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Deck 7: Principle of Integral Evaluation

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Answer true or false. Answer true or false. diverges.<div style=padding-top: 35px> diverges.
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Evaluate Evaluate .<div style=padding-top: 35px> .
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Evaluate Evaluate .<div style=padding-top: 35px> .
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Answer true or false. Answer true or false. is an improper integral.<div style=padding-top: 35px> is an improper integral.
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Evaluate Evaluate .<div style=padding-top: 35px> .
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Evaluate Evaluate .<div style=padding-top: 35px> .
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Evaluate Evaluate .<div style=padding-top: 35px> .
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Evaluate Evaluate .<div style=padding-top: 35px> .
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Answer true or false. Answer true or false. diverges.<div style=padding-top: 35px> diverges.
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Answer true or false. Answer true or false. = = -1<div style=padding-top: 35px> = Answer true or false. = = -1<div style=padding-top: 35px> = -1
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Answer true or false. Answer true or false. diverges.<div style=padding-top: 35px> diverges.
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Evaluate Evaluate .<div style=padding-top: 35px> .
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Evaluate Evaluate <div style=padding-top: 35px>
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Answer true or false. Answer true or false. is an improper integral.<div style=padding-top: 35px> is an improper integral.
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Answer true or false. Answer true or false. diverges.<div style=padding-top: 35px> diverges.
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Answer true or false. Answer true or false. diverges.<div style=padding-top: 35px> diverges.
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Evaluate Evaluate .<div style=padding-top: 35px> .
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Answer true or false. Answer true or false. diverges.<div style=padding-top: 35px> diverges.
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Evaluate Evaluate .<div style=padding-top: 35px> .
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Evaluate Evaluate .<div style=padding-top: 35px> .
Question
Use n = 10 to approximate the integral by the midpoint rule. <strong>Use n = 10 to approximate the integral by the midpoint rule. </strong> A) 0.956848 B) 0.952261 C) 0.478424 D) 0.959043 E) 0.377541 <div style=padding-top: 35px>

A) 0.956848
B) 0.952261
C) 0.478424
D) 0.959043
E) 0.377541
Question
Evaluate Evaluate .<div style=padding-top: 35px> .
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Evaluate Evaluate .<div style=padding-top: 35px> .
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Evaluate Evaluate .<div style=padding-top: 35px> .
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Evaluate Evaluate .<div style=padding-top: 35px> .
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Evaluate Evaluate .<div style=padding-top: 35px> .
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Evaluate Evaluate .<div style=padding-top: 35px> .
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Evaluate Evaluate .<div style=padding-top: 35px> .
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Evaluate Evaluate .<div style=padding-top: 35px> .
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Evaluate Evaluate .<div style=padding-top: 35px> .
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Evaluate Evaluate .<div style=padding-top: 35px> .
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Evaluate Evaluate .<div style=padding-top: 35px> .
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Evaluate Evaluate .<div style=padding-top: 35px> .
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Evaluate Evaluate .<div style=padding-top: 35px> .
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Evaluate Evaluate .<div style=padding-top: 35px> .
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Use the trapezoid rule with n = 10 to approximate the integral. <strong>Use the trapezoid rule with n = 10 to approximate the integral. </strong> A) 2.18713 B) 7.94608 C) 4.37427 D) 3.97304 E) 4.24365 <div style=padding-top: 35px>

A) 2.18713
B) 7.94608
C) 4.37427
D) 3.97304
E) 4.24365
Question
Evaluate Evaluate .<div style=padding-top: 35px> .
Question
Use n = 10 to approximate the integral by the midpoint rule. <strong>Use n = 10 to approximate the integral by the midpoint rule. </strong> A) 100.554 B) 121.654 C) 55.349 D) 110.698 E) 0.200 <div style=padding-top: 35px>

A) 100.554
B) 121.654
C) 55.349
D) 110.698
E) 0.200
Question
Use n = 10 to approximate the integral by the midpoint rule. <strong>Use n = 10 to approximate the integral by the midpoint rule. </strong> A) 0.121 B) 0.221 C) 0.082 D) 0.165 E) 0.200 <div style=padding-top: 35px>

