Let S be a semigroup. Show that if the intersection of two subsemigroups of S is...

Let Y be a subspace of X and let S be a subset of Y. Show...

Let Y be a subspace of X and let S be a subset of Y. Show that the closure of S in Y coincides with the intersection between Y and the closure of S in X.

Let S be a collection of subsets of [n] such that any two subsets in S...

Let S be a collection of subsets of [n] such that any two subsets in S have a non-empty intersection. Show that |S| ≤ 2^(n−1).

For a nonempty subset S of a vector space V , define span(S) as the set...

For a nonempty subset S of a vector space V , define span(S) as the set of all linear combinations of vectors in S. (a) Prove that span(S) is a subspace of V . (b) Prove that span(S) is the intersection of all subspaces that contain S, and con- clude that span(S) is the smallest subspace containing S. Hint: let W be the intersection of all subspaces containing S and show W = span(S). (c) What is the smallest subspace...

Let m,n be integers. show that the intersection of the ring generated by n and the...

Let m,n be integers. show that the intersection of the ring generated by n and the ring generated by m is the ring generated by their least common multiple.

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

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....

Apply Newton's Method to approximate the x-value(s) of the indicated point(s) of intersection of the two...

Apply Newton's Method to approximate the x-value(s) of the indicated point(s) of intersection of the two graphs. Continue the iterations until two successive approximations differ by less than 0.001. [Hint: Let h(x) = f(x) − g(x).] f(x) = 2x + 2 g(x) = x + 9

Let ⋆ be an operation on a nonempty set S. If S1, S2 ⊂ S are...

Let ⋆ be an operation on a nonempty set S. If S1, S2 ⊂ S are closed with respect to ⋆, is S1 ∪ S2 closed with respect to ⋆? Justify your answer.

3. Assume √2 ∈R. Let S = { rational numbers q : q < √2 }....

3. Assume √2 ∈R. Let S = { rational numbers q : q < √2 }. (a)(i) Show that S is nonempty. (ii) Prove that S is bounded from above, but is not bounded from below. (b) Prove that supS = √2.

Show that every rectangle admits a circumscribed circle, whose center is the intersection of the two...

Show that every rectangle admits a circumscribed circle, whose center is the intersection of the two diagonals.