral5.1 Introduction to Integration-The Area Problem
Calculus, 2ed, by Blank & Krantz, Copyright 2011 by John Wiley & Sons, Inc, All Rights Reserved
A Precise Definition of Area
EXAMPLE: Calculate the area A of the region that is bounded above by the graph of y = 2x, below by thex-axis, and on the sides by the vertical lines x = 0 and x = 6.
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Chapter 5-The Integral5.1 Introduction to Integration-The Area Problem
Calculus, 2ed, by Blank & Krantz, Copyright 2011 by John Wiley & Sons, Inc, All Rights Reserved
Quick Quiz
1. Calculate 2. Calculate3. What is the fifth subinterval of [3, 9] when the uniform partition of order 7 is used?4. What is the right endpoint approximation of the area of the region under the graph of y = 1/x and overthe interval [1, 2] when the uniform partition of order 3 is used?
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Chapter 5-The Integral5.2 The Riemann Integral
Calculus, 2ed, by Blank & Krantz, Copyright 2011 by John Wiley & Sons, Inc, All Rights Reserved
Riemann Sums
EXAMPLE: Write a Riemann sum for the function f(x) = x2 − 4 and the interval [a, b] = [−5, 3] using the partition {−5,−3,−1, 1, 3}.
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Chapter 5-The Integral5.2 The Riemann Integral
Calculus, 2ed, by Blank & Krantz, Copyright 2011 by John Wiley & Sons, Inc, All Rights Reserved
Riemann Sums
EXAMPLE: Find the upper and lower Riemann sums of order 4 for f(x) = x2 − 4 over the interval [-5, 3]
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Chapter 5-The Integral5.2 The Riemann Integral
Calculus, 2ed, by Blank & Krantz, Copyright 2011 by John Wiley & Sons, Inc, All Rights Reserved
Riemann Sums
THEOREM: Suppose that f is continuous on an interval [a, b].a) If SN = {s1, . . . , sN} is any choice of points associated with the uniform partition of order N, then
b) The numbers R(f,LN) and R(f, UN) become arbitrarily close to each other for N sufficiently large. Thatis,
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Chapter 5-The Integral5.2 The Riemann Integral
Calculus, 2ed, by Blank & Krantz, Copyright 2011 by John Wiley & Sons, Inc, All Rights Reserved
The Riemann IntegralDEFINTION: Suppose that f is a function defined on the interval [a, b]. We say that the Riemann sumsR(f, SN) tend to the real number as N tends toinfinity, if, for any > 0, there is a positive integer M such that
for all N greater than or equal to M and any choice of SN. If this is the case, we say that f is integrable on[a, b], and we denote the limit by the symbol
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Chapter 5-The Integral5.2 The Riemann Integral
Calculus, 2ed, by Blank & Krantz, Copyright 2011 by John Wiley & Sons, Inc, All Rights Reserved
The Riemann Integral
THEOREM: If f is continuous on the interval [a, b], then f is integrable on [a, b]. That is, the RiemannIntegral exists.
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Chapter 5-The Integral5.2 The Riemann Integral
Calculus, 2ed, by Blank & Krantz, Copyright 2011 by John Wiley & Sons, Inc, All Rights Reserved
Calculating Riemann IntegralsTHEOREM: Suppose that F is an antiderivative of a continuous function f on [a, b]. Then,
EXAMPLE: Evaluate
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Chapter 5-The Integral5.2 The Riemann Integral
Calculus, 2ed, by Blank & Krantz, Copyright 2011 by John Wiley & Sons, Inc, All Rights Reserved
Using the Fundamental Theorem of Calculus to Compute Areas
EXAMPLE: Calculate the area A of the region that lies under the graph of f(x) = x2, above the x-axis, andbetween the vertical lines x = 2 and x = 6.
