Consider the improper integral I = [° dx. Which of the following propositions along with the given reasons is true about the convergence/divergence of the integral I?14/5+e=Select one:4Since> 4e- and f 4e¯dx is convergent by direct calculation, then by the comparison test I is convergent.Since44andda is divergent by p-test, then by the comparison test I is divergent.z4/5+e=z4/5z4/54Since< 4e-* and* 4edx is convergent by direct calculation, then by the comparison test I is convergent.z4/5+e²4Since< 4e-* and ° 4e-dx is convergent by direct calculation, then by the comparison test I is divergent.z4/5+e"Since> 4e- and * 4e¯dx is divergent by direct calculation, then by the comparison test I is divergent.

Name: Consider the improper integral I = [° dx. Which of the following prop
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Description: Consider the improper integral I = [° dx. Which of the following propositions along with the given reasons is true about the convergence/divergence of the integral I?14/5+e=Select one:4Since> 4e- and f 4e¯dx is convergent by direct calculation, then

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Consider the improper integral I = ° dx. Which of the following propositions along with the given reasons is true about the convergence/divergence of the integral I? z4/5+e= Select one: Since 4. > 4e- and f 4e¯*dx is convergent by direct calculation, then by the comparison test I is convergent. Since- z4/5+e < and f* 4 da is divergent by p-test, then by the comparison test I is divergent. Since z4/5+e² 4e-z and ° 4e-dx is convergent by direct calculation, then by the comparison test I is convergent. Since < 4e- and * 4e-dx is convergent by direct calculation, then by the comparison test I is divergent. z4/5+ez Since > 4e-* and 4e-dx is divergent by direct calculation, then by the comparison test I is divergent.

Consider the improper integral I = ° dx. Which of the following propositions along with the given reasons is true about the convergence/divergence of the integral I? z4/5+e= Select one: Since 4. > 4e- and f 4e¯dx is convergent by direct calculation, then by the comparison test I is convergent. Since- z4/5+e < and f 4 da is divergent by p-test, then by the comparison test I is divergent. Since z4/5+e² 4e-z and ° 4e-dx is convergent by direct calculation, then by the comparison test I is convergent. Since < 4e- and * 4e-dx is convergent by direct calculation, then by the comparison test I is divergent. z4/5+ez Since > 4e-* and 4e-dx is divergent by direct calculation, then by the comparison test I is divergent.

Calculus: Early Transcendentals

8th Edition

ISBN:9781285741550

Author:James Stewart

Publisher:James Stewart

Chapter1: Functions And Models

Section: Chapter Questions

Problem 1RCC: (a) What is a function? What are its domain and range? (b) What is the graph of a function? (c) How...

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