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Deck 11: Taylor Polynomials and Infinite Series

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Question
Estimate the value of the radical by using three iterations of the Newton-Raphson method with the indicated initial guess for the function. Round your answer to six decimal places, if necessary.
Estimate the value of the radical by using three iterations of the Newton-Raphson method with the indicated initial guess for the function. Round your answer to six decimal places, if necessary. ​ <div style=padding-top: 35px> Estimate the value of the radical by using three iterations of the Newton-Raphson method with the indicated initial guess for the function. Round your answer to six decimal places, if necessary. ​ <div style=padding-top: 35px> Estimate the value of the radical by using three iterations of the Newton-Raphson method with the indicated initial guess for the function. Round your answer to six decimal places, if necessary. ​ <div style=padding-top: 35px>
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Question
Estimate the value of the radical by using three iterations of the Newton-Raphson method with the indicated initial guess for the function. Round your answer to six decimal places, if necessary.
Estimate the value of the radical by using three iterations of the Newton-Raphson method with the indicated initial guess for the function. Round your answer to six decimal places, if necessary. ​ ; ; <div style=padding-top: 35px> ; Estimate the value of the radical by using three iterations of the Newton-Raphson method with the indicated initial guess for the function. Round your answer to six decimal places, if necessary. ​ ; ; <div style=padding-top: 35px> ; Estimate the value of the radical by using three iterations of the Newton-Raphson method with the indicated initial guess for the function. Round your answer to six decimal places, if necessary. ​ ; ; <div style=padding-top: 35px>
Question
Use the Newton method to approximate the indicated zero of the function. Continue with the iteration until two successive approximations differ by less than 0.0001. Round your answer to five decimal places, if necessary.

The zero of Use the Newton method to approximate the indicated zero of the function. Continue with the iteration until two successive approximations differ by less than 0.0001. Round your answer to five decimal places, if necessary. ​ The zero of between and , .<div style=padding-top: 35px> between Use the Newton method to approximate the indicated zero of the function. Continue with the iteration until two successive approximations differ by less than 0.0001. Round your answer to five decimal places, if necessary. ​ The zero of between and , .<div style=padding-top: 35px> and Use the Newton method to approximate the indicated zero of the function. Continue with the iteration until two successive approximations differ by less than 0.0001. Round your answer to five decimal places, if necessary. ​ The zero of between and , .<div style=padding-top: 35px> , Use the Newton method to approximate the indicated zero of the function. Continue with the iteration until two successive approximations differ by less than 0.0001. Round your answer to five decimal places, if necessary. ​ The zero of between and , .<div style=padding-top: 35px> .
Question
A division manufactures the "Futura" model microwave oven. Given that the daily cost of producing these microwave ovens (in dollars) obeys the rule
A division manufactures the Futura model microwave oven. Given that the daily cost of producing these microwave ovens (in dollars) obeys the rule ​ ​ where x stands for the number of units produced, find the level of production that minimizes the daily average cost per unit. Round your answer to the nearest integer. ​ __________ units per day<div style=padding-top: 35px>
where x stands for the number of units produced, find the level of production that minimizes the daily average cost per unit. Round your answer to the nearest integer.

__________ units per day
Question
Estimate the value of the radical by using three iterations of the Newton-Raphson method with the indicated initial guess for the function. Round your answer to five decimal places, if necessary.
Estimate the value of the radical by using three iterations of the Newton-Raphson method with the indicated initial guess for the function. Round your answer to five decimal places, if necessary. ​ <div style=padding-top: 35px>
Question
Use the Newton method to approximate the indicated zero of the function. Continue with the iteration until two successive approximations differ by less than 0.0001. Round your answer to four decimal places, if necessary.

The zero of Use the Newton method to approximate the indicated zero of the function. Continue with the iteration until two successive approximations differ by less than 0.0001. Round your answer to four decimal places, if necessary. ​ The zero of between and , .<div style=padding-top: 35px> between Use the Newton method to approximate the indicated zero of the function. Continue with the iteration until two successive approximations differ by less than 0.0001. Round your answer to four decimal places, if necessary. ​ The zero of between and , .<div style=padding-top: 35px> and Use the Newton method to approximate the indicated zero of the function. Continue with the iteration until two successive approximations differ by less than 0.0001. Round your answer to four decimal places, if necessary. ​ The zero of between and , .<div style=padding-top: 35px> , Use the Newton method to approximate the indicated zero of the function. Continue with the iteration until two successive approximations differ by less than 0.0001. Round your answer to four decimal places, if necessary. ​ The zero of between and , .<div style=padding-top: 35px> .
Question
Estimate the value of the radical by using three iterations of the Newton-Raphson method with the indicated initial guess for the function. Round your answer to six decimal places, if necessary.
Estimate the value of the radical by using three iterations of the Newton-Raphson method with the indicated initial guess for the function. Round your answer to six decimal places, if necessary. ​ <div style=padding-top: 35px>
Question
Use the Newton method to approximate the indicated zero of the function. Continue with the iteration until two successive approximations differ by less than 0.0001. Round your answer to five decimal places, if necessary.

The zero of Use the Newton method to approximate the indicated zero of the function. Continue with the iteration until two successive approximations differ by less than 0.0001. Round your answer to five decimal places, if necessary. ​ The zero of between and , <div style=padding-top: 35px> between Use the Newton method to approximate the indicated zero of the function. Continue with the iteration until two successive approximations differ by less than 0.0001. Round your answer to five decimal places, if necessary. ​ The zero of between and , <div style=padding-top: 35px> and Use the Newton method to approximate the indicated zero of the function. Continue with the iteration until two successive approximations differ by less than 0.0001. Round your answer to five decimal places, if necessary. ​ The zero of between and , <div style=padding-top: 35px> , Use the Newton method to approximate the indicated zero of the function. Continue with the iteration until two successive approximations differ by less than 0.0001. Round your answer to five decimal places, if necessary. ​ The zero of between and , <div style=padding-top: 35px>
Question
Estimate the value of the radical by using three iterations of the Newton-Raphson method with the indicated initial guess for the function. Round your answer to six decimal places, if necessary.
Estimate the value of the radical by using three iterations of the Newton-Raphson method with the indicated initial guess for the function. Round your answer to six decimal places, if necessary. ​ <div style=padding-top: 35px>
Question
Use the Newton method to approximate the indicated zero of the function. Continue with the iteration until two successive approximations differ by less than 0.0001. Round your answer to six decimal places, if necessary.