A) 0.121
B) 0.221
C) 0.082
D) 0.165
E) 0.200
Question
Use n = 10 to approximate the integral by the midpoint rule. <strong>Use n = 10 to approximate the integral by the midpoint rule. </strong> A) 24.571070 B) 30.972522 C) 38.600681 D) 15.486261 E) 0 <div style=padding-top: 35px>

A) 24.571070
B) 30.972522
C) 38.600681
D) 15.486261
E) 0
Question
Use Simpson's Rule with n = 10 to approximate the integral. Use Simpson's Rule with n = 10 to approximate the integral. <div style=padding-top: 35px>
Question
Use Simpson's Rule with n = 10 to approximate the integral. Use Simpson's Rule with n = 10 to approximate the integral. <div style=padding-top: 35px>
Question
Use the trapezoid rule with n = 10 to approximate the integral. <strong>Use the trapezoid rule with n = 10 to approximate the integral. </strong> A) 12.670000 B) 3.492500 C) 6.335000 D) 6.322375 E) 6.122375 <div style=padding-top: 35px>

A) 12.670000
B) 3.492500
C) 6.335000
D) 6.322375
E) 6.122375
Question
Use Simpson's Rule with n = 10 to approximate the integral. Use Simpson's Rule with n = 10 to approximate the integral. <div style=padding-top: 35px>
Question
Use the trapezoid rule with n = 10 to approximate the integral. Use the trapezoid rule with n = 10 to approximate the integral. <div style=padding-top: 35px>
Question
Use n = 10 to approximate <strong>Use n = 10 to approximate by the trapezoid rule.</strong> A) 2,666.000000 B) 979.000000 C) 0.000000 D) 1,316.093750 E) 1,003.593750 <div style=padding-top: 35px> by the trapezoid rule.

A) 2,666.000000
B) 979.000000
C) 0.000000
D) 1,316.093750
E) 1,003.593750
Question
Use Simpson's Rule with n = 10 to approximate the integral. <strong>Use Simpson's Rule with n = 10 to approximate the integral. </strong> A) 50.008405 B) 100.016811 C) 22.254692 D) 12.382574 E) 33.338937 <div style=padding-top: 35px>

A) 50.008405
B) 100.016811
C) 22.254692
D) 12.382574
E) 33.338937
Question
Use n = 10 to approximate <strong>Use n = 10 to approximate by the midpoint rule.</strong> A) -0.199999 B) 0.199999 C) 0.003 D) 0.01088 E) 6.4 <div style=padding-top: 35px> by the midpoint rule.

A) -0.199999
B) 0.199999
C) 0.003
D) 0.01088
E) 6.4
Question
Use the trapezoid rule with n = 10 to approximate the integral. <strong>Use the trapezoid rule with n = 10 to approximate the integral. </strong> A) 0.135540 B) 0.113379 C) 1.904947 D) 0.067770 E) 0.521595 <div style=padding-top: 35px>

A) 0.135540
B) 0.113379
C) 1.904947
D) 0.067770
E) 0.521595
Question
Use Simpson's Rule with n = 10 to approximate the integral. <strong>Use Simpson's Rule with n = 10 to approximate the integral. </strong> A) 5.625000 B) 11.250000 C) 3.750000 D) 2.505000 E) 3.516667 <div style=padding-top: 35px>

A) 5.625000
B) 11.250000
C) 3.750000
D) 2.505000
E) 3.516667
Question
Use n = 10 to approximate the integral by the midpoint rule. Use n = 10 to approximate the integral by the midpoint rule. <div style=padding-top: 35px>
Question
Use n = 10 to approximate Use n = 10 to approximate by the midpoint rule.<div style=padding-top: 35px> by the midpoint rule.
Question
Use n = 10 to approximate the integral by the midpoint rule. Use n = 10 to approximate the integral by the midpoint rule. <div style=padding-top: 35px>
Question
Use n = 10 to approximate the integral by the midpoint rule. Use n = 10 to approximate the integral by the midpoint rule. <div style=padding-top: 35px>
Question
Use the trapezoid rule with n = 10 to approximate the integral. Use the trapezoid rule with n = 10 to approximate the integral. <div style=padding-top: 35px>
Question
Use the trapezoid rule with n = 10 to approximate the integral. <strong>Use the trapezoid rule with n = 10 to approximate the integral. </strong> A) 0.473409 B) 0.397599 C) 0.795199 D) 0.236705 E) 0.125977 <div style=padding-top: 35px>

