In this work, we construct an alternative formulation to the traditional Algebraic Bethe ansatz for rational Gaudin models realised in terms of a collection of spins 1/2 coupled to a single bosonic mode. In doing so, we obtain two distinct ways to write any eigenstate of these models which can then be combined to write overlaps and form factors of local operators in terms of partition functions with domain wall boundary conditions. We also demonstrate that they can therefore all be written in terms of determinants of matrices whose entries only depend on the eigenvalues of the conserved charges. Since these eigenvalues obey a much simpler set of quadratic Bethe equations, the resulting expressions could then offer important simplifications for the numerical treatment of these models.