In general? No, you need to know internals of the regulator and do Bode plots and figure it out that way.
In particular? There are often tools available. Most manufacturers have their simulation tools, and many have formulas or spreadsheets that get in the right ballpark.
I would never consider design equations authoritative and accurate; they are subject to too many approximations. And may not even be applicable over the operating range (the system is nonlinear). They can be good starting points however.
Also, regulators with internal compensation, you have no choice; just use the recommended values, including the inductor as it is part of the internal settings too.
Offhand, 30uF sounds awfully small for a boost with 50A input, just from how much ripple the poor thing(s) have to handle. That also suggests a pole much higher than most controls would be comfortable with.
And, 80uH sounds enormous at, whatever the output current is (10 or 20A?).
Finally, the ratio of the two is rather high (sqrt(80uH / 15uF) -- note the caps act in series with respect to the inductor), which implies rather poor output impedance (a step load of ~10A will yield a step change in voltage of ~23V or more!).
Tim