A) 0.473409
B) 0.397599
C) 0.795199
D) 0.236705
E) 0.125977
Question
Use the trapezoid rule with n = 10 to approximate the integral. Use the trapezoid rule with n = 10 to approximate the integral. <div style=padding-top: 35px>
Question
Use the trapezoid rule with n = 10 to approximate the integral. Use the trapezoid rule with n = 10 to approximate the integral. <div style=padding-top: 35px>
Question
Use n = 10 to approximate the integral by the midpoint rule. Use n = 10 to approximate the integral by the midpoint rule. <div style=padding-top: 35px>
Question
Use Simpson's Rule with n = 10 to approximate the integral. <strong>Use Simpson's Rule with n = 10 to approximate the integral. </strong> A) 0.798 B) 0.796 C) 0.794 D) 0.792 E) 0.841 <div style=padding-top: 35px>

A) 0.798
B) 0.796
C) 0.794
D) 0.792
E) 0.841
Question
Use n = 10 subdivisions to approximate the value of the integral Use n = 10 subdivisions to approximate the value of the integral by the trapezoidal approximation.<div style=padding-top: 35px> by the trapezoidal approximation.
Question
Use n = 10 subdivisions to approximate the value of Use n = 10 subdivisions to approximate the value of by the midpoint approximation. Find the exact value of the integral and approximate the magnitude of the error. Express your answer to at least four decimal places.<div style=padding-top: 35px> by the midpoint approximation. Find the exact value of the integral and approximate the magnitude of the error. Express your answer to at least four decimal places.
Question
Use n = 10 subdivisions to approximate the value of Use n = 10 subdivisions to approximate the value of by Simpson's rule. Find the exact value of the integral and approximate the magnitude of the error. Express your answers to at least four decimal places.<div style=padding-top: 35px> by Simpson's rule. Find the exact value of the integral and approximate the magnitude of the error. Express your answers to at least four decimal places.
Question
Use n = 10 subdivisions to approximate the value of the integral Use n = 10 subdivisions to approximate the value of the integral by Simpson's rule.<div style=padding-top: 35px> by Simpson's rule.
Question
Use inequality (11) to find an upper bound on the magnitude of the error for the approximate value of Use inequality (11) to find an upper bound on the magnitude of the error for the approximate value of found by the trapezoidal approximation using 10 subintervals.<div style=padding-top: 35px> found by the trapezoidal approximation using 10 subintervals.
Question
Use n = 10 subdivisions to approximate the value of the integral Use n = 10 subdivisions to approximate the value of the integral by the midpoint approximation.<div style=padding-top: 35px> by the midpoint approximation.
Question
Use n = 10 subdivisions to approximate the value of Use n = 10 subdivisions to approximate the value of by Simpson's rule. Find the exact value of the integral and approximate the magnitude of the error. Express your answers to at least four decimal places.<div style=padding-top: 35px> by Simpson's rule. Find the exact value of the integral and approximate the magnitude of the error. Express your answers to at least four decimal places.
Question
Use inequality (12) to find an upper bound on the magnitude of the error for the approximate value of Use inequality (12) to find an upper bound on the magnitude of the error for the approximate value of found by Simpson's rule using 2n = 10.<div style=padding-top: 35px> found by Simpson's rule using 2n = 10.
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Use n = 10 subdivisions to approximate the value of the integral Use n = 10 subdivisions to approximate the value of the integral by Simpson's rule.<div style=padding-top: 35px> by Simpson's rule.
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Answer true of false. Answer true of false. = <div style=padding-top: 35px> = Answer true of false. = <div style=padding-top: 35px>
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Use n = 10 subdivisions to approximate the value of the integral Use n = 10 subdivisions to approximate the value of the integral by the midpoint approximation.<div style=padding-top: 35px> by the midpoint approximation.
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Answer true or false. Answer true or false. = .<div style=padding-top: 35px> = Answer true or false. = .<div style=padding-top: 35px> .
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Answer true or false. For Answer true or false. For a good choice for u is 3 - 2x<sup>2</sup>.<div style=padding-top: 35px> a good choice for u is 3 - 2x2.
