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Deck 7: Additional Topics in Integration

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Question
Find the volume of the solid of revolution obtained by revolving the region under the curve
Find the volume of the solid of revolution obtained by revolving the region under the curve ​ ​ from to about the -axis.<div style=padding-top: 35px>
from Find the volume of the solid of revolution obtained by revolving the region under the curve ​ ​ from to about the -axis.<div style=padding-top: 35px> to Find the volume of the solid of revolution obtained by revolving the region under the curve ​ ​ from to about the -axis.<div style=padding-top: 35px> about the Find the volume of the solid of revolution obtained by revolving the region under the curve ​ ​ from to about the -axis.<div style=padding-top: 35px> -axis.
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Question
By computing the volume of the solid of revolution obtained by revolving the region under the semicircle
By computing the volume of the solid of revolution obtained by revolving the region under the semicircle ​ ​ from to about the -axis, show that the volume of a sphere of radius is cubic units.<div style=padding-top: 35px>
from By computing the volume of the solid of revolution obtained by revolving the region under the semicircle ​ ​ from to about the -axis, show that the volume of a sphere of radius is cubic units.<div style=padding-top: 35px> to By computing the volume of the solid of revolution obtained by revolving the region under the semicircle ​ ​ from to about the -axis, show that the volume of a sphere of radius is cubic units.<div style=padding-top: 35px> about the By computing the volume of the solid of revolution obtained by revolving the region under the semicircle ​ ​ from to about the -axis, show that the volume of a sphere of radius is cubic units.<div style=padding-top: 35px> -axis, show that the volume of a sphere of radius By computing the volume of the solid of revolution obtained by revolving the region under the semicircle ​ ​ from to about the -axis, show that the volume of a sphere of radius is cubic units.<div style=padding-top: 35px> is By computing the volume of the solid of revolution obtained by revolving the region under the semicircle ​ ​ from to about the -axis, show that the volume of a sphere of radius is cubic units.<div style=padding-top: 35px> cubic units.
Question
Find the volume of the solid of revolution obtained by revolving the region under the curve
Find the volume of the solid of revolution obtained by revolving the region under the curve ​ ​ from to about the -axis.<div style=padding-top: 35px>
from Find the volume of the solid of revolution obtained by revolving the region under the curve ​ ​ from to about the -axis.<div style=padding-top: 35px> to Find the volume of the solid of revolution obtained by revolving the region under the curve ​ ​ from to about the -axis.<div style=padding-top: 35px> about the Find the volume of the solid of revolution obtained by revolving the region under the curve ​ ​ from to about the -axis.<div style=padding-top: 35px> -axis.
Question
Find the volume of the prolate spheroid (a solid of revolution in the shape of a football, i.e., elongated vertically) obtained by revolving the region under the graph of the function
Find the volume of the prolate spheroid (a solid of revolution in the shape of a football, i.e., elongated vertically) obtained by revolving the region under the graph of the function ​ ​ from to about the -axis.<div style=padding-top: 35px>
from Find the volume of the prolate spheroid (a solid of revolution in the shape of a football, i.e., elongated vertically) obtained by revolving the region under the graph of the function ​ ​ from to about the -axis.<div style=padding-top: 35px> to Find the volume of the prolate spheroid (a solid of revolution in the shape of a football, i.e., elongated vertically) obtained by revolving the region under the graph of the function ​ ​ from to about the -axis.<div style=padding-top: 35px> about the Find the volume of the prolate spheroid (a solid of revolution in the shape of a football, i.e., elongated vertically) obtained by revolving the region under the graph of the function ​ ​ from to about the -axis.<div style=padding-top: 35px> -axis.
Question
Find the volume of the solid of revolution obtained by revolving the region under the curve
Find the volume of the solid of revolution obtained by revolving the region under the curve ​ ​ from to about the -axis.<div style=padding-top: 35px>
from Find the volume of the solid of revolution obtained by revolving the region under the curve ​ ​ from to about the -axis.<div style=padding-top: 35px> to Find the volume of the solid of revolution obtained by revolving the region under the curve ​ ​ from to about the -axis.<div style=padding-top: 35px> about the Find the volume of the solid of revolution obtained by revolving the region under the curve ​ ​ from to about the -axis.<div style=padding-top: 35px> -axis.
Question
Find the volume of the solid of revolution obtained by revolving the region bounded above by the curve
Find the volume of the solid of revolution obtained by revolving the region bounded above by the curve ​ ​ and below by the curve ​ ​ from to about the -axis.<div style=padding-top: 35px>
and below by the curve
Find the volume of the solid of revolution obtained by revolving the region bounded above by the curve ​ ​ and below by the curve ​ ​ from to about the -axis.<div style=padding-top: 35px>
from Find the volume of the solid of revolution obtained by revolving the region bounded above by the curve ​ ​ and below by the curve ​ ​ from to about the -axis.<div style=padding-top: 35px> to Find the volume of the solid of revolution obtained by revolving the region bounded above by the curve ​ ​ and below by the curve ​ ​ from to about the -axis.<div style=padding-top: 35px> about the Find the volume of the solid of revolution obtained by revolving the region bounded above by the curve ​ ​ and below by the curve ​ ​ from to about the -axis.<div style=padding-top: 35px> -axis.
Question
Find the volume of the solid of revolution obtained by revolving the region bounded by the graphs of the given functions about the x-axis.
Find the volume of the solid of revolution obtained by revolving the region bounded by the graphs of the given functions about the x-axis. ​ and <div style=padding-top: 35px> and Find the volume of the solid of revolution obtained by revolving the region bounded by the graphs of the given functions about the x-axis. ​ and <div style=padding-top: 35px>
Question
Find the volume of the solid of revolution obtained by revolving the region bounded by the graphs of the given functions about the x-axis.
Find the volume of the solid of revolution obtained by revolving the region bounded by the graphs of the given functions about the x-axis. ​ , , and ​<div style=padding-top: 35px> , Find the volume of the solid of revolution obtained by revolving the region bounded by the graphs of the given functions about the x-axis. ​ , , and ​<div style=padding-top: 35px> , and Find the volume of the solid of revolution obtained by revolving the region bounded by the graphs of the given functions about the x-axis. ​ , , and ​<div style=padding-top: 35px>
Question
Find the volume of the solid of revolution obtained by revolving the region bounded above by the curve
Find the volume of the solid of revolution obtained by revolving the region bounded above by the curve ​ ​ and below by the curve ​ ​ from to about the -axis.<div style=padding-top: 35px>
and below by the curve
Find the volume of the solid of revolution obtained by revolving the region bounded above by the curve ​ ​ and below by the curve ​ ​ from to about the -axis.<div style=padding-top: 35px>
from Find the volume of the solid of revolution obtained by revolving the region bounded above by the curve ​ ​ and below by the curve ​ ​ from to about the -axis.<div style=padding-top: 35px> to Find the volume of the solid of revolution obtained by revolving the region bounded above by the curve ​ ​ and below by the curve ​ ​ from to about the -axis.<div style=padding-top: 35px> about the Find the volume of the solid of revolution obtained by revolving the region bounded above by the curve ​ ​ and below by the curve ​ ​ from to about the -axis.<div style=padding-top: 35px> -axis.
Question
Find the volume of the solid of revolution obtained by revolving the region bounded above by the curve
Find the volume of the solid of revolution obtained by revolving the region bounded above by the curve ​ ​ and below by the curve ​ ​ from to about the -axis.<div style=padding-top: 35px>
and below by the curve
Find the volume of the solid of revolution obtained by revolving the region bounded above by the curve ​ ​ and below by the curve ​ ​ from to about the -axis.<div style=padding-top: 35px>
from Find the volume of the solid of revolution obtained by revolving the region bounded above by the curve ​ ​ and below by the curve ​ ​ from to about the -axis.<div style=padding-top: 35px> to Find the volume of the solid of revolution obtained by revolving the region bounded above by the curve ​ ​ and below by the curve ​ ​ from to about the -axis.<div style=padding-top: 35px> about the Find the volume of the solid of revolution obtained by revolving the region bounded above by the curve ​ ​ and below by the curve ​ ​ from to about the -axis.<div style=padding-top: 35px> -axis.
Question
Find the volume of the solid of revolution obtained by revolving the region under the curve
Find the volume of the solid of revolution obtained by revolving the region under the curve ​ ​ from to about the -axis.<div style=padding-top: 35px>
from Find the volume of the solid of revolution obtained by revolving the region under the curve ​ ​ from to about the -axis.<div style=padding-top: 35px> to Find the volume of the solid of revolution obtained by revolving the region under the curve ​ ​ from to about the -axis.<div style=padding-top: 35px> about the Find the volume of the solid of revolution obtained by revolving the region under the curve ​ ​ from to about the -axis.<div style=padding-top: 35px> -axis.
Question
Find the volume of the solid of revolution obtained by revolving the region bounded above by the curve
Find the volume of the solid of revolution obtained by revolving the region bounded above by the curve ​ ​ and below by the curve ​ ​ from to about the -axis.<div style=padding-top: 35px>
and below by the curve
Find the volume of the solid of revolution obtained by revolving the region bounded above by the curve ​ ​ and below by the curve ​ ​ from to about the -axis.<div style=padding-top: 35px>
from Find the volume of the solid of revolution obtained by revolving the region bounded above by the curve ​ ​ and below by the curve ​ ​ from to about the -axis.<div style=padding-top: 35px> to Find the volume of the solid of revolution obtained by revolving the region bounded above by the curve ​ ​ and below by the curve ​ ​ from to about the -axis.<div style=padding-top: 35px> about the Find the volume of the solid of revolution obtained by revolving the region bounded above by the curve ​ ​ and below by the curve ​ ​ from to about the -axis.<div style=padding-top: 35px> -axis.
Question
Find the volume of the solid of revolution obtained by revolving the region under the curve
Find the volume of the solid of revolution obtained by revolving the region under the curve ​ ​ from to about the -axis.<div style=padding-top: 35px>
from Find the volume of the solid of revolution obtained by revolving the region under the curve ​ ​ from to about the -axis.<div style=padding-top: 35px> to Find the volume of the solid of revolution obtained by revolving the region under the curve ​ ​ from to about the -axis.<div style=padding-top: 35px> about the Find the volume of the solid of revolution obtained by revolving the region under the curve ​ ​ from to about the -axis.<div style=padding-top: 35px> -axis.
Question
Find the volume of the solid of revolution obtained by revolving the region bounded by the graphs of the given functions about the x-axis.
Find the volume of the solid of revolution obtained by revolving the region bounded by the graphs of the given functions about the x-axis. ​ and <div style=padding-top: 35px> and Find the volume of the solid of revolution obtained by revolving the region bounded by the graphs of the given functions about the x-axis. ​ and <div style=padding-top: 35px>
Question
Find the volume of the solid of revolution obtained by revolving the region under the curve
Find the volume of the solid of revolution obtained by revolving the region under the curve ​ ​ from to about the -axis.<div style=padding-top: 35px>
from Find the volume of the solid of revolution obtained by revolving the region under the curve ​ ​ from to about the -axis.<div style=padding-top: 35px> to Find the volume of the solid of revolution obtained by revolving the region under the curve ​ ​ from to about the -axis.<div style=padding-top: 35px> about the Find the volume of the solid of revolution obtained by revolving the region under the curve ​ ​ from to about the -axis.<div style=padding-top: 35px> -axis.
Question
Find the volume of the solid of revolution obtained by revolving the region bounded by the graphs of the given functions about the x-axis.
Find the volume of the solid of revolution obtained by revolving the region bounded by the graphs of the given functions about the x-axis. ​ and <div style=padding-top: 35px> and Find the volume of the solid of revolution obtained by revolving the region bounded by the graphs of the given functions about the x-axis. ​ and <div style=padding-top: 35px>
Question
Find the volume of the solid of revolution obtained by revolving the region bounded above by the curve
Find the volume of the solid of revolution obtained by revolving the region bounded above by the curve ​ ​ and below by the curve ​ ​ from to about the -axis.<div style=padding-top: 35px>
and below by the curve
Find the volume of the solid of revolution obtained by revolving the region bounded above by the curve ​ ​ and below by the curve ​ ​ from to about the -axis.<div style=padding-top: 35px>
from Find the volume of the solid of revolution obtained by revolving the region bounded above by the curve ​ ​ and below by the curve ​ ​ from to about the -axis.<div style=padding-top: 35px> to Find the volume of the solid of revolution obtained by revolving the region bounded above by the curve ​ ​ and below by the curve ​ ​ from to about the -axis.<div style=padding-top: 35px> about the Find the volume of the solid of revolution obtained by revolving the region bounded above by the curve ​ ​ and below by the curve ​ ​ from to about the -axis.<div style=padding-top: 35px> -axis.
Question
Find the volume of the solid of revolution obtained by revolving the region under the curve
Find the volume of the solid of revolution obtained by revolving the region under the curve ​ ​ from to about the -axis.<div style=padding-top: 35px>
from Find the volume of the solid of revolution obtained by revolving the region under the curve ​ ​ from to about the -axis.<div style=padding-top: 35px> to Find the volume of the solid of revolution obtained by revolving the region under the curve ​ ​ from to about the -axis.<div style=padding-top: 35px> about the Find the volume of the solid of revolution obtained by revolving the region under the curve ​ ​ from to about the -axis.<div style=padding-top: 35px> -axis.
Question
Find the volume of the solid of revolution obtained by revolving the region bounded by the graphs of the given functions about the x-axis.
Find the volume of the solid of revolution obtained by revolving the region bounded by the graphs of the given functions about the x-axis. ​ and <div style=padding-top: 35px> and Find the volume of the solid of revolution obtained by revolving the region bounded by the graphs of the given functions about the x-axis. ​ and <div style=padding-top: 35px>
Question
Find the volume of the solid of revolution obtained by revolving the region under the curve
Find the volume of the solid of revolution obtained by revolving the region under the curve ​ ​ from to about the -axis.<div style=padding-top: 35px>
from Find the volume of the solid of revolution obtained by revolving the region under the curve ​ ​ from to about the -axis.<div style=padding-top: 35px> to Find the volume of the solid of revolution obtained by revolving the region under the curve ​ ​ from to about the -axis.<div style=padding-top: 35px> about the Find the volume of the solid of revolution obtained by revolving the region under the curve ​ ​ from to about the -axis.<div style=padding-top: 35px> -axis.
Question
Find the area of the region under the given curve <strong>Find the area of the region under the given curve over the indicated interval. ​ ​</strong> A) B) ​ C) ​ D) ​ <div style=padding-top: 35px> over the indicated interval. ​ <strong>Find the area of the region under the given curve over the indicated interval. ​ ​</strong> A) B) ​ C) ​ D) ​ <div style=padding-top: 35px>