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Chapter 5-The Integral5.2 The Riemann Integral
Calculus, 2ed, by Blank & Krantz, Copyright 2011 by John Wiley & Sons, Inc, All Rights Reserved
Quick Quiz1. If {s1, s2, s3, s4} is a choice of points associated with the order 4 uniform partition of the interval [−1, 2],what is the smallest possible value that can be chosen for s3 ? The largest?2. What are the lower and upper Riemann sums for f(x) = x2 when the order 4 uniform partition of [−1, 2]is used?3. Evaluate
4. True or false:
5. True or false:
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Chapter 5-The Integral5.3 Rules for Integration
Calculus, 2ed, by Blank & Krantz, Copyright 2011 by John Wiley & Sons, Inc, All Rights Reserved
THEOREM: If f and g are integrable functions on the interval [a,b] and if is constant, then f + g, f-g, and f are integrable and
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Chapter 5-The Integral5.3 Rules for Integration
Calculus, 2ed, by Blank & Krantz, Copyright 2011 by John Wiley & Sons, Inc, All Rights Reserved
EXAMPLE: Calculate the integral
EXAMPLE: Suppose that g is a continuous function on the interval [4, 9] that satisfies
Calculate
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Chapter 5-The Integral5.3 Rules for Integration
Calculus, 2ed, by Blank & Krantz, Copyright 2011 by John Wiley & Sons, Inc, All Rights Reserved
Reversing the Direction of Integration
EXAMPLE: Evaluate
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Chapter 5-The Integral5.3 Rules for Integration
Calculus, 2ed, by Blank & Krantz, Copyright 2011 by John Wiley & Sons, Inc, All Rights Reserved
Reversing the Direction of Integration
THEOREM: If f is continuous on an interval that contains the points a and b (in any order) and if F is an antiderivative of f, then
THEOREM: If f is continuous on an interval that contains the three points a, b, and c (in any order), then
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Chapter 5-The Integral5.3 Rules for Integration
Calculus, 2ed, by Blank & Krantz, Copyright 2011 by John Wiley & Sons, Inc, All Rights Reserved
Order Properties of Integrals
THEOREM: If f, g, and h are integrable on [a, b] and g(x) ≤ f(x) ≤ h(x) for x in [a, b], then
In particular, if f is integrable on [a, b] and if m and M are constants such that m ≤ f(x) ≤ M, for all x in [a, b], then
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Chapter 5-The Integral5.3 Rules for Integration
Calculus, 2ed, by Blank & Krantz, Copyright 2011 by John Wiley & Sons, Inc, All Rights Reserved
Order Properties of Integrals
EXAMPLE: Estimate
THEOREM: If f is integrable on [a,b] and if f(x) ≥ 0, then
THEOREM: If f is integrable on [a,b], then
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Chapter 5-The Integral5.3 Rules for Integration
Calculus, 2ed, by Blank & Krantz, Copyright 2011 by John Wiley & Sons, Inc, All Rights Reserved
The Mean Value Theorem for Integrals
THEOREM: Let f be continuous on [a,b]. There is a value c in (a,b) such that
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Chapter 5-The Integral5.3 Rules for Integration
Calculus, 2ed, by Blank & Krantz, Copyright 2011 by John Wiley & Sons, Inc, All Rights Reserved
Quick Quiz
1. What is
2. Calculate
3. If and then what is
4. What is the average value of f(t) = t2 for 1 ≤t ≤ 4?
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Chapter 5-The Integral5.4 The Fundamental Theorem of Calculus
Calculus, 2ed, by Blank & Krantz, Copyright 2011 by John Wiley & Sons, Inc, All Rights Reserved
THEOREM: Let f be continuous on [a,b]. a) If F is any antiderivative of f on [a,b], then
b) The function F defined by
is an antiderivative of f: F is continuous on [a,b] and
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Chapter 5-The Integral5.4 The Fundamental Theorem of Calculus
Calculus, 2ed, by Blank & Krantz, Copyright 2011 by John Wiley & Sons, Inc, All Rights Reserved
Examples Illustrating the First Part of the Fundamental Theorem
EXAMPLE: Compute
EXAMPLE: Calculate
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Chapter 5-The Integral5.4 The Fundamental Theorem of Calculus
Calculus, 2ed, by Blank & Krantz, Copyright 2011 by John Wiley & Sons, Inc, All Rights Reserved
Examples Illustrating the Second Part of the Fundamental Theorem
EXAMPLE: The hydrostatic pressure exerted against the side of a certain swimming pool at depth x is
What is the rate of change of P with respect to depth when the depth is 4?
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Chapter 5-The Integral5.4 The Fundamental Theorem of Calculus
Calculus, 2ed, by Blank & Krantz, Copyright 2011 by John Wiley & Sons, Inc, All Rights Reserved
Examples Illustrating the Second Part of the Fundamental Theorem
EXAMPLE: Calculate the derivative of
with respect to x.
