Are there a lot of electrical appliances in your house? Or did you perhaps leave a computer monitor on and forget about it? Those are particularly bad for RF-noise annoyance.
Then again, one other possibility suggests itself. Though your use of a (most likely not very sensitive) clock radio argues against this being the case, the squeal, foreign languages, and your near-coastal location raise the possibility that you're hearing a "heterodyne" tone (or het for short.) These often owe to international AM stations coming in and mixing with U.S. stations on nearby frequencies. Many international stations are on 9 KHz multiples, rather than the 10 KHz on which the U.S. system is based. If the difference between the frequencies of the two stations is within the audio bandwidth of the AM broadcast signals your radio is designed to receive (i.e. less than 5 KHz), your receiver will see a "mixing product" of these signals.
AM works in kind of an oddball way. Audio amplitude and RF "amplitude" (i.e., signal strength) vary directly with each other -- and amplitudes, by their very nature, are additive. When amplitudes within the audio frequency range are present on radio wave(s) of the frequency you're tuned to... your receiver sees them all at once, without respect to which signal they happen to be coming from. (By contrast, FM receivers kind of "track" the phase variations of incoming signals, because they're designed to
detect only frequency shifts... this is what allows them to "capture" a stronger signal over a weaker one.)
These oddball physics have three practical consequences for AM radio:
1) The "all at once" thing is part of the reason AM is so susceptible to power-line noise -- power traveling in a power line oscillates at 60 Hz, which is in the audio frequency range, and something about the transmission also generates RF signals at AM broadcast frequencies -- so when you get close to a power line, your radio hears "AM station PLUS 60 Hz buzzing crap."
2) The fact that "amplitudes are amplitudes are amplitudes" also means that when the RF signal gets weaker, the audio you receive gets quieter. (On FM, you get roughly the same volume of audio when you try to listen to a weak signal... you just get some static across it as an artifact of the receiver trying to extract 100% of the audio from 60% of the signal that it requires for full fidelity. That static is the audio equivalent of the minus-40% your radio gets from trying to do that demented math.
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And -- of interest to us -- 3) the fact that "amplitudes are amplitudes are amplitudes" mean that mixing products which are inside the audio passband for AM receivers -- e.g. a 1 KHz signal resulting from a 1521 KHz station beating across a 1520 KHz station -- pass through the audio detector and get heard as audio tones. So you hear this annoying 1000-Hz squeal (or maybe 4000 Hz in the case of stations on 1404 and 1400 KHz.) If you happen to be musically trained and can recognize notes by their pitch, a 1 Khz squeal will sound like a flat version of the "C" two octaves above middle C... 2 KHz will sound like a flat version of the "C" three octaves above middle C. So that MAY be what your squeal is all about...