The zero of Use the Newton method to approximate the indicated zero of the function. Continue with the iteration until two successive approximations differ by less than 0.0001. Round your answer to six decimal places, if necessary. ​ The zero of between and , .<div style=padding-top: 35px> between Use the Newton method to approximate the indicated zero of the function. Continue with the iteration until two successive approximations differ by less than 0.0001. Round your answer to six decimal places, if necessary. ​ The zero of between and , .<div style=padding-top: 35px> and Use the Newton method to approximate the indicated zero of the function. Continue with the iteration until two successive approximations differ by less than 0.0001. Round your answer to six decimal places, if necessary. ​ The zero of between and , .<div style=padding-top: 35px> , Use the Newton method to approximate the indicated zero of the function. Continue with the iteration until two successive approximations differ by less than 0.0001. Round your answer to six decimal places, if necessary. ​ The zero of between and , .<div style=padding-top: 35px> .
Question
Use the Newton method to approximate the indicated zero of the function. Continue with the iteration until two successive approximations differ by less than 0.0001. Round your answer to five decimal places, if necessary.

The zero of Use the Newton method to approximate the indicated zero of the function. Continue with the iteration until two successive approximations differ by less than 0.0001. Round your answer to five decimal places, if necessary. ​ The zero of between and , .<div style=padding-top: 35px> between Use the Newton method to approximate the indicated zero of the function. Continue with the iteration until two successive approximations differ by less than 0.0001. Round your answer to five decimal places, if necessary. ​ The zero of between and , .<div style=padding-top: 35px> and Use the Newton method to approximate the indicated zero of the function. Continue with the iteration until two successive approximations differ by less than 0.0001. Round your answer to five decimal places, if necessary. ​ The zero of between and , .<div style=padding-top: 35px> , Use the Newton method to approximate the indicated zero of the function. Continue with the iteration until two successive approximations differ by less than 0.0001. Round your answer to five decimal places, if necessary. ​ The zero of between and , .<div style=padding-top: 35px> .
Question
The altitude (in feet) of a rocket t sec into flight is given by
The altitude (in feet) of a rocket t sec into flight is given by ​ ​ Find the time T when the rocket hits Earth. Round your answer to the nearest second. ​ __________ sec<div style=padding-top: 35px>
Find the time T when the rocket hits Earth. Round your answer to the nearest second.
The altitude (in feet) of a rocket t sec into flight is given by ​ ​ Find the time T when the rocket hits Earth. Round your answer to the nearest second. ​ __________ sec<div style=padding-top: 35px> __________ sec
Question
Let Let ​ Use the Newton method to find the zero of in the interval . ​ Round your answer to five decimal places, if necessary.<div style=padding-top: 35px>
Use the Newton method to find the zero of Let ​ Use the Newton method to find the zero of in the interval . ​ Round your answer to five decimal places, if necessary.<div style=padding-top: 35px> in the interval Let ​ Use the Newton method to find the zero of in the interval . ​ Round your answer to five decimal places, if necessary.<div style=padding-top: 35px> .

Round your answer to five decimal places, if necessary.
Question
Use the Newton method to approximate the indicated zero of the function. Continue with the iteration until two successive approximations differ by less than 0.0001. Round your answer to five decimal places, if necessary.

The zero of Use the Newton method to approximate the indicated zero of the function. Continue with the iteration until two successive approximations differ by less than 0.0001. Round your answer to five decimal places, if necessary. ​ The zero of between and , .<div style=padding-top: 35px> between Use the Newton method to approximate the indicated zero of the function. Continue with the iteration until two successive approximations differ by less than 0.0001. Round your answer to five decimal places, if necessary. ​ The zero of between and , .<div style=padding-top: 35px> and Use the Newton method to approximate the indicated zero of the function. Continue with the iteration until two successive approximations differ by less than 0.0001. Round your answer to five decimal places, if necessary. ​ The zero of between and , .<div style=padding-top: 35px> , Use the Newton method to approximate the indicated zero of the function. Continue with the iteration until two successive approximations differ by less than 0.0001. Round your answer to five decimal places, if necessary. ​ The zero of between and , .<div style=padding-top: 35px> .
Question
Use the Newton method to approximate the indicated zero of the function. Continue with the iteration until two successive approximations differ by less than 0.0001. Round your answer to four decimal places, if necessary.

The zero of Use the Newton method to approximate the indicated zero of the function. Continue with the iteration until two successive approximations differ by less than 0.0001. Round your answer to four decimal places, if necessary. ​ The zero of between and , .<div style=padding-top: 35px> between Use the Newton method to approximate the indicated zero of the function. Continue with the iteration until two successive approximations differ by less than 0.0001. Round your answer to four decimal places, if necessary. ​ The zero of between and , .<div style=padding-top: 35px> and Use the Newton method to approximate the indicated zero of the function. Continue with the iteration until two successive approximations differ by less than 0.0001. Round your answer to four decimal places, if necessary. ​ The zero of between and , .<div style=padding-top: 35px> , Use the Newton method to approximate the indicated zero of the function. Continue with the iteration until two successive approximations differ by less than 0.0001. Round your answer to four decimal places, if necessary. ​ The zero of between and , .<div style=padding-top: 35px> .
Question
Estimate the value of the radical by using three iterations of the Newton-Raphson method with the indicated initial guess for the function. Round your answer to six decimal places, if necessary.

Estimate the value of the radical by using three iterations of the Newton-Raphson method with the indicated initial guess for the function. Round your answer to six decimal places, if necessary. ​ ​ <div style=padding-top: 35px>
Question
The temperature at 5 A.M. on a certain December day was measured at 18°F. In the next t hr, the temperature was given by the function
The temperature at 5 A.M. on a certain December day was measured at 18°F. In the next t hr, the temperature was given by the function ​ ​ where T is measured in degrees Fahrenheit. At what time was the temperature 0 °F? ​ _____ : _____ P.M.<div style=padding-top: 35px> The temperature at 5 A.M. on a certain December day was measured at 18°F. In the next t hr, the temperature was given by the function ​ ​ where T is measured in degrees Fahrenheit. At what time was the temperature 0 °F? ​ _____ : _____ P.M.<div style=padding-top: 35px>
where T is measured in degrees Fahrenheit. At what time was the temperature 0 °F?

_____ : _____ P.M.
Question
Use the Newton method to approximate the indicated zero of the function. Continue with the iteration until two successive approximations differ by less than 0.0001. Round your answer to five decimal places, if necessary.

The zero of Use the Newton method to approximate the indicated zero of the function. Continue with the iteration until two successive approximations differ by less than 0.0001. Round your answer to five decimal places, if necessary. ​ The zero of between and , .<div style=padding-top: 35px> between Use the Newton method to approximate the indicated zero of the function. Continue with the iteration until two successive approximations differ by less than 0.0001. Round your answer to five decimal places, if necessary. ​ The zero of between and , .<div style=padding-top: 35px> and Use the Newton method to approximate the indicated zero of the function. Continue with the iteration until two successive approximations differ by less than 0.0001. Round your answer to five decimal places, if necessary. ​ The zero of between and , .<div style=padding-top: 35px> , Use the Newton method to approximate the indicated zero of the function. Continue with the iteration until two successive approximations differ by less than 0.0001. Round your answer to five decimal places, if necessary. ​ The zero of between and , .<div style=padding-top: 35px> .
Question
Executive Limousine Service recently acquired limousines worth $120,000. The projected returns over the next 3 yr, the time period the limousines will be in service, are $80,000 at the end of the first year, $60,000 at the end of the second year, and $40,000 at the end of the third year. Find the internal rate of return on the investment. Round your answer to the nearest hundredth, if necessary.

