Equivalence of Formulations of Axiom of Powers

Theorem
In the context of class theory, the following formulations of the  are equivalent:

Proof
It is assumed throughout that the and the  both hold.

Formulation $1$ implies Formulation $2$
Let formulation $1$ be axiomatic:

Thus it is posited that for a given set $x$ the power set of $x$ exists:


 * $y := \powerset x := \set {z: z \subseteq x}$

and that this is a set.

Formulation $2$ asserts that given the existence of $\powerset x$, it is axiomatic that $\powerset x$ is itself a set.

Hence it follows that the truth of formulation $2$ follows from acceptance of the truth of formulation $1$.

From Power Set Exists and is Unique, which depends on:
 * the
 * the

$\powerset x$ is unique for a given $x$.

Formulation $2$ implies Formulation $1$
Let formulation $2$ be axiomatic:

Let $x$ be a set.

Let us create the power set $y$ of x:
 * $\powerset x := \set {z: z \subseteq x}$

From Power Set Exists and is Unique, which depends on:
 * the
 * the

$\powerset x$ exists and is unique for a given $x$.

We have asserted the truth of formulation $2$.

That is, $\powerset x$ is a set.

As $x$ is arbitrary, it follows that $\powerset x$ exists and is unique for all sets $x$.

That is, the truth of formulation $1$ follows from acceptance of the truth of formulation $2$.