Let f be any isometry of R . Show that f takes circles to circles.

Let f be any isometry of R . Show that f preserves angles.

Let f be any isometry of R . Show that f preserves angles.

Prove any isometry of R^2 is bijection and its inverse is an isometry.

Prove any isometry of R^2 is bijection and its inverse is an isometry.

Let f: R --> R be a differentiable function such that f' is bounded. Show that...

Let f: R --> R be a differentiable function such that f' is bounded. Show that f is uniformly continuous.

Let R = R[x], f ∈ R \ {0}, and I = (f). Show that R/I...

Let R = R[x], f ∈ R \ {0}, and I = (f). Show that R/I is an integral domain if and only if f is an irreducible polynomial.

Let R = R[x], f ∈ R \ {0}, and I = (f). Show that R/I...

Let R = R[x], f ∈ R \ {0}, and I = (f). Show that R/I is a real vector space of dimension equal to deg(f).

Let f : R → R be a continuous function which is periodic. Show that f...

Let f : R → R be a continuous function which is periodic. Show that f is bounded and has at least one fixed point.

Problem 2. Let F : R → R be any function (not necessarily measurable!). Prove that...

Problem 2. Let F : R → R be any function (not necessarily measurable!). Prove that the set of points x ∈ R such that F(y) ≤ F(x) ≤ F(z) for all y ≤ x and z ≥ x is Borel set.

Let f: [a,b] to R be continuous and strictly increasing on (a,b). Show that f is...

Let f: [a,b] to R be continuous and strictly increasing on (a,b). Show that f is strictly increasing on [a,b].

Let (X , X) be a measurable space. Show that f : X → R is...

Let (X , X) be a measurable space. Show that f : X → R is measurable if and only if {x ∈ X : f(x) > r} is measurable for every r ∈ Q.

Let R be any rotation and F be any reflection in the dihedral group Dn where...

Let R be any rotation and F be any reflection in the dihedral group Dn where n>= 3. a) Prove that FRF=R^-1 b) Prove that if FR=RF then R=R0 or R=R180 c) Prove that Dn is not Abelian