Prove that if a sequence an is NOT bounded above, then limsup an = infinity.

Prove that every bounded sequence has a convergent subsequence.

Prove that every bounded sequence has a convergent subsequence.

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

Problem 1 Let {an} be a decreasing and bounded sequence. Prove that limn→∞ an exists and...

Problem 1 Let {an} be a decreasing and bounded sequence. Prove that limn→∞ an exists and equals inf{an}.

Prove that X is totally bounded if every sequence of X has a convergent subsequence. Please...

Prove that X is totally bounded if every sequence of X has a convergent subsequence. Please directly prove it without using any theorem on totally boundedness.

Suppose {xn} is a sequence of real numbers that converges to +infinity, and suppose that {bn}...

Suppose {xn} is a sequence of real numbers that converges to +infinity, and suppose that {bn} is a sequence of real numbers that converges. Prove that {xn+bn} converges to +infinity.

Using the definition of convergence of a sequence, prove that the sequence converges to the proposed...

Using the definition of convergence of a sequence, prove that the sequence converges to the proposed limit. lim (as n goes to infinity) 1/(n^2) = 0

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.

Given that xn is a sequence of real numbers. If (xn) is a convergent sequence prove...

Given that xn is a sequence of real numbers. If (xn) is a convergent sequence prove that (xn) is bounded. That is, show that there exists C > 0 such that |xn| less than or equal to C for all n in N.

Suppose S is a subset of the Reals and is non-empty and bounded above. Prove that...

Suppose S is a subset of the Reals and is non-empty and bounded above. Prove that alpha = supS if and only if , for every epsilon > 0 , there is and element x in S such that alpha - epsilon <x

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.