In this work, drop formation on a slightly inclined superhydrophobic substrate with liquid at various flow rates delivered through a semispherical well was investigated. Due to the initial dry well condition in the first drop produced, the inertial force from liquid filling allowed the wells edge hysteresis to be more readily breached, in which flow rates of 16 mL/min and above could create a jet that appeared to be able to pierce through the top of the semispherical drop without disrupting its form and growth very much. For subsequent drops, the wells edge hysteresis at flow rates of 14 mL/min and above helped to support an egg like form. In contrast, this form could not be developed on a similarly inclined superhydrophobic substrate without a well. The findings here assist to establish the flow rate ranges for consistent discrete volume delivery in biochemical analysis and serves as a means to conduct investigations to better reconcile the tendency of liquids to assume drops or develop jets.