Let A⊆R be a nonempty set, which is bounded above. Let B={a-5:a∈ A}. Prove that sup(B)=sup(A)-5

Suppose A ⊆ R is nonempty and bounded above and β ∈ R. Let A +...

Suppose A ⊆ R is nonempty and bounded above and β ∈ R. Let A + β = {a + β : a ∈ A} Prove that A + β has a supremum and sup(A + β) = sup(A) + β.

let A be a nonempty subset of R that is bounded below. Prove that inf A...

let A be a nonempty subset of R that is bounded below. Prove that inf A = -sup{-a: a in A}

1. (a) Let S be a nonempty set of real numbers that is bounded above. Prove...

1. (a) Let S be a nonempty set of real numbers that is bounded above. Prove that if u and v are both least upper bounds of S, then u = v. (b) Let a > 0 be a real number. Define S := {1 − a n : n ∈ N}. Prove that if epsilon > 0, then there is an element x ∈ S such that x > 1−epsilon.

Let f : [a,b] → R be a bounded function and let:             M = sup...

Let f : [a,b] → R be a bounded function and let:             M = sup f(x)             m = inf f(x)             M* =sup |f(x)|             m* =inf |f(x)| assuming you are taking values of x that lie in [a,b]. Is it true that M* - m* ≤ M - m ? If it is true, prove it. If it is false, find a counter example.

Let S and T be nonempty subsets of R with the following property: s ≤ t...

Let S and T be nonempty subsets of R with the following property: s ≤ t for all s ∈ S and t ∈ T. (a) Show that S is bounded above and T is bounded below. (b) Prove supS ≤ inf T . (c) Given an example of such sets S and T where S ∩ T is nonempty. (d) Give an example of sets S and T where supS = infT and S ∩T is the empty set....

Prove that if E ⊂ R is bounded and sup E ∈ E or inf E...

Prove that if E ⊂ R is bounded and sup E ∈ E or inf E ∈ E, then E is not open. Analysis question (R refers to the real numbers).

Let S be a nonempty set in Rn, and its support function be σS = sup{...

Let S be a nonempty set in Rn, and its support function be σS = sup{ <x,z> : z ∈ S}. let conv(S) denote the convex hull of S. Show that σS (x)= σconv(S) (x), for all x ∈ Rn

Question 3. Let a1,...,an ∈R. Prove that (a1 + a2 + ... + an)2 /n ≤...

Question 3. Let a1,...,an ∈R. Prove that (a1 + a2 + ... + an)2 /n ≤ (a1)2 + (a2)2 + ... + (an)2. Question 5. Let S ⊆R and T ⊆R be non-empty. Suppose that s ≤ t for all s ∈ S and t ∈ T. Prove that sup(S) ≤ inf(T). Question 6. Let S ⊆ R and T ⊆ R. Suppose that S is bounded above and T is bounded below. Let U = {t−s|t ∈ T, s...

Let A be a nonempty set. Prove that the set S(A) = {f : A →...

Let A be a nonempty set. Prove that the set S(A) = {f : A → A | f is one-to-one and onto } is a group under the operation of function composition.

Let A be open and nonempty and f : A → R. Prove that f is...

Let A be open and nonempty and f : A → R. Prove that f is continuous at a if and only if f is both upper and lower semicontinuous at a.