A) <strong>Find the area of the region under the given curve over the indicated interval. ​ ​</strong> A) B) ​ C) ​ D) ​ <div style=padding-top: 35px>
B) ​ <strong>Find the area of the region under the given curve over the indicated interval. ​ ​</strong> A) B) ​ C) ​ D) ​ <div style=padding-top: 35px>
C) ​ <strong>Find the area of the region under the given curve over the indicated interval. ​ ​</strong> A) B) ​ C) ​ D) ​ <div style=padding-top: 35px>
D) ​ <strong>Find the area of the region under the given curve over the indicated interval. ​ ​</strong> A) B) ​ C) ​ D) ​ <div style=padding-top: 35px>
Question
Evaluate the following improper integral whenever it is convergent. ​ <strong>Evaluate the following improper integral whenever it is convergent. ​ ​</strong> A) B) C) D) E) the integral is divergent <div style=padding-top: 35px>

A) <strong>Evaluate the following improper integral whenever it is convergent. ​ ​</strong> A) B) C) D) E) the integral is divergent <div style=padding-top: 35px>
B) <strong>Evaluate the following improper integral whenever it is convergent. ​ ​</strong> A) B) C) D) E) the integral is divergent <div style=padding-top: 35px>
C) <strong>Evaluate the following improper integral whenever it is convergent. ​ ​</strong> A) B) C) D) E) the integral is divergent <div style=padding-top: 35px>
D) <strong>Evaluate the following improper integral whenever it is convergent. ​ ​</strong> A) B) C) D) E) the integral is divergent <div style=padding-top: 35px>
E) the integral is divergent
Question
Evaluate the improper integral if it is convergent. ​ <strong>Evaluate the improper integral if it is convergent. ​ ​</strong> A) 4 B) -3 C) 2 D) 3 E) divergent <div style=padding-top: 35px>

A) 4
B) -3
C) 2
D) 3
E) divergent
Question
Find the area of the region under the given curve <strong>Find the area of the region under the given curve over the indicated interval. ​ ​</strong> A) B) C) D) ​ E) ​ <div style=padding-top: 35px> over the indicated interval. ​ <strong>Find the area of the region under the given curve over the indicated interval. ​ ​</strong> A) B) C) D) ​ E) ​ <div style=padding-top: 35px>

A) <strong>Find the area of the region under the given curve over the indicated interval. ​ ​</strong> A) B) C) D) ​ E) ​ <div style=padding-top: 35px>
B) <strong>Find the area of the region under the given curve over the indicated interval. ​ ​</strong> A) B) C) D) ​ E) ​ <div style=padding-top: 35px>
C) <strong>Find the area of the region under the given curve over the indicated interval. ​ ​</strong> A) B) C) D) ​ E) ​ <div style=padding-top: 35px>
D) ​ <strong>Find the area of the region under the given curve over the indicated interval. ​ ​</strong> A) B) C) D) ​ E) ​ <div style=padding-top: 35px>
E) ​ <strong>Find the area of the region under the given curve over the indicated interval. ​ ​</strong> A) B) C) D) ​ E) ​ <div style=padding-top: 35px>
Question
Evaluate the following improper integral whenever it is convergent. ​ <strong>Evaluate the following improper integral whenever it is convergent. ​ ​</strong> A) B) ​ C) ​ D) ​ E) the integral is divergent <div style=padding-top: 35px>

A) <strong>Evaluate the following improper integral whenever it is convergent. ​ ​</strong> A) B) ​ C) ​ D) ​ E) the integral is divergent <div style=padding-top: 35px>
B) ​ <strong>Evaluate the following improper integral whenever it is convergent. ​ ​</strong> A) B) ​ C) ​ D) ​ E) the integral is divergent <div style=padding-top: 35px>
C) ​ <strong>Evaluate the following improper integral whenever it is convergent. ​ ​</strong> A) B) ​ C) ​ D) ​ E) the integral is divergent <div style=padding-top: 35px>
D) ​ <strong>Evaluate the following improper integral whenever it is convergent. ​ ​</strong> A) B) ​ C) ​ D) ​ E) the integral is divergent <div style=padding-top: 35px>
E) the integral is divergent
Question
Evaluate the following improper integral whenever it is convergent. ​ <strong>Evaluate the following improper integral whenever it is convergent. ​ ​</strong> A) 2 B) -8 C) 4 D) 8 E) the integral is divergent <div style=padding-top: 35px>

A) 2
B) -8
C) 4
D) 8
E) the integral is divergent
Question
Evaluate the following improper integral whenever it is convergent. ​ <strong>Evaluate the following improper integral whenever it is convergent. ​ ​</strong> A) -6 B) 11 C) 3 D) 7 E) the integral is divergent <div style=padding-top: 35px>

A) -6
B) 11
C) 3
D) 7
E) the integral is divergent
Question
Find the area of the region under the given curve <strong>Find the area of the region under the given curve over the indicated interval. ​ ​</strong> A) 2 sq units B) 5 sq units C) 6 sq units D) 7 sq units <div style=padding-top: 35px> over the indicated interval. ​ <strong>Find the area of the region under the given curve over the indicated interval. ​ ​</strong> A) 2 sq units B) 5 sq units C) 6 sq units D) 7 sq units <div style=padding-top: 35px>

A) 2 sq units
B) 5 sq units
C) 6 sq units
D) 7 sq units
Question
Evaluate the following improper integral whenever it is convergent. ​ <strong>Evaluate the following improper integral whenever it is convergent. ​ ​</strong> A) 6 B) 4 C) 2 D) 10 E) the integral is divergent <div style=padding-top: 35px>

A) 6
B) 4
C) 2
D) 10
E) the integral is divergent
Question
If If exists, then exists and .<div style=padding-top: 35px> exists, then If exists, then exists and .<div style=padding-top: 35px> exists and If exists, then exists and .<div style=padding-top: 35px> .
Question
Evaluate the following improper integral whenever it is convergent. ​ <strong>Evaluate the following improper integral whenever it is convergent. ​ ​</strong> A) B) C) D) ​ E) the integral is divergent <div style=padding-top: 35px>

A) <strong>Evaluate the following improper integral whenever it is convergent. ​ ​</strong> A) B) C) D) ​ E) the integral is divergent <div style=padding-top: 35px>
B) <strong>Evaluate the following improper integral whenever it is convergent. ​ ​</strong> A) B) C) D) ​ E) the integral is divergent <div style=padding-top: 35px>
C) <strong>Evaluate the following improper integral whenever it is convergent. ​ ​</strong> A) B) C) D) ​ E) the integral is divergent <div style=padding-top: 35px>
D) ​ <strong>Evaluate the following improper integral whenever it is convergent. ​ ​</strong> A) B) C) D) ​ E) the integral is divergent <div style=padding-top: 35px>
E) the integral is divergent
Question
Evaluate the improper integral whenever it is convergent. ​ <strong>Evaluate the improper integral whenever it is convergent. ​ ​</strong> A) B) ​ C) ​ D) ​ E) divergent <div style=padding-top: 35px>

A) <strong>Evaluate the improper integral whenever it is convergent. ​ ​</strong> A) B) ​ C) ​ D) ​ E) divergent <div style=padding-top: 35px>
B) ​ <strong>Evaluate the improper integral whenever it is convergent. ​ ​</strong> A) B) ​ C) ​ D) ​ E) divergent <div style=padding-top: 35px>
C) ​ <strong>Evaluate the improper integral whenever it is convergent. ​ ​</strong> A) B) ​ C) ​ D) ​ E) divergent <div style=padding-top: 35px>
D) ​ <strong>Evaluate the improper integral whenever it is convergent. ​ ​</strong> A) B) ​ C) ​ D) ​ E) divergent <div style=padding-top: 35px>
E) divergent
Question
Find the area of the region under the given curve <strong>Find the area of the region under the given curve over the indicated interval. ​ ​</strong> A) B) C) ​ D) ​ E) ​ <div style=padding-top: 35px> over the indicated interval. ​ <strong>Find the area of the region under the given curve over the indicated interval. ​ ​</strong> A) B) C) ​ D) ​ E) ​ <div style=padding-top: 35px>

A) <strong>Find the area of the region under the given curve over the indicated interval. ​ ​</strong> A) B) C) ​ D) ​ E) ​ <div style=padding-top: 35px>
B) <strong>Find the area of the region under the given curve over the indicated interval. ​ ​</strong> A) B) C) ​ D) ​ E) ​ <div style=padding-top: 35px>
C) ​ <strong>Find the area of the region under the given curve over the indicated interval. ​ ​</strong> A) B) C) ​ D) ​ E) ​ <div style=padding-top: 35px>
D) ​ <strong>Find the area of the region under the given curve over the indicated interval. ​ ​</strong> A) B) C) ​ D) ​ E) ​ <div style=padding-top: 35px>
E) ​ <strong>Find the area of the region under the given curve over the indicated interval. ​ ​</strong> A) B) C) ​ D) ​ E) ​ <div style=padding-top: 35px>
Question
Find the area of the region bounded by the x-axis and the graph of the function ​ <strong>Find the area of the region bounded by the x-axis and the graph of the function ​ ​</strong> A) B) C) ​ D) ​ <div style=padding-top: 35px>

A) <strong>Find the area of the region bounded by the x-axis and the graph of the function ​ ​</strong> A) B) C) ​ D) ​ <div style=padding-top: 35px>
B) <strong>Find the area of the region bounded by the x-axis and the graph of the function ​ ​</strong> A) B) C) ​ D) ​ <div style=padding-top: 35px>
C) ​ <strong>Find the area of the region bounded by the x-axis and the graph of the function ​ ​</strong> A) B) C) ​ D) ​ <div style=padding-top: 35px>
D) ​ <strong>Find the area of the region bounded by the x-axis and the graph of the function ​ ​</strong> A) B) C) ​ D) ​ <div style=padding-top: 35px>
Question
Evaluate the following improper integral whenever it is convergent. ​ <strong>Evaluate the following improper integral whenever it is convergent. ​ ​</strong> A) B) ​ C) ​ D) ​ E) the integral is divergent <div style=padding-top: 35px>

A) <strong>Evaluate the following improper integral whenever it is convergent. ​ ​</strong> A) B) ​ C) ​ D) ​ E) the integral is divergent <div style=padding-top: 35px>
B) ​ <strong>Evaluate the following improper integral whenever it is convergent. ​ ​</strong> A) B) ​ C) ​ D) ​ E) the integral is divergent <div style=padding-top: 35px>
C) ​ <strong>Evaluate the following improper integral whenever it is convergent. ​ ​</strong> A) B) ​ C) ​ D) ​ E) the integral is divergent <div style=padding-top: 35px>
D) ​ <strong>Evaluate the following improper integral whenever it is convergent. ​ ​</strong> A) B) ​ C) ​ D) ​ E) the integral is divergent <div style=padding-top: 35px>
E) the integral is divergent
Question
Evaluate the following improper integral whenever it is convergent. ​ <strong>Evaluate the following improper integral whenever it is convergent. ​ ​</strong> A) 8 B) 0 C) -6 D) -10 E) the integral is divergent <div style=padding-top: 35px>

A) 8
B) 0
C) -6
D) -10
E) the integral is divergent
Question
Evaluate the following improper integral whenever it is convergent. ​ <strong>Evaluate the following improper integral whenever it is convergent. ​ ​</strong> A) 4 B) 10 C) 2 D) 5 E) the integral is divergent <div style=padding-top: 35px>