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Use n = 10 subdivisions to find the exact value of Use n = 10 subdivisions to find the exact value of by the trapezoidal approximation. Find the exact value of the integral and approximate the magnitude of the error. Express your answer to at least four decimal places.<div style=padding-top: 35px> by the trapezoidal approximation. Find the exact value of the integral and approximate the magnitude of the error. Express your answer to at least four decimal places.
Question
Use inequality (10) to find an upper bound on the magnitude of the error for the approximate value of Use inequality (10) to find an upper bound on the magnitude of the error for the approximate value of found by the midpoint approximation using 10 subintervals.<div style=padding-top: 35px> found by the midpoint approximation using 10 subintervals.
Question
Use n = 10 subdivisions to approximate the value of Use n = 10 subdivisions to approximate the value of by Simpson's rule. Find the exact value of the integral and approximate the magnitude of the error. Express your answers to at least four decimal places.<div style=padding-top: 35px> by Simpson's rule. Find the exact value of the integral and approximate the magnitude of the error. Express your answers to at least four decimal places.
Question
Use n = 10 to approximate Use n = 10 to approximate by the trapezoid rule.<div style=padding-top: 35px> by the trapezoid rule.
Question
Use n = 10 subdivisions to approximate the value of the integral Use n = 10 subdivisions to approximate the value of the integral by the trapezoidal approximation.<div style=padding-top: 35px> by the trapezoidal approximation.
Question
Use n = 10 subdivisions to approximate the value of Use n = 10 subdivisions to approximate the value of by the midpoint approximation. Find the exact value of the integral and approximate the magnitude of the error. Express your answers to at least four decimal places.<div style=padding-top: 35px> by the midpoint approximation. Find the exact value of the integral and approximate the magnitude of the error. Express your answers to at least four decimal places.
Question
Use inequality (12) to find an upper bound on the magnitude of the error for the approximate value of Use inequality (12) to find an upper bound on the magnitude of the error for the approximate value of found by Simpson's using 2n = 10.<div style=padding-top: 35px> found by Simpson's using 2n = 10.
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Deck 7: Principle of Integral Evaluation
1
Answer true or false. Answer true or false. diverges. diverges.
False
2
Evaluate Evaluate . .
= = 7 = = = 7 = 7
3
Evaluate Evaluate . .
= + = = = = = = = = = + = = = + = = = = = = = = = + = + = + = = = = = = = = = + = = + = = = = = = = = = + = = = + = = = = = = = = = + = = = + = = = = = = = = = + = = = + = = = = = = = = = + = = = + = = = = = = = = = + = = + = = = = = = = = = + = = = + = = = = = = = = = + = = = + = = = = = = = = = + = = = + = = = = = = = = = + = = = + = = = = = = = = = + = = + = = = = = = = = = + = = = + = = = = = = = = = + = + = + = = = = = = = = = + = = = + = = = = = = = = = + =
4
Answer true or false. Answer true or false. is an improper integral. is an improper integral.
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5
Evaluate Evaluate . .
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6
Evaluate Evaluate . .
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7
Evaluate Evaluate . .
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8
Evaluate Evaluate . .
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9
Answer true or false. Answer true or false. diverges. diverges.
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10
Answer true or false. Answer true or false. = = -1 = Answer true or false. = = -1 = -1
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11
Answer true or false. Answer true or false. diverges. diverges.
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12
Evaluate Evaluate . .
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13
Evaluate Evaluate
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14
Answer true or false. Answer true or false. is an improper integral. is an improper integral.
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15
Answer true or false. Answer true or false. diverges. diverges.
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16
Answer true or false. Answer true or false. diverges. diverges.
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17
Evaluate Evaluate . .
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18
Answer true or false. Answer true or false. diverges. diverges.
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19
Evaluate Evaluate . .
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20
Evaluate Evaluate . .
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21
Use n = 10 to approximate the integral by the midpoint rule. <strong>Use n = 10 to approximate the integral by the midpoint rule. </strong> A) 0.956848 B) 0.952261 C) 0.478424 D) 0.959043 E) 0.377541

