Answer to Question #206174 in Abstract Algebra for Sujata

Define a function "\\phi:\\text{Hom}(\\mathbb{Z},G) \\to G"

such that "\\phi(f)=f(1) \\forall f \\in \\text{Hom}(\\mathbb{Z},G)."

This function is well-defined since "f(n) = [f(1)]^n \\forall n \\in \\mathbb{Z}."

Let "f,g \\in \\text{Hom}(\\mathbb{Z},G)." Consider

"\\phi(fg)=(fg)(1)=f(1)g(1)=\\phi(f)\\phi(g)."

Hence "\\phi" is a homomorphism.

Next, suppose "\\phi(f)=\\phi(g)." Then "f(1)=g(1)." So "\\forall n \\in \\mathbb{Z}, f(n) = [f(1)]^n\\\\ = [g(1)]^n=g(n)."

Thus "f = g." Hence "\\phi" is one-to-one.

Finally, let "x \\in G." Define a function "\\psi:\\mathbb{Z}\\to G" such that "\\psi(n)=x^n\\forall n \\in \\mathbb{Z}." Let "m,n \\in \\mathbb{Z}." Consider

"\\psi(m+n) = x^{m+n}=x^mx^n = \\psi(m)\\psi(n)."

So "\\psi" is a homomorphism.

Hence "\\phi(\\psi) = \\psi(1)=x." Thus "\\psi" is onto.

Hence "\\phi" is an isomorphism.