A) 4
B) 10
C) 2
D) 5
E) the integral is divergent
Question
Find the area of the region bounded by the x-axis and the graph of the function. ​ <strong>Find the area of the region bounded by the x-axis and the graph of the function. ​ ​</strong> A) 1 sq units B) 5 sq units C) 4 sq units D) 3 sq units E) 2 sq units <div style=padding-top: 35px>

A) 1 sq units
B) 5 sq units
C) 4 sq units
D) 3 sq units
E) 2 sq units
Question
Find the area of the region under the curve <strong>Find the area of the region under the curve over the indicated interval. ​ ​</strong> A) 2 sq units B) 3 sq units C) 4 sq units D) 8 sq units E) 1 sq units <div style=padding-top: 35px> over the indicated interval. ​ <strong>Find the area of the region under the curve over the indicated interval. ​ ​</strong> A) 2 sq units B) 3 sq units C) 4 sq units D) 8 sq units E) 1 sq units <div style=padding-top: 35px>

A) 2 sq units
B) 3 sq units
C) 4 sq units
D) 8 sq units
E) 1 sq units
Question
Evaluate the following improper integral whenever it is convergent. ​ <strong>Evaluate the following improper integral whenever it is convergent. ​ ​</strong> A) B) C) 1 D) 0 E) the integral is divergent <div style=padding-top: 35px>

A) <strong>Evaluate the following improper integral whenever it is convergent. ​ ​</strong> A) B) C) 1 D) 0 E) the integral is divergent <div style=padding-top: 35px>
B) <strong>Evaluate the following improper integral whenever it is convergent. ​ ​</strong> A) B) C) 1 D) 0 E) the integral is divergent <div style=padding-top: 35px>
C) 1
D) 0
E) the integral is divergent
Question
Becky Wilkinson wants to establish a trust fund that will provide her children and heirs with a perpetual annuity in the amount of ​ <strong>Becky Wilkinson wants to establish a trust fund that will provide her children and heirs with a perpetual annuity in the amount of ​ ​ Thousand dollars per year beginning next year. If the trust fund will earn an interest rate of 10% per year compounded continuously, find the amount that she must place in the trust fund now. Hint: Use the formula </strong> A) $350,000 B) $290,000 C) $380,000 D) $370,000 E) $400,000 <div style=padding-top: 35px>
Thousand dollars per year beginning next year. If the trust fund will earn an interest rate of 10% per year compounded continuously, find the amount that she must place in the trust fund now.
Hint: Use the formula <strong>Becky Wilkinson wants to establish a trust fund that will provide her children and heirs with a perpetual annuity in the amount of ​ ​ Thousand dollars per year beginning next year. If the trust fund will earn an interest rate of 10% per year compounded continuously, find the amount that she must place in the trust fund now. Hint: Use the formula </strong> A) $350,000 B) $290,000 C) $380,000 D) $370,000 E) $400,000 <div style=padding-top: 35px>

A) $350,000
B) $290,000
C) $380,000
D) $370,000
E) $400,000
Question
Evaluate the improper integral if it is convergent.
Evaluate the improper integral if it is convergent. ​ <div style=padding-top: 35px>
Question
Find the area of the region bounded by the x-axis and the graph of the function.
Find the area of the region bounded by the x-axis and the graph of the function. ​ ​ __________ sq units<div style=padding-top: 35px>
__________ sq units
Question
Find the area of the region under the given curve Find the area of the region under the given curve over the indicated interval. ​ <div style=padding-top: 35px> over the indicated interval.
Find the area of the region under the given curve over the indicated interval. ​ <div style=padding-top: 35px>
Question
Find the area of the region under the curve Find the area of the region under the curve over the indicated interval. ​ ​ __________ sq units<div style=padding-top: 35px> over the indicated interval.
Find the area of the region under the curve over the indicated interval. ​ ​ __________ sq units<div style=padding-top: 35px>
__________ sq units
Question
Evaluate the following improper integral whenever it is convergent.
Evaluate the following improper integral whenever it is convergent. ​ <div style=padding-top: 35px>
Question
Becky Wilkinson wants to establish a trust fund that will provide her children and heirs with a perpetual annuity in the amount of
Becky Wilkinson wants to establish a trust fund that will provide her children and heirs with a perpetual annuity in the amount of ​ ​ thousand dollars per year beginning next year. If the trust fund will earn an interest rate of 10% per year compounded continuously, find the amount that she must place in the trust fund now. ​<div style=padding-top: 35px>
thousand dollars per year beginning next year. If the trust fund will earn an interest rate of 10% per year compounded continuously, find the amount that she must place in the trust fund now.
Question
Find the area of the region under the given curve Find the area of the region under the given curve over the indicated interval. ​ <div style=padding-top: 35px> over the indicated interval.
Find the area of the region under the given curve over the indicated interval. ​ <div style=padding-top: 35px>
Question
Find the area of the region under the given curve Find the area of the region under the given curve over the indicated interval. ​ <div style=padding-top: 35px> over the indicated interval.
Find the area of the region under the given curve over the indicated interval. ​ <div style=padding-top: 35px>
Question
Find the area of the region under the given curve Find the area of the region under the given curve over the indicated interval. ​ <div style=padding-top: 35px> over the indicated interval.
Find the area of the region under the given curve over the indicated interval. ​ <div style=padding-top: 35px>
Question
Find the area of the region bounded by the x-axis and the graph of the function
Find the area of the region bounded by the x-axis and the graph of the function ​ <div style=padding-top: 35px>
Question
Evaluate the following improper integral whenever it is convergent.
Evaluate the following improper integral whenever it is convergent. ​ <div style=padding-top: 35px>
Question
A university alumni group wishes to provide an annual scholarship in the amount of $1,100 beginning next year. If the scholarship fund will earn an interest rate of 5% / year compounded continuously, find the amount of the endowment the alumni are required to make now. ​

A) $22,559
B) $21,118
C) $22,000
D) $21,556
Question
Evaluate the improper integral whenever it is convergent. If not, enter divergent.
Evaluate the improper integral whenever it is convergent. If not, enter divergent. ​ <div style=padding-top: 35px>
Question
Evaluate the following improper integral whenever it is convergent.
Evaluate the following improper integral whenever it is convergent. ​ <div style=padding-top: 35px>
Question
A university alumni group wishes to provide an annual scholarship in the amount of $1,900 beginning next year. If the scholarship fund will earn an interest rate of 4% / year compounded continuously, find the amount of the endowment the alumni are required to make now.

$__________
Question
Evaluate the following improper integral whenever it is convergent.
Evaluate the following improper integral whenever it is convergent. ​ ​ Enter divergent if the integral is divergent.<div style=padding-top: 35px>
Enter divergent if the integral is divergent.
Question
The present value of a perpetual stream of income that flows continually at the rate of P(t) dollars per year is given by the formula ​ <strong>The present value of a perpetual stream of income that flows continually at the rate of P(t) dollars per year is given by the formula ​ ​ Where r is the interest rate compounded continuously. Using this formula, find the present value of a perpetual net income stream that is generated at the rate of dollars per year. Hint: </strong> A) B) C) D) E) ​ <div style=padding-top: 35px>
Where r is the interest rate compounded continuously. Using this formula, find the present value of a perpetual net income stream that is generated at the rate of <strong>The present value of a perpetual stream of income that flows continually at the rate of P(t) dollars per year is given by the formula ​ ​ Where r is the interest rate compounded continuously. Using this formula, find the present value of a perpetual net income stream that is generated at the rate of dollars per year. Hint: </strong> A) B) C) D) E) ​ <div style=padding-top: 35px> dollars per year.
Hint: <strong>The present value of a perpetual stream of income that flows continually at the rate of P(t) dollars per year is given by the formula ​ ​ Where r is the interest rate compounded continuously. Using this formula, find the present value of a perpetual net income stream that is generated at the rate of dollars per year. Hint: </strong> A) B) C) D) E) ​ <div style=padding-top: 35px>

A) <strong>The present value of a perpetual stream of income that flows continually at the rate of P(t) dollars per year is given by the formula ​ ​ Where r is the interest rate compounded continuously. Using this formula, find the present value of a perpetual net income stream that is generated at the rate of dollars per year. Hint: </strong> A) B) C) D) E) ​ <div style=padding-top: 35px>
B) <strong>The present value of a perpetual stream of income that flows continually at the rate of P(t) dollars per year is given by the formula ​ ​ Where r is the interest rate compounded continuously. Using this formula, find the present value of a perpetual net income stream that is generated at the rate of dollars per year. Hint: </strong> A) B) C) D) E) ​ <div style=padding-top: 35px>
C) <strong>The present value of a perpetual stream of income that flows continually at the rate of P(t) dollars per year is given by the formula ​ ​ Where r is the interest rate compounded continuously. Using this formula, find the present value of a perpetual net income stream that is generated at the rate of dollars per year. Hint: </strong> A) B) C) D) E) ​ <div style=padding-top: 35px>
D) <strong>The present value of a perpetual stream of income that flows continually at the rate of P(t) dollars per year is given by the formula ​ ​ Where r is the interest rate compounded continuously. Using this formula, find the present value of a perpetual net income stream that is generated at the rate of dollars per year. Hint: </strong> A) B) C) D) E) ​ <div style=padding-top: 35px>
E) <strong>The present value of a perpetual stream of income that flows continually at the rate of P(t) dollars per year is given by the formula ​ ​ Where r is the interest rate compounded continuously. Using this formula, find the present value of a perpetual net income stream that is generated at the rate of dollars per year. Hint: </strong> A) B) C) D) E) ​ <div style=padding-top: 35px>
Question
Evaluate the following improper integral whenever it is convergent.
Evaluate the following improper integral whenever it is convergent. ​ <div style=padding-top: 35px>
Question
Evaluate the following improper integral whenever it is convergent.
Evaluate the following improper integral whenever it is convergent. ​ <div style=padding-top: 35px>
Question
The present value of a perpetual stream of income that flows continually at the rate of P(t) dollars per year is given by the formula
The present value of a perpetual stream of income that flows continually at the rate of P(t) dollars per year is given by the formula ​ ​ where r is the interest rate compounded continuously. Using this formula, find the present value of a perpetual net income stream that is generated at the rate of ​ ​ dollars per year. ​<div style=padding-top: 35px>
where r is the interest rate compounded continuously. Using this formula, find the present value of a perpetual net income stream that is generated at the rate of
The present value of a perpetual stream of income that flows continually at the rate of P(t) dollars per year is given by the formula ​ ​ where r is the interest rate compounded continuously. Using this formula, find the present value of a perpetual net income stream that is generated at the rate of ​ ​ dollars per year. ​<div style=padding-top: 35px>
dollars per year.
Question

If If exists, then exists and .<div style=padding-top: 35px> exists, then If exists, then exists and .<div style=padding-top: 35px> exists and If exists, then exists and .<div style=padding-top: 35px> .
Question
Evaluate the following improper integral whenever it is convergent.
Evaluate the following improper integral whenever it is convergent. ​ ​ Enter divergent if the integral is divergent.<div style=padding-top: 35px>
Enter divergent if the integral is divergent.
Question
Use the trapezoidal rule and Simpson's rule to approximate the value of the definite integral. ​ <strong>Use the trapezoidal rule and Simpson's rule to approximate the value of the definite integral. ​ ​</strong> A) B) ​ C) ​ D) ​ <div style=padding-top: 35px>

A) <strong>Use the trapezoidal rule and Simpson's rule to approximate the value of the definite integral. ​ ​</strong> A) B) ​ C) ​ D) ​ <div style=padding-top: 35px>
B) ​ <strong>Use the trapezoidal rule and Simpson's rule to approximate the value of the definite integral. ​ ​</strong> A) B) ​ C) ​ D) ​ <div style=padding-top: 35px>
C) ​ <strong>Use the trapezoidal rule and Simpson's rule to approximate the value of the definite integral. ​ ​</strong> A) B) ​ C) ​ D) ​ <div style=padding-top: 35px>
D) ​ <strong>Use the trapezoidal rule and Simpson's rule to approximate the value of the definite integral. ​ ​</strong> A) B) ​ C) ​ D) ​ <div style=padding-top: 35px>
Question
Evaluate the following improper integral whenever it is convergent.
Evaluate the following improper integral whenever it is convergent. ​ Enter divergent if the integral is divergent.<div style=padding-top: 35px> Enter divergent if the integral is divergent.
Question
Find a bound on the error in approximating the given definite integral using (a) the trapezoidal rule and (b) Simpson's rule with n intervals. ​ <strong>Find a bound on the error in approximating the given definite integral using (a) the trapezoidal rule and (b) Simpson's rule with n intervals. ​ ​</strong> A) B) ​ C) ​ D) ​ <div style=padding-top: 35px>