A) 0.956848
B) 0.952261
C) 0.478424
D) 0.959043
E) 0.377541
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22
Evaluate Evaluate . .
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23
Evaluate Evaluate . .
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24
Evaluate Evaluate . .
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25
Evaluate Evaluate . .
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26
Evaluate Evaluate . .
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27
Evaluate Evaluate . .
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28
Evaluate Evaluate . .
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29
Evaluate Evaluate . .
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30
Evaluate Evaluate . .
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31
Evaluate Evaluate . .
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32
Evaluate Evaluate . .
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33
Evaluate Evaluate . .
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34
Evaluate Evaluate . .
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35
Evaluate Evaluate . .
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36
Use the trapezoid rule with n = 10 to approximate the integral. <strong>Use the trapezoid rule with n = 10 to approximate the integral. </strong> A) 2.18713 B) 7.94608 C) 4.37427 D) 3.97304 E) 4.24365

A) 2.18713
B) 7.94608
C) 4.37427
D) 3.97304
E) 4.24365
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37
Evaluate Evaluate . .
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38
Use n = 10 to approximate the integral by the midpoint rule. <strong>Use n = 10 to approximate the integral by the midpoint rule. </strong> A) 100.554 B) 121.654 C) 55.349 D) 110.698 E) 0.200

A) 100.554
B) 121.654
C) 55.349
D) 110.698
E) 0.200
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39
Use n = 10 to approximate the integral by the midpoint rule. <strong>Use n = 10 to approximate the integral by the midpoint rule. </strong> A) 0.121 B) 0.221 C) 0.082 D) 0.165 E) 0.200

A) 0.121
B) 0.221
C) 0.082
D) 0.165
E) 0.200
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40
Use n = 10 to approximate the integral by the midpoint rule. <strong>Use n = 10 to approximate the integral by the midpoint rule. </strong> A) 24.571070 B) 30.972522 C) 38.600681 D) 15.486261 E) 0

A) 24.571070
B) 30.972522
C) 38.600681
D) 15.486261
E) 0
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41
Use Simpson's Rule with n = 10 to approximate the integral. Use Simpson's Rule with n = 10 to approximate the integral.
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42
Use Simpson's Rule with n = 10 to approximate the integral. Use Simpson's Rule with n = 10 to approximate the integral.
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43
Use the trapezoid rule with n = 10 to approximate the integral. <strong>Use the trapezoid rule with n = 10 to approximate the integral. </strong> A) 12.670000 B) 3.492500 C) 6.335000 D) 6.322375 E) 6.122375

A) 12.670000
B) 3.492500
C) 6.335000
D) 6.322375
E) 6.122375
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44
Use Simpson's Rule with n = 10 to approximate the integral. Use Simpson's Rule with n = 10 to approximate the integral.
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45
Use the trapezoid rule with n = 10 to approximate the integral. Use the trapezoid rule with n = 10 to approximate the integral.
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46
Use n = 10 to approximate <strong>Use n = 10 to approximate by the trapezoid rule.</strong> A) 2,666.000000 B) 979.000000 C) 0.000000 D) 1,316.093750 E) 1,003.593750 by the trapezoid rule.

A) 2,666.000000
B) 979.000000
C) 0.000000
D) 1,316.093750
E) 1,003.593750
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47
Use Simpson's Rule with n = 10 to approximate the integral. <strong>Use Simpson's Rule with n = 10 to approximate the integral. </strong> A) 50.008405 B) 100.016811 C) 22.254692 D) 12.382574 E) 33.338937

A) 50.008405
B) 100.016811
C) 22.254692
D) 12.382574
E) 33.338937
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48
Use n = 10 to approximate <strong>Use n = 10 to approximate by the midpoint rule.</strong> A) -0.199999 B) 0.199999 C) 0.003 D) 0.01088 E) 6.4 by the midpoint rule.

