Q. 63 Use the results from Exercises 5... [FREE SOLUTION]

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Chapter 8: Q. 63 (page 702)

Use the results from Exercises 51鈥�60 and Theorem 7.38 to approximate the values of the definite integrals in Exercises 61鈥�70 to within 0.001 of their values.
${鈭�}_{- 1}^{1} e^{- x^{2} / 3} d x$

Short Answer

Expert verified

The approximate value is $- 5 路 978$ .

Step by step solution

Step 1. Given information .

Consider the given integral ${鈭�}_{- 1}^{1} e^{- x^{2} / 3} d x$ .

Step 2. Using the result of sin x from question 51 - 60 and theorem 7·38 .

The result of $e^{x} = {鈭�}_{k = 1}^{鈭�} \frac{1}{k!} x^{k}$ .

Theorem 7.38 - Let L be the sum of an alternating series satisfying the

hypotheses of the alternating series test. For any term Sn in the sequence of partial sums, $|L - S_{n}| < a_{n + 1}$ . Furthermore, the sign of the difference L 鈭� Sn is the sign of the coefficient of the term ..

Step 3. Find the value .

${鈭�}_{- 1}^{1} e^{- x^{2} / 3} d x = {鈭�}_{- 1}^{1} {鈭�}_{k = 0}^{鈭�} \frac{{(- x^{2} / 3)}^{k}}{k!} = {鈭�}_{k = 0}^{鈭�} \frac{{(- 1)}^{k}}{3 k!} {鈭�}_{- 1}^{1} (x^{2 k}) = {鈭�}_{k = 0}^{鈭�} \frac{{(- 1)}^{k}}{3 k!} {[\frac{x^{2 k + 1}}{2 k + 1}]}_{- 1}^{1} = {鈭�}_{k = 0}^{鈭�} \frac{{(- 1)}^{k}}{3 k!} (\frac{2}{2 k + 1})$

Substitute $k = 0, 1, 2, 3, . . . . . . . . . . . 鈭�$

$鈬� 2 - \frac{1}{9} + \frac{1}{180} - \frac{1}{1270080} 鈬� 2 - 0 路 111 + 0 路 00555 - 7 路 873 鈬� - 5 路 978$

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91影视

Use the results from Exercises 51鈥�60 and Theorem 7.38 to approximate the values of the definite integrals in Exercises 61鈥�70 to within 0.001 of their values.
${鈭�}_{- 1}^{1} e^{- x^{2} / 3} d x$

Short Answer

Step by step solution

Step 1. Given information .

Step 2. Using the result of sin x from question 51 - 60 and theorem 7·38 .

Step 3. Find the value .

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91影视

Use the results from Exercises 51鈥�60 and Theorem 7.38 to approximate the values of the definite integrals in Exercises 61鈥�70 to within 0.001 of their values.鈭�-11e-x2/3dx

Short Answer

Step by step solution

Step 1. Given information .

Step 2. Using the result of sin x from question 51 - 60 and theorem 7·38 .

Step 3. Find the value .

One App. One Place for Learning.

Most popular questions from this chapter

Recommended explanations on Math Textbooks

Decision Maths

Geometry

Applied Mathematics

Discrete Mathematics

Logic and Functions

Pure Maths

Study anywhere. Anytime. Across all devices.

Use the results from Exercises 51鈥�60 and Theorem 7.38 to approximate the values of the definite integrals in Exercises 61鈥�70 to within 0.001 of their values.
${鈭�}_{- 1}^{1} e^{- x^{2} / 3} d x$