Initial Segment of One-Based Natural Numbers determined by Zero is Empty

Theorem
Let $\N^*_k$ denote the initial segment of the one-based natural numbers determined by $k$:
 * $\N^*_k = \left\{{1, 2, 3, \ldots, k - 1, k}\right\}$

Then $\N^*_0 = \varnothing$.

Proof
From the definition of $\N^*_0$:


 * $\N^*_0 = \left\{{n \in \N_{>0}: n \le 0}\right\}$

From the definition of one, the minimal element of $\N_{>0}$ is $1$.

From Zero Strictly Precedes One we know that $0 < 1$.

So there is no element $n$ of $\N_{>0}$ such that $n \le 0$.

Thus $\N^*_0 = \varnothing$.

Also see

 * Initial Segment of Natural Numbers determined by Zero is Empty