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brooksmosesFact 1: Microwave ovens work because they produce microwaves tuned to a vibratory frequency of liquid water.
Fact 2: Microwave ovens are rather poor at defrosting chicken; the parts that get defrosted first become partly cooked by the time the remainder of the chicken is defrosted.
Question Arising From These Facts: Would it be possible to build a microwave oven that was tuned to a vibratory frequency of solid water that would defrost chicken properly?
Fact 2: Microwave ovens are rather poor at defrosting chicken; the parts that get defrosted first become partly cooked by the time the remainder of the chicken is defrosted.
Question Arising From These Facts: Would it be possible to build a microwave oven that was tuned to a vibratory frequency of solid water that would defrost chicken properly?
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Date: 2004-08-29 08:01 pm (UTC)Hmm; I could look this up, rather than speculating. And it seems from this page that the frequencies in ice are about 7% or so higher.
More than that, however, it appears (reference here) that microwave ovens aren't exciting vibrational modes of the nuclei; they're exciting something else that I don't quite understand that involves rotation and electron clouds. Water in ice can't really rotate much, and so ice is practically transparent to the waves in microwave ovens -- the frequencies involved are on the kHz range for ice, rather than the GHz range for liquid water. Which indicates that making an ice-tuned microwave defroster may be rather difficult.