Suppose f and g are the set of complex numbers such that there are function lim...

Let g be a function from set A to set B and f be a function...

Let g be a function from set A to set B and f be a function from set B to set C. Assume that f °g is one-to-one and function f is one-to-one. Using proof by contradiction, prove that function g must also be one-to-one (in all cases).

1. Let Z[i] denote the set of all ‘complex numbers with integer coefficients’:the set of all...

1. Let Z[i] denote the set of all ‘complex numbers with integer coefficients’:the set of all a + bi such that a and b are integers. We say that z is composite if there exist two complex integers v and w such that z=vw and |v|>1 and |w|>1. Then z is prime if it is not composite A) Prove that every complex integer z, |z| > 1, can be expressed as a product of prime complex integers.

Let f be a continuous function. Suppose theres a sequence (x_n) in [0,1] where lim f(x_n))=5....

Let f be a continuous function. Suppose theres a sequence (x_n) in [0,1] where lim f(x_n))=5. Prove there is a point x in [0,1] where f(x)=5.

Consider the expression lim as x→∞ of g(x)^f(x). Suppose we know lim as x→∞ of g(x)...

Consider the expression lim as x→∞ of g(x)^f(x). Suppose we know lim as x→∞ of g(x) = 1 lim as x→∞ of f(x) = ∞ Explain using sentences (that can include mathematical symbols and expressions) how you would approach evaluating this limit.

Suppose that an is a sequence and lim sup an =a=lim inf an for some a...

Suppose that an is a sequence and lim sup an =a=lim inf an for some a in Real numbers. Prove that an converges to a

Let f : A → B and suppose that there exists a function g : B...

Let f : A → B and suppose that there exists a function g : B → A such that (g ◦ f)(a) = a and (f ◦ g)(b) = b. Prove that g = f −1 . Thank you!

It is said that a set A ⊆ C (complex set) is countable if there exist...

It is said that a set A ⊆ C (complex set) is countable if there exist a bijective function of natural numbers to A i.e. f: N -> C . ¿Is it possible to have a connected and countable set ? the idea is that we want to see if this is true in complex numbers

Prove that a function f(z) which is complex differentiable at a point z0 satisfies the Cauchy-Riemann...

Prove that a function f(z) which is complex differentiable at a point z0 satisfies the Cauchy-Riemann equations at that point.

How do you compose two functions, f and g, when the image of the first function...

How do you compose two functions, f and g, when the image of the first function is not a subset of the domain of the second function? Example: Let g be the map from the Riemann sphere to the complex numbers (where g((0,0,1))=infinity) and f be the conjugation map from the complex numbers to the complex numbers. How can one compute f(g((0,0,1))) when infinity is not a complex number?

Definition:In the complex numbers, let J denote the set, {x+y√3i :x and y are in Z}....

Definition:In the complex numbers, let J denote the set, {x+y√3i :x and y are in Z}. J is an integral domain containing Z. If a is in J, then N(a) is a non-negative member of Z. If a and b are in J and a|b in J, then N(a)|N(b) in Z. The units of J are 1, -1 Question:If a and b are in J and ab = 2, then prove one of a and b is a unit. Thus,...