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Chapter 5-The Integral5.4 The Fundamental Theorem of Calculus
Calculus, 2ed, by Blank & Krantz, Copyright 2011 by John Wiley & Sons, Inc, All Rights Reserved
Quick Quiz
1. Suppose that What is F’(2)?
2. Suppose that What is F’(2)?
3. Suppose that What is F’(1)?
4. Evaluate
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Chapter 5-The Integral5.5 A Calculus Approach to the Logarithm and Exponential Functions
Calculus, 2ed, by Blank & Krantz, Copyright 2011 by John Wiley & Sons, Inc, All Rights Reserved
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Chapter 5-The Integral5.5 A Calculus Approach to the Logarithm and Exponential Functions
Calculus, 2ed, by Blank & Krantz, Copyright 2011 by John Wiley & Sons, Inc, All Rights Reserved
THEOREM: The natural logarithm has the following properties:
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Chapter 5-The Integral5.5 A Calculus Approach to the Logarithm and Exponential Functions
Calculus, 2ed, by Blank & Krantz, Copyright 2011 by John Wiley & Sons, Inc, All Rights Reserved
Properties of the Natural LogarithmTHEOREM: Let x and y be positive and p be any number. Then
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Chapter 5-The Integral5.5 A Calculus Approach to the Logarithm and Exponential Functions
Calculus, 2ed, by Blank & Krantz, Copyright 2011 by John Wiley & Sons, Inc, All Rights Reserved
Graphing the Natural Logarithm
THEOREM: The natural logarithm is an increasing function with domain equal to the set of positive realnumbers. Its range is the set of all real numbers. The equation ln (x) = has a unique solution x element of the positive reals for every real number . The graph of the natural logarithm function is concave down. The y-axis is a vertical asymptote.
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Chapter 5-The Integral5.5 A Calculus Approach to the Logarithm and Exponential Functions
Calculus, 2ed, by Blank & Krantz, Copyright 2011 by John Wiley & Sons, Inc, All Rights Reserved
The Exponential Function
We define b = exp (a)
if and only if a=ln(b)
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Chapter 5-The Integral5.5 A Calculus Approach to the Logarithm and Exponential Functions
Calculus, 2ed, by Blank & Krantz, Copyright 2011 by John Wiley & Sons, Inc, All Rights Reserved
Properties of the Exponential Function
• exp(s+t) = exp(s)exp(t)• exp(s-t) = exp(s)/exp(t)• (exp(s))t = exp(st)
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Chapter 5-The Integral5.5 A Calculus Approach to the Logarithm and Exponential Functions
Calculus, 2ed, by Blank & Krantz, Copyright 2011 by John Wiley & Sons, Inc, All Rights Reserved
Derivatives and Integrals Involving the Exponential Function
THEOREM: The exponential function satisfies
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Chapter 5-The Integral5.5 A Calculus Approach to the Logarithm and Exponential Functions
Calculus, 2ed, by Blank & Krantz, Copyright 2011 by John Wiley & Sons, Inc, All Rights Reserved
The Number e
Define e = exp(1)
so
ln( e ) = 1
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Chapter 5-The Integral5.5 A Calculus Approach to the Logarithm and Exponential Functions
Calculus, 2ed, by Blank & Krantz, Copyright 2011 by John Wiley & Sons, Inc, All Rights Reserved
Logarithms and Powers with Arbitrary Bases
ax = exp(xln(a))
EXAMPLE: Use the above formula to derive the Power Rule of differentiation
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Chapter 5-The Integral5.5 A Calculus Approach to the Logarithm and Exponential Functions
Calculus, 2ed, by Blank & Krantz, Copyright 2011 by John Wiley & Sons, Inc, All Rights Reserved
Logarithms and Powers with Arbitrary Bases
THEOREM: If a,b>0 and x,y are real numbers, then
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Chapter 5-The Integral5.5 A Calculus Approach to the Logarithm and Exponential Functions
Calculus, 2ed, by Blank & Krantz, Copyright 2011 by John Wiley & Sons, Inc, All Rights Reserved
Logarithms with Arbitrary Bases
THEOREM: For any fixed positive a ≠ 1, the function xax has domain of the reals and image of positive reals. The function x loga(x) has domain positive reals and image reals. The two functions are inverses of each other.