A) <strong>Find a bound on the error in approximating the given definite integral using (a) the trapezoidal rule and (b) Simpson's rule with n intervals. ​ ​</strong> A) B) ​ C) ​ D) ​ <div style=padding-top: 35px>
B) ​ <strong>Find a bound on the error in approximating the given definite integral using (a) the trapezoidal rule and (b) Simpson's rule with n intervals. ​ ​</strong> A) B) ​ C) ​ D) ​ <div style=padding-top: 35px>
C) ​ <strong>Find a bound on the error in approximating the given definite integral using (a) the trapezoidal rule and (b) Simpson's rule with n intervals. ​ ​</strong> A) B) ​ C) ​ D) ​ <div style=padding-top: 35px>
D) ​ <strong>Find a bound on the error in approximating the given definite integral using (a) the trapezoidal rule and (b) Simpson's rule with n intervals. ​ ​</strong> A) B) ​ C) ​ D) ​ <div style=padding-top: 35px>
Question
Find a bound on the error in approximating the definite integral using the trapezoidal rule with 8 intervals. ​ <strong>Find a bound on the error in approximating the definite integral using the trapezoidal rule with 8 intervals. ​ ​</strong> A) 0.1773108 B) 0.1110032 C) 0.0629052 D) 0.0625000 E) 0.0403685 <div style=padding-top: 35px>

A) 0.1773108
B) 0.1110032
C) 0.0629052
D) 0.0625000
E) 0.0403685
Question
Evaluate the following improper integral whenever it is convergent.
Evaluate the following improper integral whenever it is convergent. ​ ​ Enter divergent if the integral is divergent.<div style=padding-top: 35px>
Enter divergent if the integral is divergent.
Question
Use the trapezoidal rule and Simpson's rule to approximate the value of the definite integral. Find the exact value of the integral. ​ <strong>Use the trapezoidal rule and Simpson's rule to approximate the value of the definite integral. Find the exact value of the integral. ​ ​</strong> A) B) ​ C) ​ D) ​ <div style=padding-top: 35px>

A) <strong>Use the trapezoidal rule and Simpson's rule to approximate the value of the definite integral. Find the exact value of the integral. ​ ​</strong> A) B) ​ C) ​ D) ​ <div style=padding-top: 35px>
B) ​ <strong>Use the trapezoidal rule and Simpson's rule to approximate the value of the definite integral. Find the exact value of the integral. ​ ​</strong> A) B) ​ C) ​ D) ​ <div style=padding-top: 35px>
C) ​ <strong>Use the trapezoidal rule and Simpson's rule to approximate the value of the definite integral. Find the exact value of the integral. ​ ​</strong> A) B) ​ C) ​ D) ​ <div style=padding-top: 35px>
D) ​ <strong>Use the trapezoidal rule and Simpson's rule to approximate the value of the definite integral. Find the exact value of the integral. ​ ​</strong> A) B) ​ C) ​ D) ​ <div style=padding-top: 35px>
Question
In a submerged trial run of an attack submarine, a reading of the submarine's velocity was made every quarter hour, as shown in the accompanying table. Use the trapezoidal rule to estimate the distance traveled by the submarine during the 2-hour period. Please round the answer to the nearest hundredth if necessary. Time, t (hr)
0 <strong>In a submerged trial run of an attack submarine, a reading of the submarine's velocity was made every quarter hour, as shown in the accompanying table. Use the trapezoidal rule to estimate the distance traveled by the submarine during the 2-hour period. Please round the answer to the nearest hundredth if necessary. Time, t (hr) 0 Velocity, V(t) (mph) 19)4 23 33)8 39)4 37)2 35)1 27)8 26)2 3)8 ​</strong> A) 52.89 mi B) 54.15 mi C) 58.52 mi D) 45.47 mi E) 47.87 mi <div style=padding-top: 35px> <strong>In a submerged trial run of an attack submarine, a reading of the submarine's velocity was made every quarter hour, as shown in the accompanying table. Use the trapezoidal rule to estimate the distance traveled by the submarine during the 2-hour period. Please round the answer to the nearest hundredth if necessary. Time, t (hr) 0 Velocity, V(t) (mph) 19)4 23 33)8 39)4 37)2 35)1 27)8 26)2 3)8 ​</strong> A) 52.89 mi B) 54.15 mi C) 58.52 mi D) 45.47 mi E) 47.87 mi <div style=padding-top: 35px> <strong>In a submerged trial run of an attack submarine, a reading of the submarine's velocity was made every quarter hour, as shown in the accompanying table. Use the trapezoidal rule to estimate the distance traveled by the submarine during the 2-hour period. Please round the answer to the nearest hundredth if necessary. Time, t (hr) 0 Velocity, V(t) (mph) 19)4 23 33)8 39)4 37)2 35)1 27)8 26)2 3)8 ​</strong> A) 52.89 mi B) 54.15 mi C) 58.52 mi D) 45.47 mi E) 47.87 mi <div style=padding-top: 35px> <strong>In a submerged trial run of an attack submarine, a reading of the submarine's velocity was made every quarter hour, as shown in the accompanying table. Use the trapezoidal rule to estimate the distance traveled by the submarine during the 2-hour period. Please round the answer to the nearest hundredth if necessary. Time, t (hr) 0 Velocity, V(t) (mph) 19)4 23 33)8 39)4 37)2 35)1 27)8 26)2 3)8 ​</strong> A) 52.89 mi B) 54.15 mi C) 58.52 mi D) 45.47 mi E) 47.87 mi <div style=padding-top: 35px> <strong>In a submerged trial run of an attack submarine, a reading of the submarine's velocity was made every quarter hour, as shown in the accompanying table. Use the trapezoidal rule to estimate the distance traveled by the submarine during the 2-hour period. Please round the answer to the nearest hundredth if necessary. Time, t (hr) 0 Velocity, V(t) (mph) 19)4 23 33)8 39)4 37)2 35)1 27)8 26)2 3)8 ​</strong> A) 52.89 mi B) 54.15 mi C) 58.52 mi D) 45.47 mi E) 47.87 mi <div style=padding-top: 35px> <strong>In a submerged trial run of an attack submarine, a reading of the submarine's velocity was made every quarter hour, as shown in the accompanying table. Use the trapezoidal rule to estimate the distance traveled by the submarine during the 2-hour period. Please round the answer to the nearest hundredth if necessary. Time, t (hr) 0 Velocity, V(t) (mph) 19)4 23 33)8 39)4 37)2 35)1 27)8 26)2 3)8 ​</strong> A) 52.89 mi B) 54.15 mi C) 58.52 mi D) 45.47 mi E) 47.87 mi <div style=padding-top: 35px> <strong>In a submerged trial run of an attack submarine, a reading of the submarine's velocity was made every quarter hour, as shown in the accompanying table. Use the trapezoidal rule to estimate the distance traveled by the submarine during the 2-hour period. Please round the answer to the nearest hundredth if necessary. Time, t (hr) 0 Velocity, V(t) (mph) 19)4 23 33)8 39)4 37)2 35)1 27)8 26)2 3)8 ​</strong> A) 52.89 mi B) 54.15 mi C) 58.52 mi D) 45.47 mi E) 47.87 mi <div style=padding-top: 35px> <strong>In a submerged trial run of an attack submarine, a reading of the submarine's velocity was made every quarter hour, as shown in the accompanying table. Use the trapezoidal rule to estimate the distance traveled by the submarine during the 2-hour period. Please round the answer to the nearest hundredth if necessary. Time, t (hr) 0 Velocity, V(t) (mph) 19)4 23 33)8 39)4 37)2 35)1 27)8 26)2 3)8 ​</strong> A) 52.89 mi B) 54.15 mi C) 58.52 mi D) 45.47 mi E) 47.87 mi <div style=padding-top: 35px> Velocity, V(t) (mph)
19)4
23
33)8
39)4
37)2
35)1
27)8
26)2
3)8

A) 52.89 mi
B) 54.15 mi
C) 58.52 mi
D) 45.47 mi
E) 47.87 mi
Question
Evaluate the following improper integral whenever it is convergent.
Evaluate the following improper integral whenever it is convergent. ​ ​ Enter divergent if the integral is divergent.<div style=padding-top: 35px>
Enter divergent if the integral is divergent.
Question
Use the trapezoidal rule and Simpson's rule to approximate the value of the definite integral. ​ <strong>Use the trapezoidal rule and Simpson's rule to approximate the value of the definite integral. ​ ​</strong> A) By trapezoidal rule 1.1325, by Simpson's rule 0.6554 B) By trapezoidal rule 1.9565, by Simpson's rule 0.6555 C) By trapezoidal rule 0.6572, by Simpson's rule 0.6551 D) By trapezoidal rule 1.6290, by Simpson's rule 1.6108 E) By trapezoidal rule 1.5807, by Simpson's rule 0.6533 <div style=padding-top: 35px>

A) By trapezoidal rule 1.1325, by Simpson's rule 0.6554
B) By trapezoidal rule 1.9565, by Simpson's rule 0.6555
C) By trapezoidal rule 0.6572, by Simpson's rule 0.6551
D) By trapezoidal rule 1.6290, by Simpson's rule 1.6108
E) By trapezoidal rule 1.5807, by Simpson's rule 0.6533
Question
Use the trapezoidal rule and Simpson's rule to approximate the value of the definite integral. Please give the answer to four decimal places. ​ <strong>Use the trapezoidal rule and Simpson's rule to approximate the value of the definite integral. Please give the answer to four decimal places. ​ ​</strong> A) By trapezoidal rule 1.0271, by Simpson's rule 1.1893 B) By trapezoidal rule 0.9083, by Simpson's rule 0.7109 C) By trapezoidal rule 1.1902, by Simpson's rule 1.1677 D) By trapezoidal rule 0.8126, by Simpson's rule 0.5496 E) By trapezoidal rule 1.4060, by Simpson's rule 0.7978 <div style=padding-top: 35px>

A) By trapezoidal rule 1.0271, by Simpson's rule 1.1893
B) By trapezoidal rule 0.9083, by Simpson's rule 0.7109
C) By trapezoidal rule 1.1902, by Simpson's rule 1.1677
D) By trapezoidal rule 0.8126, by Simpson's rule 0.5496
E) By trapezoidal rule 1.4060, by Simpson's rule 0.7978
Question
Use the trapezoidal rule and Simpson's rule to approximate the value of the definite integral. ​ <strong>Use the trapezoidal rule and Simpson's rule to approximate the value of the definite integral. ​ ​</strong> A) By trapezoidal rule 1.2140, by Simpson's rule 1.1609 B) By trapezoidal rule 1.1705, by Simpson's rule 1.1520 C) By trapezoidal rule 1.1000, by Simpson's rule 1.1660 D) By trapezoidal rule 1.3620, by Simpson's rule 1.1306 E) By trapezoidal rule 0.9613, by Simpson's rule 0.9503 <div style=padding-top: 35px>

A) By trapezoidal rule 1.2140, by Simpson's rule 1.1609
B) By trapezoidal rule 1.1705, by Simpson's rule 1.1520
C) By trapezoidal rule 1.1000, by Simpson's rule 1.1660
D) By trapezoidal rule 1.3620, by Simpson's rule 1.1306
E) By trapezoidal rule 0.9613, by Simpson's rule 0.9503
Question
Use the trapezoidal rule and Simpson's rule to approximate the value of the definite integral. Find the exact value of the integral. ​ <strong>Use the trapezoidal rule and Simpson's rule to approximate the value of the definite integral. Find the exact value of the integral. ​ ​</strong> A) B) ​ C) ​ D) ​ <div style=padding-top: 35px>

A) <strong>Use the trapezoidal rule and Simpson's rule to approximate the value of the definite integral. Find the exact value of the integral. ​ ​</strong> A) B) ​ C) ​ D) ​ <div style=padding-top: 35px>
B) ​ <strong>Use the trapezoidal rule and Simpson's rule to approximate the value of the definite integral. Find the exact value of the integral. ​ ​</strong> A) B) ​ C) ​ D) ​ <div style=padding-top: 35px>
C) ​ <strong>Use the trapezoidal rule and Simpson's rule to approximate the value of the definite integral. Find the exact value of the integral. ​ ​</strong> A) B) ​ C) ​ D) ​ <div style=padding-top: 35px>
D) ​ <strong>Use the trapezoidal rule and Simpson's rule to approximate the value of the definite integral. Find the exact value of the integral. ​ ​</strong> A) B) ​ C) ​ D) ​ <div style=padding-top: 35px>
Question
Use the trapezoidal rule and Simpson's rule to approximate the value of the definite integral. Find the exact value of the integral. ​ <strong>Use the trapezoidal rule and Simpson's rule to approximate the value of the definite integral. Find the exact value of the integral. ​ ​</strong> A) B) ​ C) ​ D) ​ <div style=padding-top: 35px>

A) <strong>Use the trapezoidal rule and Simpson's rule to approximate the value of the definite integral. Find the exact value of the integral. ​ ​</strong> A) B) ​ C) ​ D) ​ <div style=padding-top: 35px>
B) ​ <strong>Use the trapezoidal rule and Simpson's rule to approximate the value of the definite integral. Find the exact value of the integral. ​ ​</strong> A) B) ​ C) ​ D) ​ <div style=padding-top: 35px>
C) ​ <strong>Use the trapezoidal rule and Simpson's rule to approximate the value of the definite integral. Find the exact value of the integral. ​ ​</strong> A) B) ​ C) ​ D) ​ <div style=padding-top: 35px>
D) ​ <strong>Use the trapezoidal rule and Simpson's rule to approximate the value of the definite integral. Find the exact value of the integral. ​ ​</strong> A) B) ​ C) ​ D) ​ <div style=padding-top: 35px>
Question
Evaluate the following improper integral whenever it is convergent.
Evaluate the following improper integral whenever it is convergent. ​ ​ Enter divergent if the integral is divergent.<div style=padding-top: 35px>
Enter divergent if the integral is divergent.
Question
Use the trapezoidal rule and Simpson's rule to approximate the value of the definite integral. ​ <strong>Use the trapezoidal rule and Simpson's rule to approximate the value of the definite integral. ​ ​</strong> A) B) C) D) <div style=padding-top: 35px>

