Let S be the set R\{0,1,2}. Define functions from S to S by f(x) = 2−x,...

Let S be the set R∖{0,1}. Define functions from S to S by ϵ(x)=x, f(x)=1/(1−x), g(x)=(x−1)/x....

Let S be the set R∖{0,1}. Define functions from S to S by ϵ(x)=x, f(x)=1/(1−x), g(x)=(x−1)/x. Show that the collection {ϵ,f,g} generates a group under composition and compute the group operation table.

Let f and g be continuous functions on the reals and let S={x in R |...

Let f and g be continuous functions on the reals and let S={x in R | f(x)>=g(x)} . Show that S is a closed set.

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 S be the set of all functions from Z to Z, and consider the relation...

Let S be the set of all functions from Z to Z, and consider the relation on S: R = {(f,g) : f(0) + g(0) = 0}. Determine whether R is (a) reflexive; (b) symmetric; (c) transitive; (d) an equivalence relation.

Let H be a subgroup of the group G. Define a set B by B =...

Let H be a subgroup of the group G. Define a set B by B = {x ∈ G | xax−1 ∈ H for all a ∈ H}. Show that H < B.

(a) Consider x^2 + 7x + 15 = f(x) and e^x = g(x) which are vectors...

(a) Consider x^2 + 7x + 15 = f(x) and e^x = g(x) which are vectors of F(R, R) with the usual addition and scalar multiplication. Are these functions linearly independent? (b) Let S be a finite set of linearly independent vectors {u1, u2, · · · , un} over the field Z2. How many vectors are in Span(S)? (c) Is it possible to find three linearly dependent vectors in R^3 such that any two of the three are not...

1. Let A = {1,2,3,4} and let F be the set of all functions f from...

1. Let A = {1,2,3,4} and let F be the set of all functions f from A to A. Prove or disprove each of the following statements. (a)For all functions f, g, h∈F, if f◦g=f◦h then g=h. (b)For all functions f, g, h∈F, iff◦g=f◦h and f is one-to-one then g=h. (c) For all functions f, g, h ∈ F , if g ◦ f = h ◦ f then g = h. (d) For all functions f, g, h ∈...

Let C [0,1] be the set of all continuous functions from [0,1] to R. For any...

Let C [0,1] be the set of all continuous functions from [0,1] to R. For any f,g ∈ C[0,1] define dsup(f,g) = maxxE[0,1] |f(x)−g(x)| and d1(f,g) = ∫10 |f(x)−g(x)| dx. a) Prove that for any n≥1, one can find n points in C[0,1] such that, in dsup metric, the distance between any two points is equal to 1. b) Can one find 100 points in C[0,1] such that, in d1 metric, the distance between any two points is equal to...

Let X be the set {1, 2, 3}. a)For each function f in the set of...

Let X be the set {1, 2, 3}. a)For each function f in the set of functions from X to X, consider the relation that is the symmetric closure of the function f'. Let us call the set of these symmetric closures Y. List at least two elements of Y. b) Suppose R is some partial order on X. What is the smallest possible cardinality R could have? What is the largest?

Let X be any set and let (G, ·) be a group. Let homset(X, G) be...

Let X be any set and let (G, ·) be a group. Let homset(X, G) be the set of all functions with domain X and codomain G. Prove that (homset(X, G), ∗), where (f ∗ g)(x) := f(x) · g(x), is a group.