The electrostatic complex of Co+ with a single N-2 molecule is studied by optical excitation of the metal ion. Vibrational structures of such electronic transitions show excited state progressions of the complex modes. A single far-red transition shows little geometry change upon excitation and displays the rotational contour of a nonlinear complex. Yellow transitions show vibrational structure indicative of a gross geometry change with progressions in both stretching and rocking modes. This suggests that CoN2+ possesses a "T"-shaped ground state and both linear and nonlinear excited states. A particular linear upper state, the (B) over tilde state, is characterized vibrationally with a typical metal-ligand stretching frequency (140 cm(-1)) but a rather flaccid rocking frequency (14 cm(-1)). The geometry change upon 3d(7)4s <-- 3d(8) excitation of the Co+ ion in this complex is discussed in terms of a simple model potential which includes both electrostatic and inductive components.