A) <strong>Use the trapezoidal rule and Simpson's rule to approximate the value of the definite integral. ​ ​</strong> A) B) C) D) <div style=padding-top: 35px>
B) <strong>Use the trapezoidal rule and Simpson's rule to approximate the value of the definite integral. ​ ​</strong> A) B) C) D) <div style=padding-top: 35px>
C) <strong>Use the trapezoidal rule and Simpson's rule to approximate the value of the definite integral. ​ ​</strong> A) B) C) D) <div style=padding-top: 35px>
D) <strong>Use the trapezoidal rule and Simpson's rule to approximate the value of the definite integral. ​ ​</strong> A) B) C) D) <div style=padding-top: 35px>
Question
Use the trapezoidal rule and Simpson's rule to approximate the value of the definite integral. Find the exact value of the integral. ​ <strong>Use the trapezoidal rule and Simpson's rule to approximate the value of the definite integral. Find the exact value of the integral. ​ ​</strong> A) B) ​ C) ​ D) ​ <div style=padding-top: 35px>

A) <strong>Use the trapezoidal rule and Simpson's rule to approximate the value of the definite integral. Find the exact value of the integral. ​ ​</strong> A) B) ​ C) ​ D) ​ <div style=padding-top: 35px>
B) ​ <strong>Use the trapezoidal rule and Simpson's rule to approximate the value of the definite integral. Find the exact value of the integral. ​ ​</strong> A) B) ​ C) ​ D) ​ <div style=padding-top: 35px>
C) ​ <strong>Use the trapezoidal rule and Simpson's rule to approximate the value of the definite integral. Find the exact value of the integral. ​ ​</strong> A) B) ​ C) ​ D) ​ <div style=padding-top: 35px>
D) ​ <strong>Use the trapezoidal rule and Simpson's rule to approximate the value of the definite integral. Find the exact value of the integral. ​ ​</strong> A) B) ​ C) ​ D) ​ <div style=padding-top: 35px>
Question
Find a bound on the error in approximating the given definite integral using (a) the trapezoidal rule and (b) Simpson's rule with n intervals. ​ <strong>Find a bound on the error in approximating the given definite integral using (a) the trapezoidal rule and (b) Simpson's rule with n intervals. ​ ​</strong> A) B) ​ C) ​ D) ​ <div style=padding-top: 35px>

A) <strong>Find a bound on the error in approximating the given definite integral using (a) the trapezoidal rule and (b) Simpson's rule with n intervals. ​ ​</strong> A) B) ​ C) ​ D) ​ <div style=padding-top: 35px>
B) ​ <strong>Find a bound on the error in approximating the given definite integral using (a) the trapezoidal rule and (b) Simpson's rule with n intervals. ​ ​</strong> A) B) ​ C) ​ D) ​ <div style=padding-top: 35px>
C) ​ <strong>Find a bound on the error in approximating the given definite integral using (a) the trapezoidal rule and (b) Simpson's rule with n intervals. ​ ​</strong> A) B) ​ C) ​ D) ​ <div style=padding-top: 35px>
D) ​ <strong>Find a bound on the error in approximating the given definite integral using (a) the trapezoidal rule and (b) Simpson's rule with n intervals. ​ ​</strong> A) B) ​ C) ​ D) ​ <div style=padding-top: 35px>
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Deck 7: Additional Topics in Integration
1
Find the volume of the solid of revolution obtained by revolving the region under the curve
Find the volume of the solid of revolution obtained by revolving the region under the curve ​ ​ from to about the -axis.
from Find the volume of the solid of revolution obtained by revolving the region under the curve ​ ​ from to about the -axis. to Find the volume of the solid of revolution obtained by revolving the region under the curve ​ ​ from to about the -axis. about the Find the volume of the solid of revolution obtained by revolving the region under the curve ​ ​ from to about the -axis. -axis.
2
By computing the volume of the solid of revolution obtained by revolving the region under the semicircle
By computing the volume of the solid of revolution obtained by revolving the region under the semicircle ​ ​ from to about the -axis, show that the volume of a sphere of radius is cubic units.
from By computing the volume of the solid of revolution obtained by revolving the region under the semicircle ​ ​ from to about the -axis, show that the volume of a sphere of radius is cubic units. to By computing the volume of the solid of revolution obtained by revolving the region under the semicircle ​ ​ from to about the -axis, show that the volume of a sphere of radius is cubic units. about the By computing the volume of the solid of revolution obtained by revolving the region under the semicircle ​ ​ from to about the -axis, show that the volume of a sphere of radius is cubic units. -axis, show that the volume of a sphere of radius By computing the volume of the solid of revolution obtained by revolving the region under the semicircle ​ ​ from to about the -axis, show that the volume of a sphere of radius is cubic units. is By computing the volume of the solid of revolution obtained by revolving the region under the semicircle ​ ​ from to about the -axis, show that the volume of a sphere of radius is cubic units. cubic units.
cu units cu units cu units
3
Find the volume of the solid of revolution obtained by revolving the region under the curve
Find the volume of the solid of revolution obtained by revolving the region under the curve ​ ​ from to about the -axis.
from Find the volume of the solid of revolution obtained by revolving the region under the curve ​ ​ from to about the -axis. to Find the volume of the solid of revolution obtained by revolving the region under the curve ​ ​ from to about the -axis. about the Find the volume of the solid of revolution obtained by revolving the region under the curve ​ ​ from to about the -axis. -axis.
4
Find the volume of the prolate spheroid (a solid of revolution in the shape of a football, i.e., elongated vertically) obtained by revolving the region under the graph of the function
Find the volume of the prolate spheroid (a solid of revolution in the shape of a football, i.e., elongated vertically) obtained by revolving the region under the graph of the function ​ ​ from to about the -axis.
from Find the volume of the prolate spheroid (a solid of revolution in the shape of a football, i.e., elongated vertically) obtained by revolving the region under the graph of the function ​ ​ from to about the -axis. to Find the volume of the prolate spheroid (a solid of revolution in the shape of a football, i.e., elongated vertically) obtained by revolving the region under the graph of the function ​ ​ from to about the -axis. about the Find the volume of the prolate spheroid (a solid of revolution in the shape of a football, i.e., elongated vertically) obtained by revolving the region under the graph of the function ​ ​ from to about the -axis. -axis.
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5
Find the volume of the solid of revolution obtained by revolving the region under the curve
Find the volume of the solid of revolution obtained by revolving the region under the curve ​ ​ from to about the -axis.
from Find the volume of the solid of revolution obtained by revolving the region under the curve ​ ​ from to about the -axis. to Find the volume of the solid of revolution obtained by revolving the region under the curve ​ ​ from to about the -axis. about the Find the volume of the solid of revolution obtained by revolving the region under the curve ​ ​ from to about the -axis. -axis.
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6
Find the volume of the solid of revolution obtained by revolving the region bounded above by the curve
Find the volume of the solid of revolution obtained by revolving the region bounded above by the curve ​ ​ and below by the curve ​ ​ from to about the -axis.
and below by the curve
Find the volume of the solid of revolution obtained by revolving the region bounded above by the curve ​ ​ and below by the curve ​ ​ from to about the -axis.
from Find the volume of the solid of revolution obtained by revolving the region bounded above by the curve ​ ​ and below by the curve ​ ​ from to about the -axis. to Find the volume of the solid of revolution obtained by revolving the region bounded above by the curve ​ ​ and below by the curve ​ ​ from to about the -axis. about the Find the volume of the solid of revolution obtained by revolving the region bounded above by the curve ​ ​ and below by the curve ​ ​ from to about the -axis. -axis.
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7
Find the volume of the solid of revolution obtained by revolving the region bounded by the graphs of the given functions about the x-axis.
Find the volume of the solid of revolution obtained by revolving the region bounded by the graphs of the given functions about the x-axis. ​ and and Find the volume of the solid of revolution obtained by revolving the region bounded by the graphs of the given functions about the x-axis. ​ and
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8
Find the volume of the solid of revolution obtained by revolving the region bounded by the graphs of the given functions about the x-axis.
Find the volume of the solid of revolution obtained by revolving the region bounded by the graphs of the given functions about the x-axis. ​ , , and ​ , Find the volume of the solid of revolution obtained by revolving the region bounded by the graphs of the given functions about the x-axis. ​ , , and ​ , and Find the volume of the solid of revolution obtained by revolving the region bounded by the graphs of the given functions about the x-axis. ​ , , and ​
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9
Find the volume of the solid of revolution obtained by revolving the region bounded above by the curve
Find the volume of the solid of revolution obtained by revolving the region bounded above by the curve ​ ​ and below by the curve ​ ​ from to about the -axis.
and below by the curve
Find the volume of the solid of revolution obtained by revolving the region bounded above by the curve ​ ​ and below by the curve ​ ​ from to about the -axis.
from Find the volume of the solid of revolution obtained by revolving the region bounded above by the curve ​ ​ and below by the curve ​ ​ from to about the -axis. to Find the volume of the solid of revolution obtained by revolving the region bounded above by the curve ​ ​ and below by the curve ​ ​ from to about the -axis. about the Find the volume of the solid of revolution obtained by revolving the region bounded above by the curve ​ ​ and below by the curve ​ ​ from to about the -axis. -axis.
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10
Find the volume of the solid of revolution obtained by revolving the region bounded above by the curve
Find the volume of the solid of revolution obtained by revolving the region bounded above by the curve ​ ​ and below by the curve ​ ​ from to about the -axis.
and below by the curve
Find the volume of the solid of revolution obtained by revolving the region bounded above by the curve ​ ​ and below by the curve ​ ​ from to about the -axis.
from Find the volume of the solid of revolution obtained by revolving the region bounded above by the curve ​ ​ and below by the curve ​ ​ from to about the -axis. to Find the volume of the solid of revolution obtained by revolving the region bounded above by the curve ​ ​ and below by the curve ​ ​ from to about the -axis. about the Find the volume of the solid of revolution obtained by revolving the region bounded above by the curve ​ ​ and below by the curve ​ ​ from to about the -axis. -axis.
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11
Find the volume of the solid of revolution obtained by revolving the region under the curve
Find the volume of the solid of revolution obtained by revolving the region under the curve ​ ​ from to about the -axis.
from Find the volume of the solid of revolution obtained by revolving the region under the curve ​ ​ from to about the -axis. to Find the volume of the solid of revolution obtained by revolving the region under the curve ​ ​ from to about the -axis. about the Find the volume of the solid of revolution obtained by revolving the region under the curve ​ ​ from to about the -axis. -axis.
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12
Find the volume of the solid of revolution obtained by revolving the region bounded above by the curve
Find the volume of the solid of revolution obtained by revolving the region bounded above by the curve ​ ​ and below by the curve ​ ​ from to about the -axis.
and below by the curve
Find the volume of the solid of revolution obtained by revolving the region bounded above by the curve ​ ​ and below by the curve ​ ​ from to about the -axis.
from Find the volume of the solid of revolution obtained by revolving the region bounded above by the curve ​ ​ and below by the curve ​ ​ from to about the -axis. to Find the volume of the solid of revolution obtained by revolving the region bounded above by the curve ​ ​ and below by the curve ​ ​ from to about the -axis. about the Find the volume of the solid of revolution obtained by revolving the region bounded above by the curve ​ ​ and below by the curve ​ ​ from to about the -axis. -axis.
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13
Find the volume of the solid of revolution obtained by revolving the region under the curve
Find the volume of the solid of revolution obtained by revolving the region under the curve ​ ​ from to about the -axis.
from Find the volume of the solid of revolution obtained by revolving the region under the curve ​ ​ from to about the -axis. to Find the volume of the solid of revolution obtained by revolving the region under the curve ​ ​ from to about the -axis. about the Find the volume of the solid of revolution obtained by revolving the region under the curve ​ ​ from to about the -axis. -axis.
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14
Find the volume of the solid of revolution obtained by revolving the region bounded by the graphs of the given functions about the x-axis.
Find the volume of the solid of revolution obtained by revolving the region bounded by the graphs of the given functions about the x-axis. ​ and and Find the volume of the solid of revolution obtained by revolving the region bounded by the graphs of the given functions about the x-axis. ​ and
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15
Find the volume of the solid of revolution obtained by revolving the region under the curve
Find the volume of the solid of revolution obtained by revolving the region under the curve ​ ​ from to about the -axis.
from Find the volume of the solid of revolution obtained by revolving the region under the curve ​ ​ from to about the -axis. to Find the volume of the solid of revolution obtained by revolving the region under the curve ​ ​ from to about the -axis. about the Find the volume of the solid of revolution obtained by revolving the region under the curve ​ ​ from to about the -axis. -axis.
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16
Find the volume of the solid of revolution obtained by revolving the region bounded by the graphs of the given functions about the x-axis.
Find the volume of the solid of revolution obtained by revolving the region bounded by the graphs of the given functions about the x-axis. ​ and and Find the volume of the solid of revolution obtained by revolving the region bounded by the graphs of the given functions about the x-axis. ​ and
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17
Find the volume of the solid of revolution obtained by revolving the region bounded above by the curve
Find the volume of the solid of revolution obtained by revolving the region bounded above by the curve ​ ​ and below by the curve ​ ​ from to about the -axis.
and below by the curve
Find the volume of the solid of revolution obtained by revolving the region bounded above by the curve ​ ​ and below by the curve ​ ​ from to about the -axis.
from Find the volume of the solid of revolution obtained by revolving the region bounded above by the curve ​ ​ and below by the curve ​ ​ from to about the -axis. to Find the volume of the solid of revolution obtained by revolving the region bounded above by the curve ​ ​ and below by the curve ​ ​ from to about the -axis. about the Find the volume of the solid of revolution obtained by revolving the region bounded above by the curve ​ ​ and below by the curve ​ ​ from to about the -axis. -axis.
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18
Find the volume of the solid of revolution obtained by revolving the region under the curve
Find the volume of the solid of revolution obtained by revolving the region under the curve ​ ​ from to about the -axis.
from Find the volume of the solid of revolution obtained by revolving the region under the curve ​ ​ from to about the -axis. to Find the volume of the solid of revolution obtained by revolving the region under the curve ​ ​ from to about the -axis. about the Find the volume of the solid of revolution obtained by revolving the region under the curve ​ ​ from to about the -axis. -axis.
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19
Find the volume of the solid of revolution obtained by revolving the region bounded by the graphs of the given functions about the x-axis.
Find the volume of the solid of revolution obtained by revolving the region bounded by the graphs of the given functions about the x-axis. ​ and and Find the volume of the solid of revolution obtained by revolving the region bounded by the graphs of the given functions about the x-axis. ​ and
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20
Find the volume of the solid of revolution obtained by revolving the region under the curve
Find the volume of the solid of revolution obtained by revolving the region under the curve ​ ​ from to about the -axis.
from Find the volume of the solid of revolution obtained by revolving the region under the curve ​ ​ from to about the -axis. to Find the volume of the solid of revolution obtained by revolving the region under the curve ​ ​ from to about the -axis. about the Find the volume of the solid of revolution obtained by revolving the region under the curve ​ ​ from to about the -axis. -axis.
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21
Find the area of the region under the given curve <strong>Find the area of the region under the given curve over the indicated interval. ​ ​</strong> A) B) ​ C) ​ D) ​ over the indicated interval. ​ <strong>Find the area of the region under the given curve over the indicated interval. ​ ​</strong> A) B) ​ C) ​ D) ​

