diff options
| -rw-r--r-- | provider/posts/simmons-intro-to-cat-t/1.2.md | 2 |
1 files changed, 1 insertions, 1 deletions
diff --git a/provider/posts/simmons-intro-to-cat-t/1.2.md b/provider/posts/simmons-intro-to-cat-t/1.2.md index 30d0492..bb6c1ad 100644 --- a/provider/posts/simmons-intro-to-cat-t/1.2.md +++ b/provider/posts/simmons-intro-to-cat-t/1.2.md | |||
| @@ -5,7 +5,7 @@ tags: Category Theory | |||
| 5 | --- | 5 | --- |
| 6 | 6 | ||
| 7 | <div class="exercise"> | 7 | <div class="exercise"> |
| 8 | Let $\ca{Pno}$ be the category of objects $(A, \alpha, a)$ where $A$ is a set, $\alpha : A \to A$ is a unary function, and $a \in A$ is a nominated Element and morphisms $\arr{(A, \alpha, a)}{}{(B, \beta, b)}$ which are functions $f: A \to B$ preserving the structure such that $f \circ \alpha = \beta \circ f$ and $f(a) = b$. | 8 | Let $\ca{Pno}$ be the category of objects $(A, \alpha, a)$ where $A$ is a set, $\alpha : A \to A$ is a unary function, and $a \in A$ is a nominated element and morphisms $\arr{(A, \alpha, a)}{}{(B, \beta, b)}$ which are functions $f: A \to B$ preserving the structure such that $f \circ \alpha = \beta \circ f$ and $f(a) = b$. |
| 9 | 9 | ||
| 10 | a) Verify that $\ca{Pno}$ is a category | 10 | a) Verify that $\ca{Pno}$ is a category |
| 11 | 11 | ||