A) -0.199999
B) 0.199999
C) 0.003
D) 0.01088
E) 6.4
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49
Use the trapezoid rule with n = 10 to approximate the integral. <strong>Use the trapezoid rule with n = 10 to approximate the integral. </strong> A) 0.135540 B) 0.113379 C) 1.904947 D) 0.067770 E) 0.521595

A) 0.135540
B) 0.113379
C) 1.904947
D) 0.067770
E) 0.521595
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50
Use Simpson's Rule with n = 10 to approximate the integral. <strong>Use Simpson's Rule with n = 10 to approximate the integral. </strong> A) 5.625000 B) 11.250000 C) 3.750000 D) 2.505000 E) 3.516667

A) 5.625000
B) 11.250000
C) 3.750000
D) 2.505000
E) 3.516667
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51
Use n = 10 to approximate the integral by the midpoint rule. Use n = 10 to approximate the integral by the midpoint rule.
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52
Use n = 10 to approximate Use n = 10 to approximate by the midpoint rule. by the midpoint rule.
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53
Use n = 10 to approximate the integral by the midpoint rule. Use n = 10 to approximate the integral by the midpoint rule.
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54
Use n = 10 to approximate the integral by the midpoint rule. Use n = 10 to approximate the integral by the midpoint rule.
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55
Use the trapezoid rule with n = 10 to approximate the integral. Use the trapezoid rule with n = 10 to approximate the integral.
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56
Use the trapezoid rule with n = 10 to approximate the integral. <strong>Use the trapezoid rule with n = 10 to approximate the integral. </strong> A) 0.473409 B) 0.397599 C) 0.795199 D) 0.236705 E) 0.125977

A) 0.473409
B) 0.397599
C) 0.795199
D) 0.236705
E) 0.125977
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57
Use the trapezoid rule with n = 10 to approximate the integral. Use the trapezoid rule with n = 10 to approximate the integral.
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58
Use the trapezoid rule with n = 10 to approximate the integral. Use the trapezoid rule with n = 10 to approximate the integral.
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Unlock for access to all 269 flashcards in this deck.
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59
Use n = 10 to approximate the integral by the midpoint rule. Use n = 10 to approximate the integral by the midpoint rule.
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Unlock for access to all 269 flashcards in this deck.
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60
Use Simpson's Rule with n = 10 to approximate the integral. <strong>Use Simpson's Rule with n = 10 to approximate the integral. </strong> A) 0.798 B) 0.796 C) 0.794 D) 0.792 E) 0.841

