A) Use the Comparison Test to determine whether integral from 2 to infinity x/ sqrt(x^3 -1)dx...

Prove that the integral from 0 to Infinity (sin^2(x)e^-x)dx converges using the comparison test.

Prove that the integral from 0 to Infinity (sin^2(x)e^-x)dx converges using the comparison test.

Summation from n=2 to infinity of ln(n)/n^2 * x^n a.) Let x=-1, and compute the integral...

Summation from n=2 to infinity of ln(n)/n^2 * x^n a.) Let x=-1, and compute the integral test to determine whether this it is convergent or divergent b.) Compute the ratio test to determine the interval of convergence and explain what this interval represents. I'm really confused with this problem (specifically a)- please write out all of the details of computing the integral so I can understand. Thank you!

Determine whether the improper integral from 5 to infinity 3/square root x dx converges or​ diverges,...

Determine whether the improper integral from 5 to infinity 3/square root x dx converges or​ diverges, and find the value if it converges. Select the correct choice below and fill in any answer boxes within your choice. A. The value of the integral B.The integral diverges.

integral from -6 to 6 of sqrt(36-x^2)^3 dx

integral from -6 to 6 of sqrt(36-x^2)^3 dx

Use the RATIO test to determine whether the series is convergent or divergent. a) sigma from...

Use the RATIO test to determine whether the series is convergent or divergent. a) sigma from n=1 to infinity of (1/n!) b) sigma from n=1 to infinity of (2n)!/(3n) Use the ROOT test to determine whether the series converges or diverges. a) sigma from n=1 to infinity of    (tan-1(n))-n b) sigma from n=1 to infinity of ((-2n)/(n+1))5n For each series, use and state any appropriate tests to decide if it converges or diverges. Be sure to verify all necessary...

Evaluate the integral using trig substitution. definite integral from 1 to sqrt(2) 6 / (x^2 sqrt(4-x^2))dx...

Evaluate the integral using trig substitution. definite integral from 1 to sqrt(2) 6 / (x^2 sqrt(4-x^2))dx (a) write the definition for x using the triangle (b) write the new integral before any simplification (c) write the new integral after simplifying and in the form ready to integrate (d) write the solution in simplified exact form write all answers next to the specified letter above

We want to use comparison test in order to determine whether the series   is convergent or divergent....

We want to use comparison test in order to determine whether the series   is convergent or divergent. Which of the following is correct?

How come integral -1 to 1 (sqrt (1+x^2)) dx can be the same as 2* integral...

How come integral -1 to 1 (sqrt (1+x^2)) dx can be the same as 2* integral 0 to 1 (sqrt(1+x^2))dx ??   

Determine whether the given series is convergent or divergent. Show you work and state the theorem/test...

Determine whether the given series is convergent or divergent. Show you work and state the theorem/test you use. Σ (2)/(sqrt(n)+2) n=1 and upper infinity

Determine whether the given series is convergent or divergent. Show you work and state the theorem/test...

Determine whether the given series is convergent or divergent. Show you work and state the theorem/test you use. Σ(-1)^n (sqrt(n))/(2n+3) n=1 and upper infinity