many can be defined as:
some f = (:) <$> f <*> many f
many f = some f <|> pure 
Perhaps it helps to see how
some would be written with monadic
some f = do
x <- f
xs <- many f
some f runs
f once, then "many" times, and conses the results.
many f runs
f "some" times, or "alternatively" just returns the empty list. The idea is that they both run
f as often as possible until it "fails", collecting the results in a list. The difference is that
some f fails if
f fails immediately, while
many f will succeed and "return" the empty list. But what this all means exactly depends on how
<|> is defined.
Is it only useful for parsing? Let's see what it does for the instances in base:
Nothing means failure, so
some Nothing fails as well and evaluates to
many Nothing succeeds and evaluates to
Just . Both
some (Just ()) and
many (Just ()) never return, because
Just () never fails! In a sense they evaluate to
Just (repeat ()).
 means failure, so
some  evaluates to
 (no answers) while
many  evaluates to
[] (there's one answer and it is the empty list). Again
some [()] and
many [()] don't return. Expanding the instances,
some [()] means
fmap (():) (many [()]) and
many [()] means
some [()] ++ [], so you could say that
many [()] is the same as
tails (repeat ()).
STM, failure means that the transaction has to be retried. So
some retry will retry itself, while
many retry will simply return the empty list.
some f and
many f will run
f repeatedly until it retries. I'm not sure if this is useful thing, but I'm guessing it isn't.
some don't seem to be that useful. It is only useful if the applicative has some kind of state that makes failure increasingly likely when running the same thing over and over. For parsers this is the input which is shrinking with every successful match.