Textbook Question
Definite integrals Use geometry (not Riemann sums) to evaluate the following definite integrals. Sketch a graph of the integrand, show the region in question, and interpret your result.
∫₀⁴ (8―2𝓍) d𝓍
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Ch. 5 - Integration
Briggs3rd EditionCalculus: Early TranscendentalsISBN: 9780136847243
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Table of contents
- Ch. 1 - Functions210
- Ch. 2 - Limits371
- Ch. 3 - Derivatives633
- Ch. 4 - Applications of the Derivative412
- Ch. 5 - Integration328
- Ch. 6 - Applications of Integration331
- Ch. 7 - Logarithmic, Exponential Functions, and Hyperbolic Functions177
- Ch. 8 - Integration Techniques394
- Ch. 9 - Differential Equations179
- Ch. 10 - Sequences and Infinite Series339
- Ch. 11 - Power Series218
- Ch.12 - Parametric and Polar Curves215
Briggs3rd EditionCalculus: Early TranscendentalsISBN: 9780136847243Not the one you use?Change textbook
Chapter 5, Problem 5.3.43
Definite integrals Evaluate the following integrals using the Fundamental Theorem of Calculus
∫₋₂⁻¹ 𝓍⁻³ d𝓍
Verified step by step guidance1
Step 1: Recall the Fundamental Theorem of Calculus, which states that if a function f(x) is continuous on [a, b] and F(x) is its antiderivative, then ∫ₐᵇ f(x) dx = F(b) - F(a).
Step 2: Identify the integrand, which is x⁻³ (or 1/x³). The goal is to find its antiderivative. Rewrite the integrand as x⁻³ for clarity.
Step 3: Compute the antiderivative of x⁻³. Using the power rule for integration, ∫xⁿ dx = (xⁿ⁺¹)/(n+1) + C, where n ≠ -1. For x⁻³, n = -3, so the antiderivative becomes -1/(2x²).
Step 4: Apply the limits of integration, -2 and -1, to the antiderivative. Substitute x = -1 and x = -2 into the antiderivative expression, F(x) = -1/(2x²).
Step 5: Calculate the difference F(-1) - F(-2) to evaluate the definite integral. This step involves substituting the values and simplifying the result.
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Key Concepts
Here are the essential concepts you must grasp in order to answer the question correctly.
Definite Integrals
Definite integrals represent the signed area under a curve between two specified limits on the x-axis. They are denoted as ∫[a, b] f(x) dx, where 'a' and 'b' are the lower and upper limits, respectively. The value of a definite integral provides a numerical result that quantifies the accumulation of quantities, such as area, over the interval [a, b].
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Fundamental Theorem of Calculus
The Fundamental Theorem of Calculus links the concept of differentiation with integration, stating that if F is an antiderivative of f on an interval [a, b], then ∫[a, b] f(x) dx = F(b) - F(a). This theorem allows us to evaluate definite integrals by finding the antiderivative of the integrand and calculating its values at the limits of integration.
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Antiderivatives
An antiderivative of a function f(x) is another function F(x) such that F'(x) = f(x). Finding an antiderivative is essential for evaluating definite integrals using the Fundamental Theorem of Calculus. For example, if f(x) = x^n, the antiderivative is F(x) = (x^(n+1))/(n+1) + C, where C is a constant. Understanding how to find antiderivatives is crucial for solving integral problems.
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Related Practice
Textbook Question
Definite integrals Evaluate the following integrals using the Fundamental Theorem of Calculus
∫₁⁸ 8𝓍¹/³ d𝓍
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Textbook Question
Indefinite integrals Use a change of variables or Table 5.6 to evaluate the following indefinite integrals. Check your work by differentiating.
∫ sin 𝓍 sec⁸ 𝓍 d𝓍
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Textbook Question
Why can the constant of integration be omitted from the antiderivative when evaluating a definite integral?
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Textbook Question
The linear function ƒ(𝓍) = 3 ― 𝓍 is decreasing on the interval [0, 3]. Is its area function for ƒ (with left endpoint 0) increasing or decreasing on the interval [0, 3]? Draw a picture and explain.
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Textbook Question
Average distance on a parabola What is the average distance between the parabola y = 30𝓍 (20 ― 𝓍 ) and the 𝓍-axis on the interval [0, 20] ?
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