Of course, but that is not saying anything profound or useful. Resistance is with us everywhere in the real world except for superconductivity. It affects the Q of the circuit, and to a lessor degree its frequency.
Well, stating what would happen if the resistor were zero isnt very interesting at all. It's like saying what happens if the circuit is completely shorted out...who really cares about that.
I think maybe what you meant to talk about was what happens if the resistance goes to infinity (ie an open circuit) in which case all of the above formulas degenerate to the same as F1 which again is:
F1=1/(2*pi*sqrt(L*C))
and of course that is for a theoretical circuit with pure inductance and pure capacitance.
F1 can be derived from the other formulas by taking the limit as R approaches infinity and that's a good sanity check for the other formulas for a quick check for errors in the formulations.