__________ % per year
Question
The proprietor of Qwik Film Lab recently purchased $12,400 of new film-processing equipment. She expects that this investment, which has a useful life of 4 yr, will yield returns of $4,400 at the end of the first year, $5,200 at the end of the second year, $4,300 at the end of the third year, and $3,100 at the end of the fourth year. Find the internal rate of return on the investment.

Round your answer to the nearest hundredth, if necessary.

__________ % per yr
Question
Find the Taylor series of the function at the indicated point. Give the interval of convergence for the series.
Find the Taylor series of the function at the indicated point. Give the interval of convergence for the series. ​ <div style=padding-top: 35px>
Question
Find the Taylor series of the function at the indicated point. Give the interval of convergence for the series.
Find the Taylor series of the function at the indicated point. Give the interval of convergence for the series. ​ <div style=padding-top: 35px>
Question
Differentiate the power series for Differentiate the power series for at to obtain a series representation for the function .<div style=padding-top: 35px> at Differentiate the power series for at to obtain a series representation for the function .<div style=padding-top: 35px> to obtain a series representation for the function Differentiate the power series for at to obtain a series representation for the function .<div style=padding-top: 35px> .
Question
Consider the series Consider the series . ​ Find the radius of convergence of the power series. ​ __________ ​ Find the interval of convergence of the power series. ​ __________<div style=padding-top: 35px> .

Find the radius of convergence of the power series.

__________

Find the interval of convergence of the power series.

__________
Question
Use the eighth-degree Taylor polynomial to approximate
Use the eighth-degree Taylor polynomial to approximate ​ ​ Round the answer to four decimal places, if necessary.<div style=padding-top: 35px>
Round the answer to four decimal places, if necessary.
Question
Find the Taylor series of the function at the indicated point. Give the interval of convergence for the series.
Find the Taylor series of the function at the indicated point. Give the interval of convergence for the series. ​ <div style=padding-top: 35px>
Question
Differentiate the power series for Differentiate the power series for at to obtain a series representation for the function .<div style=padding-top: 35px> at Differentiate the power series for at to obtain a series representation for the function .<div style=padding-top: 35px> to obtain a series representation for the function Differentiate the power series for at to obtain a series representation for the function .<div style=padding-top: 35px> .
Question
Find the Taylor series of the function at the indicated point. Give the interval of convergence for the series.
Find the Taylor series of the function at the indicated point. Give the interval of convergence for the series. ​ <div style=padding-top: 35px>
Question
Consider the series Consider the series . ​ Find the radius of convergence of the power series. ​ __________ ​ Find the interval of convergence of the power series. ​ __________<div style=padding-top: 35px> .

Find the radius of convergence of the power series.

__________

Find the interval of convergence of the power series.

__________
Question
Consider the series Consider the series . ​ Find the radius of convergence of the power series. ​ __________ ​ Find the interval of convergence of the power series. ​ __________<div style=padding-top: 35px> .

Find the radius of convergence of the power series.

__________

Find the interval of convergence of the power series.

__________
Question
Find the Taylor series of the function at the indicated point. Give the interval of convergence for the series.
Find the Taylor series of the function at the indicated point. Give the interval of convergence for the series. ​ <div style=padding-top: 35px>
Question
Use the sixth-degree Taylor polynomial to approximate
Use the sixth-degree Taylor polynomial to approximate ​ ​<div style=padding-top: 35px>
Question
The General Manager of the Service Department of MCA Television Company has estimated that the time that elapses between the dates of purchase and the dates on which the 19-in. sets manufactured by the company first require service is normally distributed according to the probability density function
The General Manager of the Service Department of MCA Television Company has estimated that the time that elapses between the dates of purchase and the dates on which the 19-in. sets manufactured by the company first require service is normally distributed according to the probability density function ​ ​ where x is measured in months. Determine the percentage of sets manufactured and sold by MCA that may require service 90-100 mo after purchase. ​ Round the answer to the nearest hundredth, if necessary. ​ __________%<div style=padding-top: 35px>
where x is measured in months. Determine the percentage of sets manufactured and sold by MCA that may require service 90-100 mo after purchase.

Round the answer to the nearest hundredth, if necessary.

__________%
Question
Consider the series Consider the series . ​ Find the radius of convergence of the power series. ​ __________ ​ Find the interval of convergence of the power series. ​ __________<div style=padding-top: 35px> .

Find the radius of convergence of the power series.

__________

Find the interval of convergence of the power series.

__________
Question
Find the Taylor series of the function at the indicated point. Give the interval of convergence for the series.
Find the Taylor series of the function at the indicated point. Give the interval of convergence for the series. ​ <div style=padding-top: 35px>
Question
Find the Taylor series of the function at the indicated point. Give the interval of convergence for the series.
Find the Taylor series of the function at the indicated point. Give the interval of convergence for the series. ​ <div style=padding-top: 35px>
Question
Integrate the power series for Integrate the power series for to obtain a power series representation for the function .<div style=padding-top: 35px> to obtain a power series representation for the function Integrate the power series for to obtain a power series representation for the function .<div style=padding-top: 35px> .
Question
Consider the series Consider the series . ​ Find the radius of convergence of the power series. ​ __________ ​ Find the interval of convergence of the power series. ​ __________<div style=padding-top: 35px> .

Find the radius of convergence of the power series.

__________

Find the interval of convergence of the power series.

__________
Question
Find the Taylor series of the function at the indicated point. Give the interval of convergence for the series.
Find the Taylor series of the function at the indicated point. Give the interval of convergence for the series. ​ <div style=padding-top: 35px>
Question
Find the Taylor series of the function at the indicated point. Give the interval of convergence for the series.
Find the Taylor series of the function at the indicated point. Give the interval of convergence for the series. ​ <div style=padding-top: 35px>
Question
Consider the series Consider the series . ​ Find the radius of convergence of the power series. ​ __________ ​ Find the interval of convergence of the power series. ​ __________<div style=padding-top: 35px> .

Find the radius of convergence of the power series.

__________

Find the interval of convergence of the power series.

__________
Question
Consider the function Consider the function . ​ Find the Taylor series of the function at the indicated point. ​ __________ ​ Find its radius of convergence. ​ __________ ​ Find the interval of convergence. ​ __________<div style=padding-top: 35px> .

Find the Taylor series of the function at the indicated point.

__________

Find its radius of convergence.

__________

Find the interval of convergence.

