Hi,
To add a little, there is a well known formula that goes like this:
F=1/(2*pi*sqrt(L*C))
That gives you the frequency for a given inductor L and capacitor C.
You can also solve for L or C knowing F and one other quantity so you
can calculate the required capacitance or inductance knowing the frequency
you need to work at.
One thing this doesnt show you however is the bandwidth, or frequency
selectivity. Depending on the absolute value of the cap (and thus inductor too)
for a given frequency, the bandwidth may be greater or more narrow.