A) <strong>Find the area of the region under the given curve over the indicated interval. ​ ​</strong> A) B) ​ C) ​ D) ​
B) ​ <strong>Find the area of the region under the given curve over the indicated interval. ​ ​</strong> A) B) ​ C) ​ D) ​
C) ​ <strong>Find the area of the region under the given curve over the indicated interval. ​ ​</strong> A) B) ​ C) ​ D) ​
D) ​ <strong>Find the area of the region under the given curve over the indicated interval. ​ ​</strong> A) B) ​ C) ​ D) ​
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22
Evaluate the following improper integral whenever it is convergent. ​ <strong>Evaluate the following improper integral whenever it is convergent. ​ ​</strong> A) B) C) D) E) the integral is divergent

A) <strong>Evaluate the following improper integral whenever it is convergent. ​ ​</strong> A) B) C) D) E) the integral is divergent
B) <strong>Evaluate the following improper integral whenever it is convergent. ​ ​</strong> A) B) C) D) E) the integral is divergent
C) <strong>Evaluate the following improper integral whenever it is convergent. ​ ​</strong> A) B) C) D) E) the integral is divergent
D) <strong>Evaluate the following improper integral whenever it is convergent. ​ ​</strong> A) B) C) D) E) the integral is divergent
E) the integral is divergent
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23
Evaluate the improper integral if it is convergent. ​ <strong>Evaluate the improper integral if it is convergent. ​ ​</strong> A) 4 B) -3 C) 2 D) 3 E) divergent

A) 4
B) -3
C) 2
D) 3
E) divergent
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24
Find the area of the region under the given curve <strong>Find the area of the region under the given curve over the indicated interval. ​ ​</strong> A) B) C) D) ​ E) ​ over the indicated interval. ​ <strong>Find the area of the region under the given curve over the indicated interval. ​ ​</strong> A) B) C) D) ​ E) ​

A) <strong>Find the area of the region under the given curve over the indicated interval. ​ ​</strong> A) B) C) D) ​ E) ​
B) <strong>Find the area of the region under the given curve over the indicated interval. ​ ​</strong> A) B) C) D) ​ E) ​
C) <strong>Find the area of the region under the given curve over the indicated interval. ​ ​</strong> A) B) C) D) ​ E) ​
D) ​ <strong>Find the area of the region under the given curve over the indicated interval. ​ ​</strong> A) B) C) D) ​ E) ​
E) ​ <strong>Find the area of the region under the given curve over the indicated interval. ​ ​</strong> A) B) C) D) ​ E) ​
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25
Evaluate the following improper integral whenever it is convergent. ​ <strong>Evaluate the following improper integral whenever it is convergent. ​ ​</strong> A) B) ​ C) ​ D) ​ E) the integral is divergent

A) <strong>Evaluate the following improper integral whenever it is convergent. ​ ​</strong> A) B) ​ C) ​ D) ​ E) the integral is divergent
B) ​ <strong>Evaluate the following improper integral whenever it is convergent. ​ ​</strong> A) B) ​ C) ​ D) ​ E) the integral is divergent
C) ​ <strong>Evaluate the following improper integral whenever it is convergent. ​ ​</strong> A) B) ​ C) ​ D) ​ E) the integral is divergent
D) ​ <strong>Evaluate the following improper integral whenever it is convergent. ​ ​</strong> A) B) ​ C) ​ D) ​ E) the integral is divergent
E) the integral is divergent
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26
Evaluate the following improper integral whenever it is convergent. ​ <strong>Evaluate the following improper integral whenever it is convergent. ​ ​</strong> A) 2 B) -8 C) 4 D) 8 E) the integral is divergent

A) 2
B) -8
C) 4
D) 8
E) the integral is divergent
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27
Evaluate the following improper integral whenever it is convergent. ​ <strong>Evaluate the following improper integral whenever it is convergent. ​ ​</strong> A) -6 B) 11 C) 3 D) 7 E) the integral is divergent

A) -6
B) 11
C) 3
D) 7
E) the integral is divergent
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28
Find the area of the region under the given curve <strong>Find the area of the region under the given curve over the indicated interval. ​ ​</strong> A) 2 sq units B) 5 sq units C) 6 sq units D) 7 sq units over the indicated interval. ​ <strong>Find the area of the region under the given curve over the indicated interval. ​ ​</strong> A) 2 sq units B) 5 sq units C) 6 sq units D) 7 sq units

A) 2 sq units
B) 5 sq units
C) 6 sq units
D) 7 sq units
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29
Evaluate the following improper integral whenever it is convergent. ​ <strong>Evaluate the following improper integral whenever it is convergent. ​ ​</strong> A) 6 B) 4 C) 2 D) 10 E) the integral is divergent

A) 6
B) 4
C) 2
D) 10
E) the integral is divergent
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30
If If exists, then exists and . exists, then If exists, then exists and . exists and If exists, then exists and . .
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31
Evaluate the following improper integral whenever it is convergent. ​ <strong>Evaluate the following improper integral whenever it is convergent. ​ ​</strong> A) B) C) D) ​ E) the integral is divergent

A) <strong>Evaluate the following improper integral whenever it is convergent. ​ ​</strong> A) B) C) D) ​ E) the integral is divergent
B) <strong>Evaluate the following improper integral whenever it is convergent. ​ ​</strong> A) B) C) D) ​ E) the integral is divergent
C) <strong>Evaluate the following improper integral whenever it is convergent. ​ ​</strong> A) B) C) D) ​ E) the integral is divergent
D) ​ <strong>Evaluate the following improper integral whenever it is convergent. ​ ​</strong> A) B) C) D) ​ E) the integral is divergent
E) the integral is divergent
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32
Evaluate the improper integral whenever it is convergent. ​ <strong>Evaluate the improper integral whenever it is convergent. ​ ​</strong> A) B) ​ C) ​ D) ​ E) divergent

A) <strong>Evaluate the improper integral whenever it is convergent. ​ ​</strong> A) B) ​ C) ​ D) ​ E) divergent
B) ​ <strong>Evaluate the improper integral whenever it is convergent. ​ ​</strong> A) B) ​ C) ​ D) ​ E) divergent
C) ​ <strong>Evaluate the improper integral whenever it is convergent. ​ ​</strong> A) B) ​ C) ​ D) ​ E) divergent
D) ​ <strong>Evaluate the improper integral whenever it is convergent. ​ ​</strong> A) B) ​ C) ​ D) ​ E) divergent
E) divergent
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33
Find the area of the region under the given curve <strong>Find the area of the region under the given curve over the indicated interval. ​ ​</strong> A) B) C) ​ D) ​ E) ​ over the indicated interval. ​ <strong>Find the area of the region under the given curve over the indicated interval. ​ ​</strong> A) B) C) ​ D) ​ E) ​

A) <strong>Find the area of the region under the given curve over the indicated interval. ​ ​</strong> A) B) C) ​ D) ​ E) ​
B) <strong>Find the area of the region under the given curve over the indicated interval. ​ ​</strong> A) B) C) ​ D) ​ E) ​
C) ​ <strong>Find the area of the region under the given curve over the indicated interval. ​ ​</strong> A) B) C) ​ D) ​ E) ​
D) ​ <strong>Find the area of the region under the given curve over the indicated interval. ​ ​</strong> A) B) C) ​ D) ​ E) ​
E) ​ <strong>Find the area of the region under the given curve over the indicated interval. ​ ​</strong> A) B) C) ​ D) ​ E) ​
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34
Find the area of the region bounded by the x-axis and the graph of the function ​ <strong>Find the area of the region bounded by the x-axis and the graph of the function ​ ​</strong> A) B) C) ​ D) ​

A) <strong>Find the area of the region bounded by the x-axis and the graph of the function ​ ​</strong> A) B) C) ​ D) ​
B) <strong>Find the area of the region bounded by the x-axis and the graph of the function ​ ​</strong> A) B) C) ​ D) ​
C) ​ <strong>Find the area of the region bounded by the x-axis and the graph of the function ​ ​</strong> A) B) C) ​ D) ​
D) ​ <strong>Find the area of the region bounded by the x-axis and the graph of the function ​ ​</strong> A) B) C) ​ D) ​
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35
Evaluate the following improper integral whenever it is convergent. ​ <strong>Evaluate the following improper integral whenever it is convergent. ​ ​</strong> A) B) ​ C) ​ D) ​ E) the integral is divergent

A) <strong>Evaluate the following improper integral whenever it is convergent. ​ ​</strong> A) B) ​ C) ​ D) ​ E) the integral is divergent
B) ​ <strong>Evaluate the following improper integral whenever it is convergent. ​ ​</strong> A) B) ​ C) ​ D) ​ E) the integral is divergent
C) ​ <strong>Evaluate the following improper integral whenever it is convergent. ​ ​</strong> A) B) ​ C) ​ D) ​ E) the integral is divergent
D) ​ <strong>Evaluate the following improper integral whenever it is convergent. ​ ​</strong> A) B) ​ C) ​ D) ​ E) the integral is divergent
E) the integral is divergent
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36
Evaluate the following improper integral whenever it is convergent. ​ <strong>Evaluate the following improper integral whenever it is convergent. ​ ​</strong> A) 8 B) 0 C) -6 D) -10 E) the integral is divergent

A) 8
B) 0
C) -6
D) -10
E) the integral is divergent
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37
Evaluate the following improper integral whenever it is convergent. ​ <strong>Evaluate the following improper integral whenever it is convergent. ​ ​</strong> A) 4 B) 10 C) 2 D) 5 E) the integral is divergent

A) 4
B) 10
C) 2
D) 5
E) the integral is divergent
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38
Find the area of the region bounded by the x-axis and the graph of the function. ​ <strong>Find the area of the region bounded by the x-axis and the graph of the function. ​ ​</strong> A) 1 sq units B) 5 sq units C) 4 sq units D) 3 sq units E) 2 sq units

A) 1 sq units
B) 5 sq units
C) 4 sq units
D) 3 sq units
E) 2 sq units
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39
Find the area of the region under the curve <strong>Find the area of the region under the curve over the indicated interval. ​ ​</strong> A) 2 sq units B) 3 sq units C) 4 sq units D) 8 sq units E) 1 sq units over the indicated interval. ​ <strong>Find the area of the region under the curve over the indicated interval. ​ ​</strong> A) 2 sq units B) 3 sq units C) 4 sq units D) 8 sq units E) 1 sq units