__________
Question
Consider the series Consider the series . ​ Find the radius of convergence of the power series. ​ __________ ​ Find the interval of convergence of the power series. ​ __________<div style=padding-top: 35px> .

Find the radius of convergence of the power series.

__________

Find the interval of convergence of the power series.

__________
Question
Consider the series Consider the series . ​ Find the radius of convergence of the power series. ​ __________ ​ Find the interval of convergence of the power series. ​ __________<div style=padding-top: 35px> .

Find the radius of convergence of the power series.

__________

Find the interval of convergence of the power series.

__________
Question
Consider the series Consider the series . ​ Find the radius of convergence of the power series. ​ __________ ​ Find the interval of convergence of the power series. ​ __________<div style=padding-top: 35px> .

Find the radius of convergence of the power series.

__________

Find the interval of convergence of the power series.

__________
Question
Consider the function Consider the function at . ​ Find the Taylor series of the function at the indicated point. ​ __________ ​ Find its radius of convergence. ​ __________ ​ Find the interval of convergence. ​ __________<div style=padding-top: 35px> at Consider the function at . ​ Find the Taylor series of the function at the indicated point. ​ __________ ​ Find its radius of convergence. ​ __________ ​ Find the interval of convergence. ​ __________<div style=padding-top: 35px> .

Find the Taylor series of the function at the indicated point.

__________

Find its radius of convergence.

__________

Find the interval of convergence.

__________
Question
Use the integral test to determine whether the following series is convergent or divergent.
Use the integral test to determine whether the following series is convergent or divergent. ​ <div style=padding-top: 35px>
Question
Use the integral test to determine whether the following series is convergent or divergent.
Use the integral test to determine whether the following series is convergent or divergent. ​ <div style=padding-top: 35px>
Question
Use the integral test to determine whether the following series is convergent or divergent.
Use the integral test to determine whether the following series is convergent or divergent. ​ <div style=padding-top: 35px>
Question
Consider the series Consider the series . ​ Find the radius of convergence of the power series. ​ __________ ​ Find the interval of convergence of the power series. ​ __________<div style=padding-top: 35px> .

Find the radius of convergence of the power series.

__________

Find the interval of convergence of the power series.

__________
Question
Consider the series Consider the series . ​ Find the radius of convergence of the power series. ​ __________ ​ Find the interval of convergence of the power series. ​ __________<div style=padding-top: 35px> .

Find the radius of convergence of the power series.

__________

Find the interval of convergence of the power series.

__________
Question
Consider the series Consider the series . ​ Find the radius of convergence of the power series. ​ __________ ​ Find the interval of convergence of the power series. ​ __________<div style=padding-top: 35px> .

Find the radius of convergence of the power series.

__________

Find the interval of convergence of the power series.

__________
Question
Use the integral test to determine whether the following series is convergent or divergent.
Use the integral test to determine whether the following series is convergent or divergent. ​ <div style=padding-top: 35px>
Question
Consider the series Consider the series . ​ Find the radius of convergence of the power series. ​ __________ ​ Find the interval of convergence of the power series. ​ __________<div style=padding-top: 35px> .

Find the radius of convergence of the power series.

__________

Find the interval of convergence of the power series.

__________
Question
Use the integral test to determine whether the following series is convergent or divergent.
Use the integral test to determine whether the following series is convergent or divergent. ​ <div style=padding-top: 35px>
Question
Consider the function Consider the function . ​ Find the Taylor series of the function at the indicated point. ​ __________ ​ Find its radius of convergence. ​ __________ ​ Find the interval of convergence. ​ __________<div style=padding-top: 35px> .

Find the Taylor series of the function at the indicated point.

__________

Find its radius of convergence.

__________

Find the interval of convergence.

__________
Question
Consider the series Consider the series . ​ Find the radius of convergence of the power series. ​ __________ ​ Find the interval of convergence of the power series. ​ __________<div style=padding-top: 35px> .

Find the radius of convergence of the power series.

__________

Find the interval of convergence of the power series.

__________
Question
Consider the function Consider the function . ​ Find the Taylor series of the function at the indicated point. ​ __________ ​ Find its radius of convergence. ​ __________ ​ Find the interval of convergence. ​ __________<div style=padding-top: 35px> .

Find the Taylor series of the function at the indicated point.

__________

Find its radius of convergence.

__________

Find the interval of convergence.

__________
Question
Consider the series Consider the series . ​ Find the radius of convergence of the power series. ​ __________ ​ Find the interval of convergence of the power series. ​ __________<div style=padding-top: 35px> .

Find the radius of convergence of the power series.

__________

Find the interval of convergence of the power series.

__________
Question
Consider the series Consider the series . ​ Find the radius of convergence of the power series. ​ __________ ​ Find the interval of convergence of the power series. ​ __________<div style=padding-top: 35px> .

Find the radius of convergence of the power series.

__________

Find the interval of convergence of the power series.

__________
Question
Determine whether the following series is convergent or divergent.
Determine whether the following series is convergent or divergent. ​ <div style=padding-top: 35px>
Question
Use the comparison test to determine whether the following series is convergent or divergent.

Use the comparison test to determine whether the following series is convergent or divergent. ​ ​ <div style=padding-top: 35px>
Question
Consider the series
Consider the series ​ . ​ Determine whether the geometric series converges or diverges. ​ If it converges, find its sum.<div style=padding-top: 35px> .

Determine whether the geometric series converges or diverges.

If it converges, find its sum.
Question
Show that the series is divergent. Show that the series is divergent. <div style=padding-top: 35px>
Question
Determine whether the following series is convergent or divergent.
Determine whether the following series is convergent or divergent. ​ <div style=padding-top: 35px>
Question
Determine whether the following p-series is convergent or divergent.
Determine whether the following p-series is convergent or divergent. ​ <div style=padding-top: 35px>
Question
Determine whether the following series is convergent or divergent.
Determine whether the following series is convergent or divergent. ​ <div style=padding-top: 35px>
Question
Use the comparison test to determine whether the following series is convergent or divergent.
Use the comparison test to determine whether the following series is convergent or divergent. ​ <div style=padding-top: 35px>
Question
Determine whether the following p-series is convergent or divergent.

Determine whether the following p-series is convergent or divergent. ​ ​ <div style=padding-top: 35px>
Question
Find a formula for the capital value of a perpetuity involving payments of P dollars paid at the end of each investment period into a fund that earns interest at the annual rate of k% compounded continuously.
Question
Determine whether the following series is convergent or divergent.
Determine whether the following series is convergent or divergent. ​ ​<div style=padding-top: 35px>
Question
Determine whether the following series is convergent or divergent.
Determine whether the following series is convergent or divergent. ​ <div style=padding-top: 35px>
Question
Express the following decimal as a rational number.

2.251251251...
Question
Determine whether the following p-series is convergent or divergent.
Determine whether the following p-series is convergent or divergent. ​ <div style=padding-top: 35px>
Question
Suppose the average wage earner saves 15% of her take-home pay and spends the other 85%. Estimate the impact that a proposed $25 billion tax cut will have on the economy over the long run due to the additional spending generated. Round the answer to the nearest billion dollars.

