Join Semilattice is Ordered Structure/Proof 1

Proof
For $\left({S, \vee, \preceq}\right)$ to be an ordered structure is equivalent to, for all $a, b, c \in S$:


 * $a \preceq b \implies a \vee c \preceq b \vee c$
 * $a \preceq b \implies c \vee a \preceq c \vee b$

Since Join is Commutative, it suffices to prove the first of these implications.

By definition of join:


 * $a \vee c = \sup \left\{{a, c}\right\}$

where $\sup$ denotes supremum.

By Join Succeeds Operands:


 * $b \preceq b \vee c$
 * $c \preceq b \vee c$

Now also $a \preceq b$, and by transitivity of $\preceq$ we find that:


 * $a \preceq b \vee c$

Thus $b \vee c$ is an upper bound for $\left\{{a, c}\right\}$.

Hence:


 * $a \vee c \preceq b \vee c$

by definition of supremum.