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Since I don't know the proper physical terms for this, I describe it in everyday English. The following has kept me wondering for quite some time and so far I haven't found a reasonable explanation.

When you fill a ceramic cup with coffee and you click with the spoon at the bottom (from the top, through the coffee), each following tick, even when you pause for some seconds, will have a higher pitch. The following I've observed so far:

  • works better with coffee than with tea (works hardly at all with tea)
  • works better with cappuccino than with normal coffee
  • doesn't work with just cold water
  • works best with ceramic cups, but some plastic cups seem to have the same, yet weaker, behavior
  • doesn't work on all types of cups, taller cups seem to work better
  • must have a substantive amount of liquid (just a drop doesn't make it sing).

It must be something with the type of fluid, or the milk. I just poured water in a cup that had only a little bit fluffy left from a previous cappuccino, and it still worked. Then I cleaned it and filled it again with tap water and now it didn't work anymore.

Can someone explain this behavior?

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I'm a little confused about what's happening here. You're tapping the bottom of the coffee cup with a spoon? At the same place each time? –  flies Mar 30 '12 at 14:08
    
@flies: exactly that. But "same place" can be as wide as the whole bottom of the coffee cup, but seems to work best closed to the middle. You need to wait relatively long for the pitch not to increase. –  Abel Mar 30 '12 at 14:18
    
I believe I understand what you're saying now. You're saying that, if you pick one spot on the bottom and tap only there, you'll see this effect, but the effect is strongest when you you're close to the middle. The reason I'm asking is that if you move the spoon, tapping the coffee cup in different places, you would expect a change in pitches. (For instance, if you hit a drum in the center of the skin you get a deeper sound than if you hit the drum near the rim. The same principle applies to rigid bodies.) –  flies Mar 30 '12 at 14:23
    
@flies: I see your point. But the pitch gets higher — and altogether quite a bit higher! — each time you hit the bottom in (roughly) the same spot and I have no idea why. When you wait a while and click again, the original low pitch is back. –  Abel Mar 30 '12 at 14:26
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Well, I think you described phenomena very well - good physics does not have to come in equations, remember Faraday. As for problem at hand, I'd say that difference of densities of fluids is accounting for different dumping properties. As for why are you able to excite higher harmonics of fluids container - I'll go make myself a cup of coffee and check it out. –  Stipe Galić Mar 30 '12 at 15:58
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3 Answers

up vote 12 down vote accepted

I think you are observing "the hot chocolate effect" or something similar. See Crawford, Am. J. Phys. 50, 398 (1982). I have to confess I haven't read through the paper in enough detail to adequately summarize it.

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After doing some reading with those keywords, it seems indeed the same thing. Wikipedia has a nice link to this Powerpoint presentation by B.W. Carroll and M.B. More. –  Abel Mar 30 '12 at 16:55
    
Fantastic, I always wanted to know how it works!! –  Slaviks Mar 30 '12 at 16:58
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My assumption has always been related to the amount of dissolved solids. I don't think it is just milk. I have noted the same phenomena with dissolving jello in hot water. Pitch increases in relation to how homogenous the mixture has become. Try it using water and jello per the directions on the box, but in a clear pyrex mixing container...you can see the two products becoming a solution and the bottom of the measuring cop is fairly uniform. It "seems" that the pitch stops increasing once the mixture has become very uniform.

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I first noticed this in a hot cup of Horlicks, made with milk. I would stir in the powder vigorously, then tap the bottom of the cup with the spoon to check that all the powder had dissolved. Even two taps, one second apart is enough to detect the rising pitch. It continues rising and rising over the course of, perhaps, 20 seconds.

The interesting thing is that you can make the pitch drop again by stirring it up again. It seems that the pitch is directly related to the rate at which the milk is spinning.

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If I don't stir and tap the bottom, the pitch rises. If I stir a lot and start tapping, the pitch is low and then rises. When I wait long enough and tap, the pitch is low and then rises. I don't really see a relation as the fluid can be both moving and still when the pitch is low. –  Abel Apr 12 '12 at 2:48
    
The wavelengths of sound produced are related to the dimensions of the cup and how much of it is filled. The bubbles in the fluid lower the speed of sound, thus lowering the frequency. The rising and lowering of the pitch is related to the production and destruction of the tiny bubbles. –  Noah Apr 13 '12 at 11:49
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protected by Qmechanic Feb 17 '13 at 19:31

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