no, that doesn't have any validity whatsoever.
It'll have the same cross section so the co-efficient of drag will be the same.
Well I'm pretty sure it does, but not in the way you think it does.
At t=0, they would appear the same. After time passes though, the watery kind breaks apart due to the force exerted by the air on the glob overcoming the surface tension of it, therefore turning the watery glob into smaller globs. The more sticky one would stay together better.
Since you break apart the watery one, assuming both types have the same total mass, the broken apart drops will have a larger combined total cross-sectional area, leading to a larger air resistance.
The sticky glob will, over time, have a larger mass-to-area ratio than the more watery glob. This means there will be less net drag force exerted on the sticky glob leading to a longer distance.
Yay