$ __________ billion
Question
Use the comparison test to determine whether the following series is convergent or divergent.
Use the comparison test to determine whether the following series is convergent or divergent. ​ <div style=padding-top: 35px>
Question
Determine whether the following series is convergent or divergent.
Determine whether the following series is convergent or divergent. ​ <div style=padding-top: 35px>
Question
Consider the series
Consider the series ​ . ​ Determine whether the geometric series converges or diverges. ​ If it converges, find its sum.<div style=padding-top: 35px> .

Determine whether the geometric series converges or diverges.

If it converges, find its sum.
Question
Consider the series
Consider the series ​ . ​ Determine whether the geometric series converges or diverges. ​ If it converges, find its sum.<div style=padding-top: 35px> .

Determine whether the geometric series converges or diverges.

If it converges, find its sum.
Question
Use the comparison test to determine whether the series is convergent or divergent.
Use the comparison test to determine whether the series is convergent or divergent. ​ <div style=padding-top: 35px>
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Deck 11: Taylor Polynomials and Infinite Series
1
Estimate the value of the radical by using three iterations of the Newton-Raphson method with the indicated initial guess for the function. Round your answer to six decimal places, if necessary.
Estimate the value of the radical by using three iterations of the Newton-Raphson method with the indicated initial guess for the function. Round your answer to six decimal places, if necessary. ​ Estimate the value of the radical by using three iterations of the Newton-Raphson method with the indicated initial guess for the function. Round your answer to six decimal places, if necessary. ​ Estimate the value of the radical by using three iterations of the Newton-Raphson method with the indicated initial guess for the function. Round your answer to six decimal places, if necessary. ​
2.659210
2
Estimate the value of the radical by using three iterations of the Newton-Raphson method with the indicated initial guess for the function. Round your answer to six decimal places, if necessary.
Estimate the value of the radical by using three iterations of the Newton-Raphson method with the indicated initial guess for the function. Round your answer to six decimal places, if necessary. ​ ; ; ; Estimate the value of the radical by using three iterations of the Newton-Raphson method with the indicated initial guess for the function. Round your answer to six decimal places, if necessary. ​ ; ; ; Estimate the value of the radical by using three iterations of the Newton-Raphson method with the indicated initial guess for the function. Round your answer to six decimal places, if necessary. ​ ; ;
2.410167
3
Use the Newton method to approximate the indicated zero of the function. Continue with the iteration until two successive approximations differ by less than 0.0001. Round your answer to five decimal places, if necessary.

The zero of Use the Newton method to approximate the indicated zero of the function. Continue with the iteration until two successive approximations differ by less than 0.0001. Round your answer to five decimal places, if necessary. ​ The zero of between and , . between Use the Newton method to approximate the indicated zero of the function. Continue with the iteration until two successive approximations differ by less than 0.0001. Round your answer to five decimal places, if necessary. ​ The zero of between and , . and Use the Newton method to approximate the indicated zero of the function. Continue with the iteration until two successive approximations differ by less than 0.0001. Round your answer to five decimal places, if necessary. ​ The zero of between and , . , Use the Newton method to approximate the indicated zero of the function. Continue with the iteration until two successive approximations differ by less than 0.0001. Round your answer to five decimal places, if necessary. ​ The zero of between and , . .
1.91515
4
A division manufactures the "Futura" model microwave oven. Given that the daily cost of producing these microwave ovens (in dollars) obeys the rule
A division manufactures the Futura model microwave oven. Given that the daily cost of producing these microwave ovens (in dollars) obeys the rule ​ ​ where x stands for the number of units produced, find the level of production that minimizes the daily average cost per unit. Round your answer to the nearest integer. ​ __________ units per day
where x stands for the number of units produced, find the level of production that minimizes the daily average cost per unit. Round your answer to the nearest integer.

__________ units per day
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5
Estimate the value of the radical by using three iterations of the Newton-Raphson method with the indicated initial guess for the function. Round your answer to five decimal places, if necessary.
Estimate the value of the radical by using three iterations of the Newton-Raphson method with the indicated initial guess for the function. Round your answer to five decimal places, if necessary. ​
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6
Use the Newton method to approximate the indicated zero of the function. Continue with the iteration until two successive approximations differ by less than 0.0001. Round your answer to four decimal places, if necessary.

The zero of Use the Newton method to approximate the indicated zero of the function. Continue with the iteration until two successive approximations differ by less than 0.0001. Round your answer to four decimal places, if necessary. ​ The zero of between and , . between Use the Newton method to approximate the indicated zero of the function. Continue with the iteration until two successive approximations differ by less than 0.0001. Round your answer to four decimal places, if necessary. ​ The zero of between and , . and Use the Newton method to approximate the indicated zero of the function. Continue with the iteration until two successive approximations differ by less than 0.0001. Round your answer to four decimal places, if necessary. ​ The zero of between and , . , Use the Newton method to approximate the indicated zero of the function. Continue with the iteration until two successive approximations differ by less than 0.0001. Round your answer to four decimal places, if necessary. ​ The zero of between and , . .
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7
Estimate the value of the radical by using three iterations of the Newton-Raphson method with the indicated initial guess for the function. Round your answer to six decimal places, if necessary.
Estimate the value of the radical by using three iterations of the Newton-Raphson method with the indicated initial guess for the function. Round your answer to six decimal places, if necessary. ​
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8
Use the Newton method to approximate the indicated zero of the function. Continue with the iteration until two successive approximations differ by less than 0.0001. Round your answer to five decimal places, if necessary.

The zero of Use the Newton method to approximate the indicated zero of the function. Continue with the iteration until two successive approximations differ by less than 0.0001. Round your answer to five decimal places, if necessary. ​ The zero of between and , between Use the Newton method to approximate the indicated zero of the function. Continue with the iteration until two successive approximations differ by less than 0.0001. Round your answer to five decimal places, if necessary. ​ The zero of between and , and Use the Newton method to approximate the indicated zero of the function. Continue with the iteration until two successive approximations differ by less than 0.0001. Round your answer to five decimal places, if necessary. ​ The zero of between and , , Use the Newton method to approximate the indicated zero of the function. Continue with the iteration until two successive approximations differ by less than 0.0001. Round your answer to five decimal places, if necessary. ​ The zero of between and ,
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9
Estimate the value of the radical by using three iterations of the Newton-Raphson method with the indicated initial guess for the function. Round your answer to six decimal places, if necessary.
Estimate the value of the radical by using three iterations of the Newton-Raphson method with the indicated initial guess for the function. Round your answer to six decimal places, if necessary. ​
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10
Use the Newton method to approximate the indicated zero of the function. Continue with the iteration until two successive approximations differ by less than 0.0001. Round your answer to six decimal places, if necessary.