A) 0.798
B) 0.796
C) 0.794
D) 0.792
E) 0.841
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61
Use n = 10 subdivisions to approximate the value of the integral Use n = 10 subdivisions to approximate the value of the integral by the trapezoidal approximation. by the trapezoidal approximation.
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62
Use n = 10 subdivisions to approximate the value of Use n = 10 subdivisions to approximate the value of by the midpoint approximation. Find the exact value of the integral and approximate the magnitude of the error. Express your answer to at least four decimal places. by the midpoint approximation. Find the exact value of the integral and approximate the magnitude of the error. Express your answer to at least four decimal places.
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Unlock Deck
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63
Use n = 10 subdivisions to approximate the value of Use n = 10 subdivisions to approximate the value of by Simpson's rule. Find the exact value of the integral and approximate the magnitude of the error. Express your answers to at least four decimal places. by Simpson's rule. Find the exact value of the integral and approximate the magnitude of the error. Express your answers to at least four decimal places.
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Unlock for access to all 269 flashcards in this deck.
Unlock Deck
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64
Use n = 10 subdivisions to approximate the value of the integral Use n = 10 subdivisions to approximate the value of the integral by Simpson's rule. by Simpson's rule.
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Unlock for access to all 269 flashcards in this deck.
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65
Use inequality (11) to find an upper bound on the magnitude of the error for the approximate value of Use inequality (11) to find an upper bound on the magnitude of the error for the approximate value of found by the trapezoidal approximation using 10 subintervals. found by the trapezoidal approximation using 10 subintervals.
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66
Use n = 10 subdivisions to approximate the value of the integral Use n = 10 subdivisions to approximate the value of the integral by the midpoint approximation. by the midpoint approximation.
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Unlock for access to all 269 flashcards in this deck.
Unlock Deck
k this deck
67
Use n = 10 subdivisions to approximate the value of Use n = 10 subdivisions to approximate the value of by Simpson's rule. Find the exact value of the integral and approximate the magnitude of the error. Express your answers to at least four decimal places. by Simpson's rule. Find the exact value of the integral and approximate the magnitude of the error. Express your answers to at least four decimal places.
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Unlock for access to all 269 flashcards in this deck.
Unlock Deck
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68
Use inequality (12) to find an upper bound on the magnitude of the error for the approximate value of Use inequality (12) to find an upper bound on the magnitude of the error for the approximate value of found by Simpson's rule using 2n = 10. found by Simpson's rule using 2n = 10.
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Unlock for access to all 269 flashcards in this deck.
Unlock Deck
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69
Use n = 10 subdivisions to approximate the value of the integral Use n = 10 subdivisions to approximate the value of the integral by Simpson's rule. by Simpson's rule.
Unlock Deck
Unlock for access to all 269 flashcards in this deck.
Unlock Deck
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70
Answer true of false. Answer true of false. = = Answer true of false. =
Unlock Deck
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71
Use n = 10 subdivisions to approximate the value of the integral Use n = 10 subdivisions to approximate the value of the integral by the midpoint approximation. by the midpoint approximation.
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Unlock for access to all 269 flashcards in this deck.
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72
Answer true or false. Answer true or false. = . = Answer true or false. = . .
Unlock Deck
Unlock for access to all 269 flashcards in this deck.
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73
Answer true or false. For Answer true or false. For a good choice for u is 3 - 2x<sup>2</sup>. a good choice for u is 3 - 2x2.
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Unlock for access to all 269 flashcards in this deck.
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74
Use n = 10 subdivisions to find the exact value of Use n = 10 subdivisions to find the exact value of by the trapezoidal approximation. Find the exact value of the integral and approximate the magnitude of the error. Express your answer to at least four decimal places. by the trapezoidal approximation. Find the exact value of the integral and approximate the magnitude of the error. Express your answer to at least four decimal places.
Unlock Deck
Unlock for access to all 269 flashcards in this deck.
Unlock Deck
k this deck
75
Use inequality (10) to find an upper bound on the magnitude of the error for the approximate value of Use inequality (10) to find an upper bound on the magnitude of the error for the approximate value of found by the midpoint approximation using 10 subintervals. found by the midpoint approximation using 10 subintervals.
Unlock Deck
Unlock for access to all 269 flashcards in this deck.
Unlock Deck
k this deck
76
Use n = 10 subdivisions to approximate the value of Use n = 10 subdivisions to approximate the value of by Simpson's rule. Find the exact value of the integral and approximate the magnitude of the error. Express your answers to at least four decimal places. by Simpson's rule. Find the exact value of the integral and approximate the magnitude of the error. Express your answers to at least four decimal places.
Unlock Deck
Unlock for access to all 269 flashcards in this deck.
Unlock Deck
k this deck
77
Use n = 10 to approximate Use n = 10 to approximate by the trapezoid rule. by the trapezoid rule.
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Unlock Deck
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78
Use n = 10 subdivisions to approximate the value of the integral Use n = 10 subdivisions to approximate the value of the integral by the trapezoidal approximation. by the trapezoidal approximation.
Unlock Deck
Unlock for access to all 269 flashcards in this deck.
Unlock Deck
k this deck
79
Use n = 10 subdivisions to approximate the value of Use n = 10 subdivisions to approximate the value of by the midpoint approximation. Find the exact value of the integral and approximate the magnitude of the error. Express your answers to at least four decimal places. by the midpoint approximation. Find the exact value of the integral and approximate the magnitude of the error. Express your answers to at least four decimal places.
Unlock Deck
Unlock for access to all 269 flashcards in this deck.
Unlock Deck
k this deck
80
Use inequality (12) to find an upper bound on the magnitude of the error for the approximate value of Use inequality (12) to find an upper bound on the magnitude of the error for the approximate value of found by Simpson's using 2n = 10. found by Simpson's using 2n = 10.
Unlock Deck
Unlock for access to all 269 flashcards in this deck.
Unlock Deck
k this deck
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Unlock Deck
Unlock for access to all 269 flashcards in this deck.
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