Equation of Confocal Hyperbolas/Formulation 2

Definition
The equation:
 * $(1): \quad \dfrac {x^2} {a^2} + \dfrac {y^2} {a^2 - c^2} = 1$

where:
 * $\left({x, y}\right)$ denotes an arbitrary point in the cartesian plane
 * $c$ is a (strictly) positive constant
 * $a$ is a (strictly) positive parameter such that $a < c$

defines the set of all confocal hyperbolas whose foci are at $\left({\pm c, 0}\right)$.

Proof
Let $a$ and $c$ be arbitrary (strictly) positive real numbers fulfilling the constraints as defined.

Let $H$ be the locus of the equation:
 * $(1): \quad \dfrac {x^2} {a^2} + \dfrac {y^2} {a^2 - c^2} = 1$

As $a < c$ it follows that:
 * $a^2 < c^2$

and so:
 * $a^2 - c^2 < 0$

Thus $(1)$ is in the form:
 * $\dfrac {x^2} {a^2} - \dfrac {y^2} {b^2} = 1$

Thus from Equation of Hyperbola in Reduced Form, $H$ defines an hyperbola where:
 * $\left({\pm a, 0}\right)$ are the positions of the vertices of $H$
 * $\left({\pm c, 0}\right)$ are the positions of the foci of $H$.

Hence the result.