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Chapter 5-The Integral5.5 A Calculus Approach to the Logarithm and Exponential Functions
Calculus, 2ed, by Blank & Krantz, Copyright 2011 by John Wiley & Sons, Inc, All Rights Reserved
Logarithms with Arbitrary Bases
THEOREM: If x, y, a>0 and a≠ 1, then
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Chapter 5-The Integral5.5 A Calculus Approach to the Logarithm and Exponential Functions
Calculus, 2ed, by Blank & Krantz, Copyright 2011 by John Wiley & Sons, Inc, All Rights Reserved
Differentiation and Integration of ax and loga(x)
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Chapter 5-The Integral5.5 A Calculus Approach to the Logarithm and Exponential Functions
Calculus, 2ed, by Blank & Krantz, Copyright 2011 by John Wiley & Sons, Inc, All Rights Reserved
Quick Quiz1. Suppose that and What is
2. For what value of a is
3. Suppose that a is a positive constant. For what value of u is ax = eu?
4. Suppose that a is a positive constant not equal to 1. For what value of k is loga (x) = k · ln(x)?
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Chapter 5-The Integral5.6 Integration by Substitution
Calculus, 2ed, by Blank & Krantz, Copyright 2011 by John Wiley & Sons, Inc, All Rights Reserved
Key Steps for the method of substitution
1. Find a expression (x) in the integrand that has the derivative ’(x) that also appears in the integrand.
2. Substitute u for (x) and du for ’(x) dx3. Do not proceed unless the entire integrand is expressed in
terms of the new variable u.4. Evaluate the new integral to obtain an answer expressed
in terms of u.5. Resubstitute to obtain an answer in terms of x.
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Chapter 5-The Integral5.6 Integration by Substitution
Calculus, 2ed, by Blank & Krantz, Copyright 2011 by John Wiley & Sons, Inc, All Rights Reserved
Some Examples of Indefinite Integration by Substitution
EXAMPLE: Evaluate the indefinite integral sin4(x) cos(x) dx.
EXAMPLE: Compute the integral
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Chapter 5-The Integral5.6 Integration by Substitution
Calculus, 2ed, by Blank & Krantz, Copyright 2011 by John Wiley & Sons, Inc, All Rights Reserved
The Method of Substitution for Definite Integrals
EXAMPLE: Evaluate the integral
EXAMPLE: Calculate
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Chapter 5-The Integral5.6 Integration by Substitution
Calculus, 2ed, by Blank & Krantz, Copyright 2011 by John Wiley & Sons, Inc, All Rights Reserved
When an Integration Problem Seems to Have Two Solutions
EXAMPLE: Compute the indefinite integral sin(x)cos(x) dx.
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Chapter 5-The Integral5.6 Integration by Substitution
Calculus, 2ed, by Blank & Krantz, Copyright 2011 by John Wiley & Sons, Inc, All Rights Reserved
Integral Tables
EXAMPLE: Use integral tables to compute
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Chapter 5-The Integral5.6 Integration by Substitution
Calculus, 2ed, by Blank & Krantz, Copyright 2011 by John Wiley & Sons, Inc, All Rights Reserved
Integrating Trigonometric Functions
EXAMPLE: Show that tan(x) dx = ln(|sec(x)|) + C
EXAMPLE: Use a substitution to derive the formula sec(x) dx = ln(|sec(x)+tan(x)|) + C
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Chapter 5-The Integral5.6 Integration by Substitution
Calculus, 2ed, by Blank & Krantz, Copyright 2011 by John Wiley & Sons, Inc, All Rights Reserved
Quick Quiz
1. The method of substitution is the antiderivative form of what differentiation rule?
2. Evaluate cos3(x) sin(x) dx.
3. Evaluate
4. Evaluate
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Chapter 5-The Integral5.7 More on the Calculation of Area
Calculus, 2ed, by Blank & Krantz, Copyright 2011 by John Wiley & Sons, Inc, All Rights Reserved
Rules for Calculating Area
(i) If f(x) ≥0 for x in [a, b], thenequals the area of the region that is under the graph of f,above the x-axis, and between x = a and x = b.
(ii) If f(x) ≤ 0 for x in [a, b], thenequals the negative of the area of the region that is abovethe graph of f, below the x-axis, and between x = a and x = b.
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Chapter 5-The Integral5.7 More on the Calculation of Area
Calculus, 2ed, by Blank & Krantz, Copyright 2011 by John Wiley & Sons, Inc, All Rights Reserved
EXAMPLE: What is the area of the region bounded by the graph f(x) = sin(x) and the x-axis between the limits x=/3 and 3/2?
