Which of the following sequences meet the conditions of the integral​ test? An = n(sin(n) +1)...

(1) State the Bolzano–Weierstraß theorem. Prove that the following sequences have convergent subsequences: (a) {sin(n)} (b)...

(1) State the Bolzano–Weierstraß theorem. Prove that the following sequences have convergent subsequences: (a) {sin(n)} (b) 2n 2+5n+6 n2+12n+20 cos(n 2 )

Which of the following amino acid sequences for a segment of an integral protein is likely...

Which of the following amino acid sequences for a segment of an integral protein is likely to correspond to a transmembrane segment of the protein? Explain. A) LSTTEVAMHTTTSSSVSKSY B) SQTNDTHKRDTYAATPRA C) VSEISVRTVYPPEEETGE D) ITLIIFGVMAGVIGTILLI E) YGIRRLIKKSPSDVKPLP

Determine the limits of the following sequences. The prove your claims using an e - N...

Determine the limits of the following sequences. The prove your claims using an e - N argument. a. an = n / (n2 + 1) b. bn = (4n + 3) / (7n - 5) c. cn = 1/n sin(n)

1. Integral sin(x+1)sin(2x)dx 2.Integral xe^x dx 3. integral ln sqrt(x) dx 4. integral sqrt(x) lnx dx

1. Integral sin(x+1)sin(2x)dx 2.Integral xe^x dx 3. integral ln sqrt(x) dx 4. integral sqrt(x) lnx dx

(1 point) Determine the sum of the following series. ∑n=1∞(sin(−1/n)−sin(−1/(n+1))  

(1 point) Determine the sum of the following series. ∑n=1∞(sin(−1/n)−sin(−1/(n+1))  

1.You evaluate an indefinite integral and obtain the following expression for an answer 1/5 sin(1+5x) +...

1.You evaluate an indefinite integral and obtain the following expression for an answer 1/5 sin(1+5x) + C. What was the integrand of the indefinite integral that you evaluated? 2.You evaluate an indefinite integral and obtain the following expression for an answer: -1/4(x^4 - 5) + C. What was the integrand of the indefinite integral that you evaluated?

Determine the convergence/divergence of the following series using the integral test: a.) ∑= (1)/n(In(n))^2 (Upper limit...

Determine the convergence/divergence of the following series using the integral test: a.) ∑= (1)/n(In(n))^2 (Upper limit of sigma is ∞ ,and the lower limit of sigma is n=2) b.) ∑ (n-4)/(n^2-2n+1) (Upper limit of sigma is ∞ and the lower limit of the sigma is n=2 c.)∑ (n)/(n^2+1) (Upper limit of sigma ∞ and the lower limit sigma is n=1) d.) ∑ e^-n^2 (Upper limit of sigma ∞ and the lower limit sigma is n=1)

Sigma n=1 to infinite (-1)^n sin(pi/n) I confuse about this alternative test I know this function...

Sigma n=1 to infinite (-1)^n sin(pi/n) I confuse about this alternative test I know this function F(x) = sin(pi/n) should be decreasing for all n value. but it is not decreasing when n =1 , n=2 but the answer is convergent. so how I figure out this one, is it okay to ignore when n is 1 or 2? then why? cause the condition said, Function must be decreasing for all n value.

Determine whether the following sequences converge or diverge. If it converges, find the limit. Must show...

Determine whether the following sequences converge or diverge. If it converges, find the limit. Must show work 1.)an = nsin(1/n) 2.)an = sin(n) 3).an =4^n /1 + 9^n 4).an = ln(n+1) − ln(n)

Determine whether the following sequences converge or diverge. If a sequence converges, find its limit. If...

Determine whether the following sequences converge or diverge. If a sequence converges, find its limit. If a sequence diverges, explain why. (a) an = ((-1)nn)/ (n+sqrt(n)) (b) an = (sin(3n))/(1- sqrt(n))