The zero of Use the Newton method to approximate the indicated zero of the function. Continue with the iteration until two successive approximations differ by less than 0.0001. Round your answer to six decimal places, if necessary. ​ The zero of between and , . between Use the Newton method to approximate the indicated zero of the function. Continue with the iteration until two successive approximations differ by less than 0.0001. Round your answer to six decimal places, if necessary. ​ The zero of between and , . and Use the Newton method to approximate the indicated zero of the function. Continue with the iteration until two successive approximations differ by less than 0.0001. Round your answer to six decimal places, if necessary. ​ The zero of between and , . , Use the Newton method to approximate the indicated zero of the function. Continue with the iteration until two successive approximations differ by less than 0.0001. Round your answer to six decimal places, if necessary. ​ The zero of between and , . .
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11
Use the Newton method to approximate the indicated zero of the function. Continue with the iteration until two successive approximations differ by less than 0.0001. Round your answer to five decimal places, if necessary.

The zero of Use the Newton method to approximate the indicated zero of the function. Continue with the iteration until two successive approximations differ by less than 0.0001. Round your answer to five decimal places, if necessary. ​ The zero of between and , . between Use the Newton method to approximate the indicated zero of the function. Continue with the iteration until two successive approximations differ by less than 0.0001. Round your answer to five decimal places, if necessary. ​ The zero of between and , . and Use the Newton method to approximate the indicated zero of the function. Continue with the iteration until two successive approximations differ by less than 0.0001. Round your answer to five decimal places, if necessary. ​ The zero of between and , . , Use the Newton method to approximate the indicated zero of the function. Continue with the iteration until two successive approximations differ by less than 0.0001. Round your answer to five decimal places, if necessary. ​ The zero of between and , . .
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12
The altitude (in feet) of a rocket t sec into flight is given by
The altitude (in feet) of a rocket t sec into flight is given by ​ ​ Find the time T when the rocket hits Earth. Round your answer to the nearest second. ​ __________ sec
Find the time T when the rocket hits Earth. Round your answer to the nearest second.
The altitude (in feet) of a rocket t sec into flight is given by ​ ​ Find the time T when the rocket hits Earth. Round your answer to the nearest second. ​ __________ sec __________ sec
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13
Let Let ​ Use the Newton method to find the zero of in the interval . ​ Round your answer to five decimal places, if necessary.
Use the Newton method to find the zero of Let ​ Use the Newton method to find the zero of in the interval . ​ Round your answer to five decimal places, if necessary. in the interval Let ​ Use the Newton method to find the zero of in the interval . ​ Round your answer to five decimal places, if necessary. .

Round your answer to five decimal places, if necessary.
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14
Use the Newton method to approximate the indicated zero of the function. Continue with the iteration until two successive approximations differ by less than 0.0001. Round your answer to five decimal places, if necessary.

The zero of Use the Newton method to approximate the indicated zero of the function. Continue with the iteration until two successive approximations differ by less than 0.0001. Round your answer to five decimal places, if necessary. ​ The zero of between and , . between Use the Newton method to approximate the indicated zero of the function. Continue with the iteration until two successive approximations differ by less than 0.0001. Round your answer to five decimal places, if necessary. ​ The zero of between and , . and Use the Newton method to approximate the indicated zero of the function. Continue with the iteration until two successive approximations differ by less than 0.0001. Round your answer to five decimal places, if necessary. ​ The zero of between and , . , Use the Newton method to approximate the indicated zero of the function. Continue with the iteration until two successive approximations differ by less than 0.0001. Round your answer to five decimal places, if necessary. ​ The zero of between and , . .
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15
Use the Newton method to approximate the indicated zero of the function. Continue with the iteration until two successive approximations differ by less than 0.0001. Round your answer to four decimal places, if necessary.

The zero of Use the Newton method to approximate the indicated zero of the function. Continue with the iteration until two successive approximations differ by less than 0.0001. Round your answer to four decimal places, if necessary. ​ The zero of between and , . between Use the Newton method to approximate the indicated zero of the function. Continue with the iteration until two successive approximations differ by less than 0.0001. Round your answer to four decimal places, if necessary. ​ The zero of between and , . and Use the Newton method to approximate the indicated zero of the function. Continue with the iteration until two successive approximations differ by less than 0.0001. Round your answer to four decimal places, if necessary. ​ The zero of between and , . , Use the Newton method to approximate the indicated zero of the function. Continue with the iteration until two successive approximations differ by less than 0.0001. Round your answer to four decimal places, if necessary. ​ The zero of between and , . .
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16
Estimate the value of the radical by using three iterations of the Newton-Raphson method with the indicated initial guess for the function. Round your answer to six decimal places, if necessary.

Estimate the value of the radical by using three iterations of the Newton-Raphson method with the indicated initial guess for the function. Round your answer to six decimal places, if necessary. ​ ​
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17
The temperature at 5 A.M. on a certain December day was measured at 18°F. In the next t hr, the temperature was given by the function
The temperature at 5 A.M. on a certain December day was measured at 18°F. In the next t hr, the temperature was given by the function ​ ​ where T is measured in degrees Fahrenheit. At what time was the temperature 0 °F? ​ _____ : _____ P.M. The temperature at 5 A.M. on a certain December day was measured at 18°F. In the next t hr, the temperature was given by the function ​ ​ where T is measured in degrees Fahrenheit. At what time was the temperature 0 °F? ​ _____ : _____ P.M.
where T is measured in degrees Fahrenheit. At what time was the temperature 0 °F?

_____ : _____ P.M.
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18
Use the Newton method to approximate the indicated zero of the function. Continue with the iteration until two successive approximations differ by less than 0.0001. Round your answer to five decimal places, if necessary.

The zero of Use the Newton method to approximate the indicated zero of the function. Continue with the iteration until two successive approximations differ by less than 0.0001. Round your answer to five decimal places, if necessary. ​ The zero of between and , . between Use the Newton method to approximate the indicated zero of the function. Continue with the iteration until two successive approximations differ by less than 0.0001. Round your answer to five decimal places, if necessary. ​ The zero of between and , . and Use the Newton method to approximate the indicated zero of the function. Continue with the iteration until two successive approximations differ by less than 0.0001. Round your answer to five decimal places, if necessary. ​ The zero of between and , . , Use the Newton method to approximate the indicated zero of the function. Continue with the iteration until two successive approximations differ by less than 0.0001. Round your answer to five decimal places, if necessary. ​ The zero of between and , . .
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19
Executive Limousine Service recently acquired limousines worth $120,000. The projected returns over the next 3 yr, the time period the limousines will be in service, are $80,000 at the end of the first year, $60,000 at the end of the second year, and $40,000 at the end of the third year. Find the internal rate of return on the investment. Round your answer to the nearest hundredth, if necessary.