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Chapter 5-The Integral5.7 More on the Calculation of Area
Calculus, 2ed, by Blank & Krantz, Copyright 2011 by John Wiley & Sons, Inc, All Rights Reserved
THEOREM: Let f and g be continuous functions on the interval [a,b] and suppose that f(x)≥g(x) for all x in [a,b]. The area of the region under the graph of f and above the graph of g on the interval [a,b] is given by
The Area between Two Curves
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Chapter 5-The Integral5.7 More on the Calculation of Area
Calculus, 2ed, by Blank & Krantz, Copyright 2011 by John Wiley & Sons, Inc, All Rights Reserved
EXAMPLE: Calculate the area A of the region between the curves f(x) = −x2 + 6 and g(x) = 3x2 − 8 for xin the interval [−1, 1].
The Area between Two Curves
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Chapter 5-The Integral5.7 More on the Calculation of Area
Calculus, 2ed, by Blank & Krantz, Copyright 2011 by John Wiley & Sons, Inc, All Rights Reserved
EXAMPLE: Compute the area between the curves x = y2 − y − 4 and x = −y2 + 3y + 12.
Reversing the Roles of the Axes
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Chapter 5-The Integral5.7 More on the Calculation of Area
Calculus, 2ed, by Blank & Krantz, Copyright 2011 by John Wiley & Sons, Inc, All Rights Reserved
1. Suppose that f and g are continuous functions on [a, b] with g(x) ≤ f(x) for every x in [a, b]. The area of the region that is bounded above and below by the graphs of f and g respectively is equal for what expression h(x)?2. What is the area between the x-axis and the curve y = sin(x) for 0 ≤ x ≤ 2?3. What is the area between the y-axis and the curve x = 1−y2?4. The area of a region is obtained as by integrating with respect to x. What integral represents the area if the integration is performed with respect to y
Quick Quiz
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Chapter 5-The Integral5.8 Numerical Techniques of Integration
Calculus, 2ed, by Blank & Krantz, Copyright 2011 by John Wiley & Sons, Inc, All Rights Reserved
The Midpoint RuleLet f be a continuous function on the interval [a, b]. Le N be a positive integer. For each integer j with 1≤ j ≤N, let
and let MN be the midpoint approximation
If C is a constant such that |f’’(x)| ≤C for a ≤x ≤b, then
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Chapter 5-The Integral5.8 Numerical Techniques of Integration
Calculus, 2ed, by Blank & Krantz, Copyright 2011 by John Wiley & Sons, Inc, All Rights Reserved
The Midpoint Rule
EXAMPLE: Let f(x) = 1/(1+x2). Estimate using the Midpoint Rule with N=4. Based on this approximation, how small might the exact value of A be? How large?
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Chapter 5-The Integral5.8 Numerical Techniques of Integration
Calculus, 2ed, by Blank & Krantz, Copyright 2011 by John Wiley & Sons, Inc, All Rights Reserved
The Trapezoidal Rule
THEOREM: Let f be a continuous function on the interval [a, b]. Let N be a positive integer. Let
be the trapezoidal approximation. If |f’’(x)| ≤ C for all x in the interval [a,b], then the order N trapezoidal approximation is accurate to within C(b-a)3/(12N2).
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Chapter 5-The Integral5.8 Numerical Techniques of Integration
Calculus, 2ed, by Blank & Krantz, Copyright 2011 by John Wiley & Sons, Inc, All Rights Reserved
Simpson’s Rule
THEOREM: Let f be continuous on the interval [a, b]. Let N be a positive even integer. If C is any number such that |f(4)
(x)| ≤ C for a ≤ x ≤ b, then
where
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Chapter 5-The Integral5.8 Numerical Techniques of Integration
Calculus, 2ed, by Blank & Krantz, Copyright 2011 by John Wiley & Sons, Inc, All Rights Reserved
Simpson’s Rule
EXAMPLE: Let f(x) = 1/(1 + x2). Estimate using Simpson’s Rule with N =4. In what interval of real numbers does A lie?
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Chapter 5-The Integral5.8 Numerical Techniques of Integration
Calculus, 2ed, by Blank & Krantz, Copyright 2011 by John Wiley & Sons, Inc, All Rights Reserved
Quick Quiz
1. Approximate by the Midpoint Rule with N = 2.
2. Approximate by the Trapezoidal Rule with N = 2.
3. Approximate by Simpson’s Rule with N = 4.
4. Approximate by a) the Midpoint Rule, b) the Trapezoidal Rule, and c) Simpson’s Rule, using, in each case, as much of the data, f(2.5) = 24, f(3.0) = 36, and f(3.5) = 12, as possible.