Let X = (xn) be a sequence in R^p which is convergent to x. Show that...

Let (xn) be Cauchy in (M, d) and a ∈ M. Show that the sequence d(xn,...

Let (xn) be Cauchy in (M, d) and a ∈ M. Show that the sequence d(xn, a) converges in R. (Note: It is not given that xn converges to a. Hint: Use Reverse triangle inequality.)

let xn be a sequence in R do lim sup xn and lim inf xn always...

let xn be a sequence in R do lim sup xn and lim inf xn always exist R # and why

If (xn) ∞ to n=1 is a convergent sequence with limn→∞ xn = 0 prove that...

If (xn) ∞ to n=1 is a convergent sequence with limn→∞ xn = 0 prove that lim n→∞ (x1 + x2 + · · · + xn)/ n = 0 .

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.

Let 0 < θ < 1 and let (xn) be a sequence where |xn+1 − xn|...

Let 0 < θ < 1 and let (xn) be a sequence where |xn+1 − xn| ≤ θn  for n = 1, 2, . . .. a) Show that for any 1 ≤ n < m one has |xm − xn| ≤ (θn/ 1-θ )*(1 − θ m−n ). Conclude that (xn) is Cauchy b)If lim xn = x* , prove the following error in approximation (the "error in approximation" is the same as error estimation in Taylor Theorem) in t:...

Find an example of a sequence, {xn}, that does not converge, but has a convergent subsequence....

Find an example of a sequence, {xn}, that does not converge, but has a convergent subsequence. Explain why {xn} (the divergent sequence) must have an infinite number of convergent subsequences.

let Xn be a sequence in a metric space X . If Xn -> x in...

let Xn be a sequence in a metric space X . If Xn -> x in X iff every neighbourhood of x contains all but finitely many points of the terms of {Xn}

Let {xn} be a non-decreasing sequence and assume that xn goes to x as n goes...

Let {xn} be a non-decreasing sequence and assume that xn goes to x as n goes to infinity. Show that for all, n in N (naturals), xn < x. Formulate and prove an analogous result for a non-increasing sequences.

If (xn) is a sequence of nonzero real numbers and if limn→∞ xn = x where...

If (xn) is a sequence of nonzero real numbers and if limn→∞ xn = x where x does not equal zero; prove that lim n→∞ 1/ xn = 1/x

4.2.7. Example. If (xn) is a sequence in (0, ∞) and xn → a, then √xn...

4.2.7. Example. If (xn) is a sequence in (0, ∞) and xn → a, then √xn → √a. ? Proof. Problem. Hint. There are two possibilities: treat the cases a = 0 and a > 0 sepa- √√ rately. For the first use problem 4.1.7(a). For the second use 4.2.1(b) and 4.1.11; write xn − a as |xn − a|/(√xn + √a). Then find an inequality that allows you to use the sandwich theo- rem(proposition 4.2.5).