An intro to real analysis question. eazy?

In summary, if f : A -> B is a bijection and g is a function such that f(g(x)) = x for all x ϵ B and g(f(x)) = x for all x ϵ A, then g = f^-1. This can be proven by showing that g is the unique inverse of f, meaning that it is the only function that satisfies the conditions and maps f back to A. This can be shown using the definitions of a function and the inverse of a function.
  • #1
eibon
27
0

Homework Statement



Let f : A -> B be a bijection. Show that if a function g is such that f(g(x)) = x for
all x ϵ B and g(f(x)) = x for all x ϵ A, then g = f^-1. Use only the definition of a
function and the definition of the inverse of a function.


Homework Equations





The Attempt at a Solution


well since f is a bijection then there exist an f^-1 that remaps f back to A and since g does that then g is the unique inverse of f, or something like that please help I am not very good that this stuff
 
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  • #2
Yes, you only need to prove uniqueness of an inverse function. If f(g(x))=x, then g(x) must be the unique argument a for which f(a) = x. And so, this condition completely defines g for all the arguments. g is then obviously equal to f-1.
 
  • #3
thanks losiu for your response.
but how do you prove that it is the unique inverse?
 

Related to An intro to real analysis question. eazy?

1. What is real analysis?

Real analysis is a branch of mathematics that deals with the study of real numbers and their properties. It involves the use of rigorous mathematical proofs and techniques to analyze and understand the behavior of real-valued functions.

2. Why is real analysis important?

Real analysis is important because it serves as the foundation for many other branches of mathematics, such as calculus, differential equations, and complex analysis. It also has applications in various fields, including physics, engineering, and economics.

3. What are some key concepts in real analysis?

Some key concepts in real analysis include limits, continuity, differentiability, and integrals. These concepts are used to study the behavior of functions and to solve problems in various mathematical theories.

4. How is real analysis different from calculus?

While calculus deals with the study of functions and their rates of change, real analysis focuses on the properties and behaviors of real numbers and functions. Real analysis also uses more rigorous mathematical proofs and techniques compared to calculus.

5. Is real analysis difficult to learn?

Real analysis can be challenging for some, as it requires a strong understanding of mathematical concepts and the ability to think abstractly. However, with practice and dedication, it is possible to grasp the fundamentals and excel in this field of study.

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