__________ % per year
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20
The proprietor of Qwik Film Lab recently purchased $12,400 of new film-processing equipment. She expects that this investment, which has a useful life of 4 yr, will yield returns of $4,400 at the end of the first year, $5,200 at the end of the second year, $4,300 at the end of the third year, and $3,100 at the end of the fourth year. Find the internal rate of return on the investment.

Round your answer to the nearest hundredth, if necessary.

__________ % per yr
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21
Find the Taylor series of the function at the indicated point. Give the interval of convergence for the series.
Find the Taylor series of the function at the indicated point. Give the interval of convergence for the series. ​
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22
Find the Taylor series of the function at the indicated point. Give the interval of convergence for the series.
Find the Taylor series of the function at the indicated point. Give the interval of convergence for the series. ​
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23
Differentiate the power series for Differentiate the power series for at to obtain a series representation for the function . at Differentiate the power series for at to obtain a series representation for the function . to obtain a series representation for the function Differentiate the power series for at to obtain a series representation for the function . .
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24
Consider the series Consider the series . ​ Find the radius of convergence of the power series. ​ __________ ​ Find the interval of convergence of the power series. ​ __________ .

Find the radius of convergence of the power series.

__________

Find the interval of convergence of the power series.

__________
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25
Use the eighth-degree Taylor polynomial to approximate
Use the eighth-degree Taylor polynomial to approximate ​ ​ Round the answer to four decimal places, if necessary.
Round the answer to four decimal places, if necessary.
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26
Find the Taylor series of the function at the indicated point. Give the interval of convergence for the series.
Find the Taylor series of the function at the indicated point. Give the interval of convergence for the series. ​
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27
Differentiate the power series for Differentiate the power series for at to obtain a series representation for the function . at Differentiate the power series for at to obtain a series representation for the function . to obtain a series representation for the function Differentiate the power series for at to obtain a series representation for the function . .
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28
Find the Taylor series of the function at the indicated point. Give the interval of convergence for the series.
Find the Taylor series of the function at the indicated point. Give the interval of convergence for the series. ​
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29
Consider the series Consider the series . ​ Find the radius of convergence of the power series. ​ __________ ​ Find the interval of convergence of the power series. ​ __________ .

Find the radius of convergence of the power series.

__________

Find the interval of convergence of the power series.

__________
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30
Consider the series Consider the series . ​ Find the radius of convergence of the power series. ​ __________ ​ Find the interval of convergence of the power series. ​ __________ .

Find the radius of convergence of the power series.

__________

Find the interval of convergence of the power series.

__________
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31
Find the Taylor series of the function at the indicated point. Give the interval of convergence for the series.
Find the Taylor series of the function at the indicated point. Give the interval of convergence for the series. ​
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32
Use the sixth-degree Taylor polynomial to approximate
Use the sixth-degree Taylor polynomial to approximate ​ ​
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33
The General Manager of the Service Department of MCA Television Company has estimated that the time that elapses between the dates of purchase and the dates on which the 19-in. sets manufactured by the company first require service is normally distributed according to the probability density function
The General Manager of the Service Department of MCA Television Company has estimated that the time that elapses between the dates of purchase and the dates on which the 19-in. sets manufactured by the company first require service is normally distributed according to the probability density function ​ ​ where x is measured in months. Determine the percentage of sets manufactured and sold by MCA that may require service 90-100 mo after purchase. ​ Round the answer to the nearest hundredth, if necessary. ​ __________%
where x is measured in months. Determine the percentage of sets manufactured and sold by MCA that may require service 90-100 mo after purchase.

Round the answer to the nearest hundredth, if necessary.

__________%
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34
Consider the series Consider the series . ​ Find the radius of convergence of the power series. ​ __________ ​ Find the interval of convergence of the power series. ​ __________ .

Find the radius of convergence of the power series.

__________

Find the interval of convergence of the power series.

__________
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35
Find the Taylor series of the function at the indicated point. Give the interval of convergence for the series.
Find the Taylor series of the function at the indicated point. Give the interval of convergence for the series. ​
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36
Find the Taylor series of the function at the indicated point. Give the interval of convergence for the series.
Find the Taylor series of the function at the indicated point. Give the interval of convergence for the series. ​
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37
Integrate the power series for Integrate the power series for to obtain a power series representation for the function . to obtain a power series representation for the function Integrate the power series for to obtain a power series representation for the function . .
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38
Consider the series Consider the series . ​ Find the radius of convergence of the power series. ​ __________ ​ Find the interval of convergence of the power series. ​ __________ .

Find the radius of convergence of the power series.

__________

Find the interval of convergence of the power series.

__________
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39
Find the Taylor series of the function at the indicated point. Give the interval of convergence for the series.
Find the Taylor series of the function at the indicated point. Give the interval of convergence for the series. ​
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40
Find the Taylor series of the function at the indicated point. Give the interval of convergence for the series.
Find the Taylor series of the function at the indicated point. Give the interval of convergence for the series. ​
Unlock Deck
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41
Consider the series Consider the series . ​ Find the radius of convergence of the power series. ​ __________ ​ Find the interval of convergence of the power series. ​ __________ .

Find the radius of convergence of the power series.

__________

Find the interval of convergence of the power series.

__________
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42
Consider the function Consider the function . ​ Find the Taylor series of the function at the indicated point. ​ __________ ​ Find its radius of convergence. ​ __________ ​ Find the interval of convergence. ​ __________ .

Find the Taylor series of the function at the indicated point.

__________

Find its radius of convergence.

__________

Find the interval of convergence.

__________
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43
Consider the series Consider the series . ​ Find the radius of convergence of the power series. ​ __________ ​ Find the interval of convergence of the power series. ​ __________ .

Find the radius of convergence of the power series.

__________

Find the interval of convergence of the power series.

__________
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44
Consider the series Consider the series . ​ Find the radius of convergence of the power series. ​ __________ ​ Find the interval of convergence of the power series. ​ __________ .

Find the radius of convergence of the power series.

__________

Find the interval of convergence of the power series.

__________
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45
Consider the series Consider the series . ​ Find the radius of convergence of the power series. ​ __________ ​ Find the interval of convergence of the power series. ​ __________ .

Find the radius of convergence of the power series.

__________

Find the interval of convergence of the power series.

__________
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46
Consider the function Consider the function at . ​ Find the Taylor series of the function at the indicated point. ​ __________ ​ Find its radius of convergence. ​ __________ ​ Find the interval of convergence. ​ __________ at Consider the function at . ​ Find the Taylor series of the function at the indicated point. ​ __________ ​ Find its radius of convergence. ​ __________ ​ Find the interval of convergence. ​ __________ .

Find the Taylor series of the function at the indicated point.

__________

Find its radius of convergence.

__________

Find the interval of convergence.

