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...

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 F be a subfield of a field K satisfying the condition that the dimension of...

Let F be a subfield of a field K satisfying the condition that the dimension of K as a vector space over F is finite and equal to r. Let V be a vector space of finite dimension n > 0 over K. Find the dimension of V as a vector space over F

Let I= (x2 +2) in Z7 [x] , and let R be the factor ring Z7...

Let I= (x2 +2) in Z7 [x] , and let R be the factor ring Z7 [x] / I. a) Prove that every element of R can be written in the form f + I where f is an element of Z7 [x] and deg(f0< or =2 or f=0. That is, R={ f + I : f in Z7 [x] and (deg (f) , or=2 or f=0)}

Let f: R -> R and g: R -> R be differentiable, with g(x) ≠ 0...

Let f: R -> R and g: R -> R be differentiable, with g(x) ≠ 0 for all x. Assume that g(x) f'(x) = f(x) g'(x) for all x. Show that there is a real number c such that f(x) = cg(x) for all x. (Hint: Look at f/g.) Let g: [0, ∞) -> R, with g(x) = x2 for all x ≥ 0. Let L be the line tangent to the graph of g that passes through the point...

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 f: [0, 1] --> R be defined by f(x) := x. Show that f is...

Let f: [0, 1] --> R be defined by f(x) := x. Show that f is in Riemann integration interval [0, 1] and compute the integral from 0 to 1 of the function f using both the definition of the integral and Riemann (Darboux) sums.

Show an example of F(x,y) defined on [0,+∞)× [0, +∞) such that (i) F(0,0) = 0,...

Show an example of F(x,y) defined on [0,+∞)× [0, +∞) such that (i) F(0,0) = 0, (ii) F(+∞,+∞)=1 (iii) for every x ≥ 0, F (x, y) is increasing in y; for every y ≥ 0, F (x, y) is increasing in x, (iv) and yet, F(x,y) is not a valid joint CDF function. That is, there is no random vector (X, Y ) whose joint CDF is F .

Let f : [0, 1] → R be continuous with [0, 1] ⊆ f([0, 1]). Show...

Let f : [0, 1] → R be continuous with [0, 1] ⊆ f([0, 1]). Show that there is a c ∈ [0, 1] such that f(c) = c.

4a). Let g be continuous at x = 0. Show that f(x) = xg(x) is differentiable...

4a). Let g be continuous at x = 0. Show that f(x) = xg(x) is differentiable at x = 0 and f'(0) = g(0). 4b). Let f : (a,b) to R and p in (a,b). You may assume that f is differentiable on (a,b) and f ' is continuous at p. Show that f'(p) > 0 then there is delta > 0, such that f is strictly increasing on D(p,delta). Conclude that on D(p,delta) the function f has a differentiable...

Let f : R → R be defined by f(x) = x^3 + 3x, for all...

Let f : R → R be defined by f(x) = x^3 + 3x, for all x. (i) Prove that if y > 0, then there is a solution x to the equation f(x) = y, for some x > 0. Conclude that f(R) = R. (ii) Prove that the function f : R → R is strictly monotone. (iii) By (i)–(ii), denote the inverse function (f ^−1)' : R → R. Explain why the derivative of the inverse function,...