A) 2 sq units
B) 3 sq units
C) 4 sq units
D) 8 sq units
E) 1 sq units
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40
Evaluate the following improper integral whenever it is convergent. ​ <strong>Evaluate the following improper integral whenever it is convergent. ​ ​</strong> A) B) C) 1 D) 0 E) the integral is divergent

A) <strong>Evaluate the following improper integral whenever it is convergent. ​ ​</strong> A) B) C) 1 D) 0 E) the integral is divergent
B) <strong>Evaluate the following improper integral whenever it is convergent. ​ ​</strong> A) B) C) 1 D) 0 E) the integral is divergent
C) 1
D) 0
E) the integral is divergent
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41
Becky Wilkinson wants to establish a trust fund that will provide her children and heirs with a perpetual annuity in the amount of ​ <strong>Becky Wilkinson wants to establish a trust fund that will provide her children and heirs with a perpetual annuity in the amount of ​ ​ Thousand dollars per year beginning next year. If the trust fund will earn an interest rate of 10% per year compounded continuously, find the amount that she must place in the trust fund now. Hint: Use the formula </strong> A) $350,000 B) $290,000 C) $380,000 D) $370,000 E) $400,000
Thousand dollars per year beginning next year. If the trust fund will earn an interest rate of 10% per year compounded continuously, find the amount that she must place in the trust fund now.
Hint: Use the formula <strong>Becky Wilkinson wants to establish a trust fund that will provide her children and heirs with a perpetual annuity in the amount of ​ ​ Thousand dollars per year beginning next year. If the trust fund will earn an interest rate of 10% per year compounded continuously, find the amount that she must place in the trust fund now. Hint: Use the formula </strong> A) $350,000 B) $290,000 C) $380,000 D) $370,000 E) $400,000

A) $350,000
B) $290,000
C) $380,000
D) $370,000
E) $400,000
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42
Evaluate the improper integral if it is convergent.
Evaluate the improper integral if it is convergent. ​
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43
Find the area of the region bounded by the x-axis and the graph of the function.
Find the area of the region bounded by the x-axis and the graph of the function. ​ ​ __________ sq units
__________ sq units
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44
Find the area of the region under the given curve Find the area of the region under the given curve over the indicated interval. ​ over the indicated interval.
Find the area of the region under the given curve over the indicated interval. ​
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45
Find the area of the region under the curve Find the area of the region under the curve over the indicated interval. ​ ​ __________ sq units over the indicated interval.
Find the area of the region under the curve over the indicated interval. ​ ​ __________ sq units
__________ sq units
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46
Evaluate the following improper integral whenever it is convergent.
Evaluate the following improper integral whenever it is convergent. ​
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47
Becky Wilkinson wants to establish a trust fund that will provide her children and heirs with a perpetual annuity in the amount of
Becky Wilkinson wants to establish a trust fund that will provide her children and heirs with a perpetual annuity in the amount of ​ ​ thousand dollars per year beginning next year. If the trust fund will earn an interest rate of 10% per year compounded continuously, find the amount that she must place in the trust fund now. ​
thousand dollars per year beginning next year. If the trust fund will earn an interest rate of 10% per year compounded continuously, find the amount that she must place in the trust fund now.
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48
Find the area of the region under the given curve Find the area of the region under the given curve over the indicated interval. ​ over the indicated interval.
Find the area of the region under the given curve over the indicated interval. ​
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49
Find the area of the region under the given curve Find the area of the region under the given curve over the indicated interval. ​ over the indicated interval.
Find the area of the region under the given curve over the indicated interval. ​
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50
Find the area of the region under the given curve Find the area of the region under the given curve over the indicated interval. ​ over the indicated interval.
Find the area of the region under the given curve over the indicated interval. ​
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51
Find the area of the region bounded by the x-axis and the graph of the function
Find the area of the region bounded by the x-axis and the graph of the function ​
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52
Evaluate the following improper integral whenever it is convergent.
Evaluate the following improper integral whenever it is convergent. ​
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53
A university alumni group wishes to provide an annual scholarship in the amount of $1,100 beginning next year. If the scholarship fund will earn an interest rate of 5% / year compounded continuously, find the amount of the endowment the alumni are required to make now. ​

A) $22,559
B) $21,118
C) $22,000
D) $21,556
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54
Evaluate the improper integral whenever it is convergent. If not, enter divergent.
Evaluate the improper integral whenever it is convergent. If not, enter divergent. ​
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55
Evaluate the following improper integral whenever it is convergent.
Evaluate the following improper integral whenever it is convergent. ​
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56
A university alumni group wishes to provide an annual scholarship in the amount of $1,900 beginning next year. If the scholarship fund will earn an interest rate of 4% / year compounded continuously, find the amount of the endowment the alumni are required to make now.

$__________
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57
Evaluate the following improper integral whenever it is convergent.
Evaluate the following improper integral whenever it is convergent. ​ ​ Enter divergent if the integral is divergent.
Enter divergent if the integral is divergent.
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58
The present value of a perpetual stream of income that flows continually at the rate of P(t) dollars per year is given by the formula ​ <strong>The present value of a perpetual stream of income that flows continually at the rate of P(t) dollars per year is given by the formula ​ ​ Where r is the interest rate compounded continuously. Using this formula, find the present value of a perpetual net income stream that is generated at the rate of dollars per year. Hint: </strong> A) B) C) D) E) ​
Where r is the interest rate compounded continuously. Using this formula, find the present value of a perpetual net income stream that is generated at the rate of <strong>The present value of a perpetual stream of income that flows continually at the rate of P(t) dollars per year is given by the formula ​ ​ Where r is the interest rate compounded continuously. Using this formula, find the present value of a perpetual net income stream that is generated at the rate of dollars per year. Hint: </strong> A) B) C) D) E) ​ dollars per year.
Hint: <strong>The present value of a perpetual stream of income that flows continually at the rate of P(t) dollars per year is given by the formula ​ ​ Where r is the interest rate compounded continuously. Using this formula, find the present value of a perpetual net income stream that is generated at the rate of dollars per year. Hint: </strong> A) B) C) D) E) ​

A) <strong>The present value of a perpetual stream of income that flows continually at the rate of P(t) dollars per year is given by the formula ​ ​ Where r is the interest rate compounded continuously. Using this formula, find the present value of a perpetual net income stream that is generated at the rate of dollars per year. Hint: </strong> A) B) C) D) E) ​
B) <strong>The present value of a perpetual stream of income that flows continually at the rate of P(t) dollars per year is given by the formula ​ ​ Where r is the interest rate compounded continuously. Using this formula, find the present value of a perpetual net income stream that is generated at the rate of dollars per year. Hint: </strong> A) B) C) D) E) ​
C) <strong>The present value of a perpetual stream of income that flows continually at the rate of P(t) dollars per year is given by the formula ​ ​ Where r is the interest rate compounded continuously. Using this formula, find the present value of a perpetual net income stream that is generated at the rate of dollars per year. Hint: </strong> A) B) C) D) E) ​
D) <strong>The present value of a perpetual stream of income that flows continually at the rate of P(t) dollars per year is given by the formula ​ ​ Where r is the interest rate compounded continuously. Using this formula, find the present value of a perpetual net income stream that is generated at the rate of dollars per year. Hint: </strong> A) B) C) D) E) ​
E) <strong>The present value of a perpetual stream of income that flows continually at the rate of P(t) dollars per year is given by the formula ​ ​ Where r is the interest rate compounded continuously. Using this formula, find the present value of a perpetual net income stream that is generated at the rate of dollars per year. Hint: </strong> A) B) C) D) E) ​
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59
Evaluate the following improper integral whenever it is convergent.
Evaluate the following improper integral whenever it is convergent. ​
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60
Evaluate the following improper integral whenever it is convergent.
Evaluate the following improper integral whenever it is convergent. ​
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61
The present value of a perpetual stream of income that flows continually at the rate of P(t) dollars per year is given by the formula
The present value of a perpetual stream of income that flows continually at the rate of P(t) dollars per year is given by the formula ​ ​ where r is the interest rate compounded continuously. Using this formula, find the present value of a perpetual net income stream that is generated at the rate of ​ ​ dollars per year. ​
where r is the interest rate compounded continuously. Using this formula, find the present value of a perpetual net income stream that is generated at the rate of
The present value of a perpetual stream of income that flows continually at the rate of P(t) dollars per year is given by the formula ​ ​ where r is the interest rate compounded continuously. Using this formula, find the present value of a perpetual net income stream that is generated at the rate of ​ ​ dollars per year. ​
dollars per year.
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62

If If exists, then exists and . exists, then If exists, then exists and . exists and If exists, then exists and . .
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63
Evaluate the following improper integral whenever it is convergent.
Evaluate the following improper integral whenever it is convergent. ​ ​ Enter divergent if the integral is divergent.
Enter divergent if the integral is divergent.
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64
Use the trapezoidal rule and Simpson's rule to approximate the value of the definite integral. ​ <strong>Use the trapezoidal rule and Simpson's rule to approximate the value of the definite integral. ​ ​</strong> A) B) ​ C) ​ D) ​

A) <strong>Use the trapezoidal rule and Simpson's rule to approximate the value of the definite integral. ​ ​</strong> A) B) ​ C) ​ D) ​
B) ​ <strong>Use the trapezoidal rule and Simpson's rule to approximate the value of the definite integral. ​ ​</strong> A) B) ​ C) ​ D) ​
C) ​ <strong>Use the trapezoidal rule and Simpson's rule to approximate the value of the definite integral. ​ ​</strong> A) B) ​ C) ​ D) ​
D) ​ <strong>Use the trapezoidal rule and Simpson's rule to approximate the value of the definite integral. ​ ​</strong> A) B) ​ C) ​ D) ​
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65
Evaluate the following improper integral whenever it is convergent.
Evaluate the following improper integral whenever it is convergent. ​ Enter divergent if the integral is divergent. Enter divergent if the integral is divergent.
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66
Find a bound on the error in approximating the given definite integral using (a) the trapezoidal rule and (b) Simpson's rule with n intervals. ​ <strong>Find a bound on the error in approximating the given definite integral using (a) the trapezoidal rule and (b) Simpson's rule with n intervals. ​ ​</strong> A) B) ​ C) ​ D) ​

A) <strong>Find a bound on the error in approximating the given definite integral using (a) the trapezoidal rule and (b) Simpson's rule with n intervals. ​ ​</strong> A) B) ​ C) ​ D) ​
B) ​ <strong>Find a bound on the error in approximating the given definite integral using (a) the trapezoidal rule and (b) Simpson's rule with n intervals. ​ ​</strong> A) B) ​ C) ​ D) ​
C) ​ <strong>Find a bound on the error in approximating the given definite integral using (a) the trapezoidal rule and (b) Simpson's rule with n intervals. ​ ​</strong> A) B) ​ C) ​ D) ​
D) ​ <strong>Find a bound on the error in approximating the given definite integral using (a) the trapezoidal rule and (b) Simpson's rule with n intervals. ​ ​</strong> A) B) ​ C) ​ D) ​
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67
Find a bound on the error in approximating the definite integral using the trapezoidal rule with 8 intervals. ​ <strong>Find a bound on the error in approximating the definite integral using the trapezoidal rule with 8 intervals. ​ ​</strong> A) 0.1773108 B) 0.1110032 C) 0.0629052 D) 0.0625000 E) 0.0403685

A) 0.1773108
B) 0.1110032
C) 0.0629052
D) 0.0625000
E) 0.0403685
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68
Evaluate the following improper integral whenever it is convergent.
Evaluate the following improper integral whenever it is convergent. ​ ​ Enter divergent if the integral is divergent.
Enter divergent if the integral is divergent.
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69
Use the trapezoidal rule and Simpson's rule to approximate the value of the definite integral. Find the exact value of the integral. ​ <strong>Use the trapezoidal rule and Simpson's rule to approximate the value of the definite integral. Find the exact value of the integral. ​ ​</strong> A) B) ​ C) ​ D) ​

