I know that sequence cos(1/n) is bounded but how to show that the sequence {cos(1/n) is...

Determine whether the sequence is increasing, decreasing, or monotonic. Is the sequence bounded? an= 9n +...

Determine whether the sequence is increasing, decreasing, or monotonic. Is the sequence bounded? an= 9n + 1/n

Conception about bounded let an is a sequence, an=(1,2,3,9,7,9,0) Can I say the sequence is bounded...

Conception about bounded let an is a sequence, an=(1,2,3,9,7,9,0) Can I say the sequence is bounded 0<=an<=9 ??? Please answer this example and also give me another example about bounded.

how do I show if the series sigma(n=1 to infinity) cos(npi/3)/(n!) is divergent, conditionally convergent, or...

how do I show if the series sigma(n=1 to infinity) cos(npi/3)/(n!) is divergent, conditionally convergent, or absolutely convergent?

If (x_n) is a convergent sequence prove that (x_n) is bounded. That is, show that there...

If (x_n) is a convergent sequence prove that (x_n) is bounded. That is, show that there exists C>0 such that abs(x_n) is less than or equal to C for all n in naturals

Explain why each sequence diverges: {cos nπ} {1+(-1)^n} {sqrt(n)}

Explain why each sequence diverges: {cos nπ} {1+(-1)^n} {sqrt(n)}

1. Find the limit of the sequence whose terms are given by an= (n^2)(1-cos(5.6/n)) 2. for...

1. Find the limit of the sequence whose terms are given by an= (n^2)(1-cos(5.6/n)) 2. for the sequence an= 2(an-1 - 2) and a1=3 the first term is? the second term is? the third term is? the forth term is? the fifth term is?

Show that a bounded decreasing sequence converges to its greatest lower bound.

Show that a bounded decreasing sequence converges to its greatest lower bound.

Suppose (an) is an increasing sequence of real numbers. Show, if (an) has a bounded subsequence,...

Suppose (an) is an increasing sequence of real numbers. Show, if (an) has a bounded subsequence, then (an) converges; and (an) diverges to infinity if and only if (an) has an unbounded subsequence.

Show that the series \sum_{n=1}^{\infty} 1/(x^2 + n^2) defines a differentiable function f: R -> R...

Show that the series \sum_{n=1}^{\infty} 1/(x^2 + n^2) defines a differentiable function f: R -> R for which f' is continuous. I'm thinking about using Cauchy Criterion to solve it, but I got stuck at trying to find the N such that the sequence of the partial sum from m+1 to n is bounded by epsilon

Why we can let sequence an=1/2n(pi) to be a sequence of function 2xsin(1/x)-cos(1/x)??? Please explain it.

Why we can let sequence an=1/2n(pi) to be a sequence of function 2xsin(1/x)-cos(1/x)??? Please explain it.