D Question 7 15 pts a) Use the Comparison Theorem to determine if the following integral...
use the comparison theorem to determine whether the integral is convergent or divergent (sin2.x )/(x)dx use the comparison theorem to determine whether the integral is convergent or divergent
Use the Comparison Theorem to determine whether the following integral is convergent or divergent. 1 who are 4ex dx ?
The help would be appreciated. 3. Use the Comparison Theorem to determine whether the integral is convergent or divergent. = arctan x or 2 e
We wish to determine by a comparison test whether or not the improper integral below is convergent. If it is convergent, we would like in addition to provide Question 2 an upper bound for its value. daz 1 point I= /25g5+91/2 Choose the correct reasoning 1/2 The integral is convergent since 25591/2> such that 0< for all: < 1 ,hence dr =4/9 1/4 1 1 and I 3z1/4 25z5 91/2 The integral is divergent since 25 9r 34 for all...
1. Use the Comparison Test to determine whether the integral is convergent or divergent. 2. Determine whether the integral conveges or diverges. Evaluate the integral in the case that it is convergent rinfinity 2/23 - 1dx 2 cln(2x)d.2
We wish to determine by a comparison test vwhether or not the improper integral below is convergent. If it is convergent, vwe would like in addition to provide an upper bound for its value. de -1621/4 2525 + Choose the correct reasoning. 1621/4 5 1631/4 for all such that 0 1,hence The integral is convergent since 251 1 do 1 1 - 2/7 and 4 J0 1/8 /255+161/4 41/8 161/4< 415 5 The integral is divergent since 25 + for...
Question 2 7 pts Theorem If A1, A2, .., A, are sets for n > 2, then (A, UA, U... A.) = (A) n(A)n... n(A) Upload Choose a File Question 3 6 pts o el DLL
We want to use the comparison test to determine whether (x + 2x 2/5 is convergent. Choose the correct argument. 0 1 ve for all < >1 and 42 The integral is convergent since — (x + 2x)2/5 22/5 0 2/5 /5-1 <0. 2 opent since a 125215 5 to for all z 2 1 and ſº 215 dz = 215–1 <0. his dvorantino e 23275 2 trail 2 2 1 um fio adig do = -0. 1 The integral...
Use the Ordinary Comparison Test to determine whether the series is convergent or divergent. 7 n - 1 n= 1 3. n = 1 n= 2
n-arctan(n) We want to use comparison test in order to determine whether the series is convergent or divergent. Which of the following is correct? n=2n2n+2n +5 Select one O a. It is divergent by comparison test with the series nen O b. It is convergent by comparison test with the series SIS M8 n c. It is divergent by comparison test with the series n=1nn о d. It is convergent by comparison test with the series 1n2 e. It is...