Inverse of Inverse of Bijection/Proof 1
Theorem
Let $f: S \to T$ be a bijection.
Then:
- $\paren {f^{-1} }^{-1} = f$
where $f^{-1}$ is the inverse of $f$.
Proof
Let $f: S \to T$ be a bijection.
From Composite of Bijection with Inverse is Identity Mapping we have:
- $f^{-1} \circ f = I_S$
- $f \circ f^{-1} = I_T$
where $I_S$ and $I_T$ are the identity mappings on $S$ and $T$ respectively.
The result follows from Left and Right Inverses of Mapping are Inverse Mapping.
$\blacksquare$
Sources
- 1965: Seth Warner: Modern Algebra ... (previous) ... (next): Chapter $\text I$: Algebraic Structures: $\S 5$: Composites and Inverses of Functions: Theorem $5.5$
- 1978: Thomas A. Whitelaw: An Introduction to Abstract Algebra ... (previous) ... (next): $\S 25.3$: Some further results and examples on mappings
- 1996: H. Jerome Keisler and Joel Robbin: Mathematical Logic and Computability ... (previous) ... (next): Appendix $\text{A}.7$: Inverses: Proposition $\text{A}.7.5 \ (2)$