Let E⊆R (R: The set of all real numbers) Prove that E is sequentially compact if...

Let A be the set of all real numbers, and let R be the relation "less...

Let A be the set of all real numbers, and let R be the relation "less than." Determine whether or not the given relation R, on the set A, is reflexive, symmetric, antisymmetric, or transitive.

Let R*= R\ {0} be the set of nonzero real numbers. Let G= {2x2 matrix: row...

Let R*= R\ {0} be the set of nonzero real numbers. Let G= {2x2 matrix: row 1(a b) row 2 (0 a) | a in R*, b in R} (a) Prove that G is a subgroup of GL(2,R) (b) Prove that G is Abelian

Let R be a relation on set RxR of ordered pairs of real numbers such that...

Let R be a relation on set RxR of ordered pairs of real numbers such that (a,b)R(c,d) if a+d=b+c. Prove that R is an equivalence relation and find equivalence class [(0,b)]R

Prove Corollary 4.22: A set of real numbers E is closed and bounded if and only...

Prove Corollary 4.22: A set of real numbers E is closed and bounded if and only if every infinite subset of E has a point of accumulation that belongs to E. Use Theorem 4.21: [Bolzano-Weierstrass Property] A set of real numbers is closed and bounded if and only if every sequence of points chosen from the set has a subsequence that converges to a point that belongs to E. Must use Theorem 4.21 to prove Corollary 4.22 and there should...

Prove: Let S be a bounded set of real numbers and let a > 0. Define...

Prove: Let S be a bounded set of real numbers and let a > 0. Define aS = {as : s ∈ S}. Show that inf(aS) = a*inf(S).

Let (sn) be a sequence. Consider the set X consisting of real numbers x∈R having the...

Let (sn) be a sequence. Consider the set X consisting of real numbers x∈R having the following property: There exists N∈N s.t. for all n > N, sn< x. Prove that limsupsn= infX.

I have a discrete math question. let R be a relation on the set of all...

I have a discrete math question. let R be a relation on the set of all real numbers given by cry if and only if x-y = 2piK for some integer K. prove that R is an equivalence relation.

Let R be the relation on the set of real numbers such that xRy if and...

Let R be the relation on the set of real numbers such that xRy if and only if x and y are real numbers that differ by less than 1, that is, |x − y| < 1. Which of the following pair or pairs can be used as a counterexample to show this relation is not an equivalence relation? A) (1, 1) B) (1, 1.8), (1.8, 3) C) (1, 1), (3, 3) D) (1, 1), (1, 1.5)

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.

Prove the statement " For all real numbers r, if r is irrational, then r/2 is...

Prove the statement " For all real numbers r, if r is irrational, then r/2 is irrational ". You may use any method you wish. Be sure to state what method of proof you are using.