Subsection 5.4.9 (00FR): Monoids With Respect to the Right Tensor Product of Pointed Sets

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The category of monoids on $\smash {\webleft (\mathsf{Sets}_{*},\rhd ,S^{0}\webright )}$ is isomorphic to the category of “monoids with right zero”¹ and morphisms between them.

¹A monoid with right zero is defined similarly as the monoids with zero of

. Succinctly, they are monoids $\webleft (A,\mu _{A},\eta _{A}\webright )$ with a special element $0_{A}$ satisfying

\[ 0_{A}a=0_{A} \]

for each $a\in A$.

Monoids on $\webleft (\mathsf{Sets}_{*},\rhd ,S^{0}\webright )$

A monoid on $\webleft (\mathsf{Sets}_{*},\rhd ,S^{0}\webright )$ consists of:

The Underlying Object. A pointed set $\webleft (A,0_{A}\webright )$.
The Multiplication Morphism. A morphism of pointed sets

\[ \mu _{A}\colon A\rhd A\to A, \]

determining a right bilinear morphism of pointed sets
The Unit Morphism. A morphism of pointed sets

\[ \eta _{A}\colon S^{0}\to A \]

picking an element $1_{A}$ of $A$.

satisfying the following conditions:

Associativity. The diagram
Left Unitality. The diagram

commutes.
Right Unitality. The diagram

commutes.

Being a right-bilinear morphism of pointed sets, the multiplication map satisfies

\[ 0_{A}a=0_{A} \]

for each $a\in A$. Now, the associativity, left unitality, and right unitality conditions act on elements as follows:

Associativity. The associativity condition acts as
This gives
\[ \webleft (ab\webright )c=a\webleft (bc\webright ) \]

for each $a,b,c\in A$.
Left Unitality. The left unitality condition acts as
This gives
\[ 1_{A}a=a \]

for each $a\in A$.
Right Unitality. The right unitality condition acts:
1. On $1\rhd 0$ as
2. On $a\rhd 1$ as
This gives

\begin{align*} a1_{A} & = a,\\ a0_{A} & = 0_{A} \end{align*}

for each $a\in A$.

Thus we see that monoids with respect to $\rhd $ are exactly monoids with right zero.

Morphisms of Monoids on $\webleft (\mathsf{Sets}_{*},\rhd ,S^{0}\webright )$

A morphism of monoids on $\webleft (\mathsf{Sets}_{*},\rhd ,S^{0}\webright )$ from $\webleft (A,\mu _{A},\eta _{A},0_{A}\webright )$ to $\webleft (B,\mu _{B},\eta _{B},0_{B}\webright )$ is a morphism of pointed sets

\[ f\colon \webleft (A,0_{A}\webright )\to \webleft (B,0_{B}\webright ) \]

satisfying the following conditions:

Compatibility With the Multiplication Morphisms. The diagram

commutes.
Compatibility With the Unit Morphisms. The diagram

commutes.

These act on elements as

and

giving

\begin{gather*} f\webleft (ab\webright ) = f\webleft (a\webright )f\webleft (b\webright ),\\ \begin{aligned} f\webleft (0_{A}\webright ) & = 0_{B},\\ f\webleft (1_{A}\webright ) & = 1_{B}, \end{aligned}\end{gather*}

for each $a,b\in A$, which is exactly a morphism of monoids with right zero.

Identities and Composition

Similarly, the identities and composition of $\mathsf{Mon}\webleft (\mathsf{Sets}_{*},\rhd ,S^{0}\webright )$ can be easily seen to agree with those of monoids with right zero, which finishes the proof.

The Clowder Project

5.4.9 Monoids With Respect to the Right Tensor Product of Pointed Sets