__________
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47
Use the integral test to determine whether the following series is convergent or divergent.
Use the integral test to determine whether the following series is convergent or divergent. ​
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48
Use the integral test to determine whether the following series is convergent or divergent.
Use the integral test to determine whether the following series is convergent or divergent. ​
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49
Use the integral test to determine whether the following series is convergent or divergent.
Use the integral test to determine whether the following series is convergent or divergent. ​
Unlock Deck
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50
Consider the series Consider the series . ​ Find the radius of convergence of the power series. ​ __________ ​ Find the interval of convergence of the power series. ​ __________ .

Find the radius of convergence of the power series.

__________

Find the interval of convergence of the power series.

__________
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51
Consider the series Consider the series . ​ Find the radius of convergence of the power series. ​ __________ ​ Find the interval of convergence of the power series. ​ __________ .

Find the radius of convergence of the power series.

__________

Find the interval of convergence of the power series.

__________
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52
Consider the series Consider the series . ​ Find the radius of convergence of the power series. ​ __________ ​ Find the interval of convergence of the power series. ​ __________ .

Find the radius of convergence of the power series.

__________

Find the interval of convergence of the power series.

__________
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53
Use the integral test to determine whether the following series is convergent or divergent.
Use the integral test to determine whether the following series is convergent or divergent. ​
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54
Consider the series Consider the series . ​ Find the radius of convergence of the power series. ​ __________ ​ Find the interval of convergence of the power series. ​ __________ .

Find the radius of convergence of the power series.

__________

Find the interval of convergence of the power series.

__________
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55
Use the integral test to determine whether the following series is convergent or divergent.
Use the integral test to determine whether the following series is convergent or divergent. ​
Unlock Deck
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56
Consider the function Consider the function . ​ Find the Taylor series of the function at the indicated point. ​ __________ ​ Find its radius of convergence. ​ __________ ​ Find the interval of convergence. ​ __________ .

Find the Taylor series of the function at the indicated point.

__________

Find its radius of convergence.

__________

Find the interval of convergence.

__________
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57
Consider the series Consider the series . ​ Find the radius of convergence of the power series. ​ __________ ​ Find the interval of convergence of the power series. ​ __________ .

Find the radius of convergence of the power series.

__________

Find the interval of convergence of the power series.

__________
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58
Consider the function Consider the function . ​ Find the Taylor series of the function at the indicated point. ​ __________ ​ Find its radius of convergence. ​ __________ ​ Find the interval of convergence. ​ __________ .

Find the Taylor series of the function at the indicated point.

__________

Find its radius of convergence.

__________

Find the interval of convergence.

__________
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59
Consider the series Consider the series . ​ Find the radius of convergence of the power series. ​ __________ ​ Find the interval of convergence of the power series. ​ __________ .

Find the radius of convergence of the power series.

__________

Find the interval of convergence of the power series.

__________
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60
Consider the series Consider the series . ​ Find the radius of convergence of the power series. ​ __________ ​ Find the interval of convergence of the power series. ​ __________ .

Find the radius of convergence of the power series.

__________

Find the interval of convergence of the power series.

__________
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61
Determine whether the following series is convergent or divergent.
Determine whether the following series is convergent or divergent. ​
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62
Use the comparison test to determine whether the following series is convergent or divergent.

Use the comparison test to determine whether the following series is convergent or divergent. ​ ​
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63
Consider the series
Consider the series ​ . ​ Determine whether the geometric series converges or diverges. ​ If it converges, find its sum. .

Determine whether the geometric series converges or diverges.

If it converges, find its sum.
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64
Show that the series is divergent. Show that the series is divergent.
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65
Determine whether the following series is convergent or divergent.
Determine whether the following series is convergent or divergent. ​
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Unlock for access to all 110 flashcards in this deck.
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66
Determine whether the following p-series is convergent or divergent.
Determine whether the following p-series is convergent or divergent. ​
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Unlock for access to all 110 flashcards in this deck.
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67
Determine whether the following series is convergent or divergent.
Determine whether the following series is convergent or divergent. ​
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Unlock for access to all 110 flashcards in this deck.
Unlock Deck
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68
Use the comparison test to determine whether the following series is convergent or divergent.
Use the comparison test to determine whether the following series is convergent or divergent. ​
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Unlock for access to all 110 flashcards in this deck.
Unlock Deck
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69
Determine whether the following p-series is convergent or divergent.

Determine whether the following p-series is convergent or divergent. ​ ​
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Unlock for access to all 110 flashcards in this deck.
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70
Find a formula for the capital value of a perpetuity involving payments of P dollars paid at the end of each investment period into a fund that earns interest at the annual rate of k% compounded continuously.
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Unlock for access to all 110 flashcards in this deck.
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71
Determine whether the following series is convergent or divergent.
Determine whether the following series is convergent or divergent. ​ ​
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Unlock for access to all 110 flashcards in this deck.
Unlock Deck
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72
Determine whether the following series is convergent or divergent.
Determine whether the following series is convergent or divergent. ​
Unlock Deck
Unlock for access to all 110 flashcards in this deck.
Unlock Deck
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73
Express the following decimal as a rational number.

2.251251251...
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74
Determine whether the following p-series is convergent or divergent.
Determine whether the following p-series is convergent or divergent. ​
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Unlock for access to all 110 flashcards in this deck.
Unlock Deck
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75
Suppose the average wage earner saves 15% of her take-home pay and spends the other 85%. Estimate the impact that a proposed $25 billion tax cut will have on the economy over the long run due to the additional spending generated. Round the answer to the nearest billion dollars.

$ __________ billion
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Unlock for access to all 110 flashcards in this deck.
Unlock Deck
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76
Use the comparison test to determine whether the following series is convergent or divergent.
Use the comparison test to determine whether the following series is convergent or divergent. ​
Unlock Deck
Unlock for access to all 110 flashcards in this deck.
Unlock Deck
k this deck
77
Determine whether the following series is convergent or divergent.
Determine whether the following series is convergent or divergent. ​
Unlock Deck
Unlock for access to all 110 flashcards in this deck.
Unlock Deck
k this deck
78
Consider the series
Consider the series ​ . ​ Determine whether the geometric series converges or diverges. ​ If it converges, find its sum. .

Determine whether the geometric series converges or diverges.

If it converges, find its sum.
Unlock Deck
Unlock for access to all 110 flashcards in this deck.
Unlock Deck
k this deck
79
Consider the series
Consider the series ​ . ​ Determine whether the geometric series converges or diverges. ​ If it converges, find its sum. .

Determine whether the geometric series converges or diverges.

If it converges, find its sum.
Unlock Deck
Unlock for access to all 110 flashcards in this deck.
Unlock Deck
k this deck
80
Use the comparison test to determine whether the series is convergent or divergent.
Use the comparison test to determine whether the series is convergent or divergent. ​
Unlock Deck
Unlock for access to all 110 flashcards in this deck.
Unlock Deck
k this deck
locked card icon
Unlock Deck
Unlock for access to all 110 flashcards in this deck.
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