A) <strong>Use the trapezoidal rule and Simpson's rule to approximate the value of the definite integral. Find the exact value of the integral. ​ ​</strong> A) B) ​ C) ​ D) ​
B) ​ <strong>Use the trapezoidal rule and Simpson's rule to approximate the value of the definite integral. Find the exact value of the integral. ​ ​</strong> A) B) ​ C) ​ D) ​
C) ​ <strong>Use the trapezoidal rule and Simpson's rule to approximate the value of the definite integral. Find the exact value of the integral. ​ ​</strong> A) B) ​ C) ​ D) ​
D) ​ <strong>Use the trapezoidal rule and Simpson's rule to approximate the value of the definite integral. Find the exact value of the integral. ​ ​</strong> A) B) ​ C) ​ D) ​
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70
In a submerged trial run of an attack submarine, a reading of the submarine's velocity was made every quarter hour, as shown in the accompanying table. Use the trapezoidal rule to estimate the distance traveled by the submarine during the 2-hour period. Please round the answer to the nearest hundredth if necessary. Time, t (hr)
0 <strong>In a submerged trial run of an attack submarine, a reading of the submarine's velocity was made every quarter hour, as shown in the accompanying table. Use the trapezoidal rule to estimate the distance traveled by the submarine during the 2-hour period. Please round the answer to the nearest hundredth if necessary. Time, t (hr) 0 Velocity, V(t) (mph) 19)4 23 33)8 39)4 37)2 35)1 27)8 26)2 3)8 ​</strong> A) 52.89 mi B) 54.15 mi C) 58.52 mi D) 45.47 mi E) 47.87 mi <strong>In a submerged trial run of an attack submarine, a reading of the submarine's velocity was made every quarter hour, as shown in the accompanying table. Use the trapezoidal rule to estimate the distance traveled by the submarine during the 2-hour period. Please round the answer to the nearest hundredth if necessary. Time, t (hr) 0 Velocity, V(t) (mph) 19)4 23 33)8 39)4 37)2 35)1 27)8 26)2 3)8 ​</strong> A) 52.89 mi B) 54.15 mi C) 58.52 mi D) 45.47 mi E) 47.87 mi <strong>In a submerged trial run of an attack submarine, a reading of the submarine's velocity was made every quarter hour, as shown in the accompanying table. Use the trapezoidal rule to estimate the distance traveled by the submarine during the 2-hour period. Please round the answer to the nearest hundredth if necessary. Time, t (hr) 0 Velocity, V(t) (mph) 19)4 23 33)8 39)4 37)2 35)1 27)8 26)2 3)8 ​</strong> A) 52.89 mi B) 54.15 mi C) 58.52 mi D) 45.47 mi E) 47.87 mi <strong>In a submerged trial run of an attack submarine, a reading of the submarine's velocity was made every quarter hour, as shown in the accompanying table. Use the trapezoidal rule to estimate the distance traveled by the submarine during the 2-hour period. Please round the answer to the nearest hundredth if necessary. Time, t (hr) 0 Velocity, V(t) (mph) 19)4 23 33)8 39)4 37)2 35)1 27)8 26)2 3)8 ​</strong> A) 52.89 mi B) 54.15 mi C) 58.52 mi D) 45.47 mi E) 47.87 mi <strong>In a submerged trial run of an attack submarine, a reading of the submarine's velocity was made every quarter hour, as shown in the accompanying table. Use the trapezoidal rule to estimate the distance traveled by the submarine during the 2-hour period. Please round the answer to the nearest hundredth if necessary. Time, t (hr) 0 Velocity, V(t) (mph) 19)4 23 33)8 39)4 37)2 35)1 27)8 26)2 3)8 ​</strong> A) 52.89 mi B) 54.15 mi C) 58.52 mi D) 45.47 mi E) 47.87 mi <strong>In a submerged trial run of an attack submarine, a reading of the submarine's velocity was made every quarter hour, as shown in the accompanying table. Use the trapezoidal rule to estimate the distance traveled by the submarine during the 2-hour period. Please round the answer to the nearest hundredth if necessary. Time, t (hr) 0 Velocity, V(t) (mph) 19)4 23 33)8 39)4 37)2 35)1 27)8 26)2 3)8 ​</strong> A) 52.89 mi B) 54.15 mi C) 58.52 mi D) 45.47 mi E) 47.87 mi <strong>In a submerged trial run of an attack submarine, a reading of the submarine's velocity was made every quarter hour, as shown in the accompanying table. Use the trapezoidal rule to estimate the distance traveled by the submarine during the 2-hour period. Please round the answer to the nearest hundredth if necessary. Time, t (hr) 0 Velocity, V(t) (mph) 19)4 23 33)8 39)4 37)2 35)1 27)8 26)2 3)8 ​</strong> A) 52.89 mi B) 54.15 mi C) 58.52 mi D) 45.47 mi E) 47.87 mi <strong>In a submerged trial run of an attack submarine, a reading of the submarine's velocity was made every quarter hour, as shown in the accompanying table. Use the trapezoidal rule to estimate the distance traveled by the submarine during the 2-hour period. Please round the answer to the nearest hundredth if necessary. Time, t (hr) 0 Velocity, V(t) (mph) 19)4 23 33)8 39)4 37)2 35)1 27)8 26)2 3)8 ​</strong> A) 52.89 mi B) 54.15 mi C) 58.52 mi D) 45.47 mi E) 47.87 mi Velocity, V(t) (mph)
19)4
23
33)8
39)4
37)2
35)1
27)8
26)2
3)8

A) 52.89 mi
B) 54.15 mi
C) 58.52 mi
D) 45.47 mi
E) 47.87 mi
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71
Evaluate the following improper integral whenever it is convergent.
Evaluate the following improper integral whenever it is convergent. ​ ​ Enter divergent if the integral is divergent.
Enter divergent if the integral is divergent.
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72
Use the trapezoidal rule and Simpson's rule to approximate the value of the definite integral. ​ <strong>Use the trapezoidal rule and Simpson's rule to approximate the value of the definite integral. ​ ​</strong> A) By trapezoidal rule 1.1325, by Simpson's rule 0.6554 B) By trapezoidal rule 1.9565, by Simpson's rule 0.6555 C) By trapezoidal rule 0.6572, by Simpson's rule 0.6551 D) By trapezoidal rule 1.6290, by Simpson's rule 1.6108 E) By trapezoidal rule 1.5807, by Simpson's rule 0.6533

A) By trapezoidal rule 1.1325, by Simpson's rule 0.6554
B) By trapezoidal rule 1.9565, by Simpson's rule 0.6555
C) By trapezoidal rule 0.6572, by Simpson's rule 0.6551
D) By trapezoidal rule 1.6290, by Simpson's rule 1.6108
E) By trapezoidal rule 1.5807, by Simpson's rule 0.6533
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73
Use the trapezoidal rule and Simpson's rule to approximate the value of the definite integral. Please give the answer to four decimal places. ​ <strong>Use the trapezoidal rule and Simpson's rule to approximate the value of the definite integral. Please give the answer to four decimal places. ​ ​</strong> A) By trapezoidal rule 1.0271, by Simpson's rule 1.1893 B) By trapezoidal rule 0.9083, by Simpson's rule 0.7109 C) By trapezoidal rule 1.1902, by Simpson's rule 1.1677 D) By trapezoidal rule 0.8126, by Simpson's rule 0.5496 E) By trapezoidal rule 1.4060, by Simpson's rule 0.7978

A) By trapezoidal rule 1.0271, by Simpson's rule 1.1893
B) By trapezoidal rule 0.9083, by Simpson's rule 0.7109
C) By trapezoidal rule 1.1902, by Simpson's rule 1.1677
D) By trapezoidal rule 0.8126, by Simpson's rule 0.5496
E) By trapezoidal rule 1.4060, by Simpson's rule 0.7978
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74
Use the trapezoidal rule and Simpson's rule to approximate the value of the definite integral. ​ <strong>Use the trapezoidal rule and Simpson's rule to approximate the value of the definite integral. ​ ​</strong> A) By trapezoidal rule 1.2140, by Simpson's rule 1.1609 B) By trapezoidal rule 1.1705, by Simpson's rule 1.1520 C) By trapezoidal rule 1.1000, by Simpson's rule 1.1660 D) By trapezoidal rule 1.3620, by Simpson's rule 1.1306 E) By trapezoidal rule 0.9613, by Simpson's rule 0.9503

A) By trapezoidal rule 1.2140, by Simpson's rule 1.1609
B) By trapezoidal rule 1.1705, by Simpson's rule 1.1520
C) By trapezoidal rule 1.1000, by Simpson's rule 1.1660
D) By trapezoidal rule 1.3620, by Simpson's rule 1.1306
E) By trapezoidal rule 0.9613, by Simpson's rule 0.9503
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75
Use the trapezoidal rule and Simpson's rule to approximate the value of the definite integral. Find the exact value of the integral. ​ <strong>Use the trapezoidal rule and Simpson's rule to approximate the value of the definite integral. Find the exact value of the integral. ​ ​</strong> A) B) ​ C) ​ D) ​

A) <strong>Use the trapezoidal rule and Simpson's rule to approximate the value of the definite integral. Find the exact value of the integral. ​ ​</strong> A) B) ​ C) ​ D) ​
B) ​ <strong>Use the trapezoidal rule and Simpson's rule to approximate the value of the definite integral. Find the exact value of the integral. ​ ​</strong> A) B) ​ C) ​ D) ​
C) ​ <strong>Use the trapezoidal rule and Simpson's rule to approximate the value of the definite integral. Find the exact value of the integral. ​ ​</strong> A) B) ​ C) ​ D) ​
D) ​ <strong>Use the trapezoidal rule and Simpson's rule to approximate the value of the definite integral. Find the exact value of the integral. ​ ​</strong> A) B) ​ C) ​ D) ​
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76
Use the trapezoidal rule and Simpson's rule to approximate the value of the definite integral. Find the exact value of the integral. ​ <strong>Use the trapezoidal rule and Simpson's rule to approximate the value of the definite integral. Find the exact value of the integral. ​ ​</strong> A) B) ​ C) ​ D) ​

A) <strong>Use the trapezoidal rule and Simpson's rule to approximate the value of the definite integral. Find the exact value of the integral. ​ ​</strong> A) B) ​ C) ​ D) ​
B) ​ <strong>Use the trapezoidal rule and Simpson's rule to approximate the value of the definite integral. Find the exact value of the integral. ​ ​</strong> A) B) ​ C) ​ D) ​
C) ​ <strong>Use the trapezoidal rule and Simpson's rule to approximate the value of the definite integral. Find the exact value of the integral. ​ ​</strong> A) B) ​ C) ​ D) ​
D) ​ <strong>Use the trapezoidal rule and Simpson's rule to approximate the value of the definite integral. Find the exact value of the integral. ​ ​</strong> A) B) ​ C) ​ D) ​
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77
Evaluate the following improper integral whenever it is convergent.
Evaluate the following improper integral whenever it is convergent. ​ ​ Enter divergent if the integral is divergent.
Enter divergent if the integral is divergent.
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78
Use the trapezoidal rule and Simpson's rule to approximate the value of the definite integral. ​ <strong>Use the trapezoidal rule and Simpson's rule to approximate the value of the definite integral. ​ ​</strong> A) B) C) D)

A) <strong>Use the trapezoidal rule and Simpson's rule to approximate the value of the definite integral. ​ ​</strong> A) B) C) D)
B) <strong>Use the trapezoidal rule and Simpson's rule to approximate the value of the definite integral. ​ ​</strong> A) B) C) D)
C) <strong>Use the trapezoidal rule and Simpson's rule to approximate the value of the definite integral. ​ ​</strong> A) B) C) D)
D) <strong>Use the trapezoidal rule and Simpson's rule to approximate the value of the definite integral. ​ ​</strong> A) B) C) D)
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79
Use the trapezoidal rule and Simpson's rule to approximate the value of the definite integral. Find the exact value of the integral. ​ <strong>Use the trapezoidal rule and Simpson's rule to approximate the value of the definite integral. Find the exact value of the integral. ​ ​</strong> A) B) ​ C) ​ D) ​

A) <strong>Use the trapezoidal rule and Simpson's rule to approximate the value of the definite integral. Find the exact value of the integral. ​ ​</strong> A) B) ​ C) ​ D) ​
B) ​ <strong>Use the trapezoidal rule and Simpson's rule to approximate the value of the definite integral. Find the exact value of the integral. ​ ​</strong> A) B) ​ C) ​ D) ​
C) ​ <strong>Use the trapezoidal rule and Simpson's rule to approximate the value of the definite integral. Find the exact value of the integral. ​ ​</strong> A) B) ​ C) ​ D) ​
D) ​ <strong>Use the trapezoidal rule and Simpson's rule to approximate the value of the definite integral. Find the exact value of the integral. ​ ​</strong> A) B) ​ C) ​ D) ​
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80
Find a bound on the error in approximating the given definite integral using (a) the trapezoidal rule and (b) Simpson's rule with n intervals. ​ <strong>Find a bound on the error in approximating the given definite integral using (a) the trapezoidal rule and (b) Simpson's rule with n intervals. ​ ​</strong> A) B) ​ C) ​ D) ​

A) <strong>Find a bound on the error in approximating the given definite integral using (a) the trapezoidal rule and (b) Simpson's rule with n intervals. ​ ​</strong> A) B) ​ C) ​ D) ​
B) ​ <strong>Find a bound on the error in approximating the given definite integral using (a) the trapezoidal rule and (b) Simpson's rule with n intervals. ​ ​</strong> A) B) ​ C) ​ D) ​
C) ​ <strong>Find a bound on the error in approximating the given definite integral using (a) the trapezoidal rule and (b) Simpson's rule with n intervals. ​ ​</strong> A) B) ​ C) ​ D) ​
D) ​ <strong>Find a bound on the error in approximating the given definite integral using (a) the trapezoidal rule and (b) Simpson's rule with n intervals. ​ ​</strong> A) B) ​ C) ​ D) ​
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