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I was swirling some wine around in a stemmed glass ware and I noticed that if I held the stem loosely between my fingers it would rotate in the opposite direction than I was swirling the wine.I tried it with and without liquid in the glass and the effect was the same.Why does it do that?I made a .gif file to show the effect.Thanks,--Allen
Wouldn't that be inertia working? As you move your glass clockwise your hand will describe a small circular movement, but your glass want to stay the same, the liquid as it starts to swirl around in the glass has a very little viscosity index vis a vis the glass so it don't really succeed in 'taking' the glass with it. The result would then be that the glass stays still, but due to your rotating movement the effect on the glass will seem to be f ex. counter clock wise and your liquid will be rotating clock wise. Or, are you saying that they really go two opposite ways? Send us a *.gif, with the wine rotating too It seems to me like you will have three movements if so. One is your hands movement, the other will be the glass going counter wise to your hand and the third will be the liquid following your hands movement? It must involve the principle that for every action (wine swirling) there is a reaction if so (glass moving opposite way) but I tried your experiment (well, hastily:) without getting this effect?
Allen, I used to ask this as physics question to my collegues at university... []The effect is very interesting, infact.This is my answer: when you rotate the glass, for example clockwise, the part of the glass' base which is more far from the rotation's centre moves faster, so the friction with the table is stronger, so on the glass' base there is a net momentum of forces directed anti-clockwise. It's difficult to explain without a draw, I hope you have understood. In case, ask again.lightarrow.
"Precession" refers to the tendency of a part subject to rotating stresses to rotate in the opposite direction of the stress rotation. In bicycle applications this becomes a particular issue with the threads that hold pedals into the crank, and the threads that hold the bottom bracket assembly into the frame.
Quote from: lightarrow on 11/04/2009 13:35:00Allen, I used to ask this as physics question to my collegues at university... []The effect is very interesting, infact.This is my answer: when you rotate the glass, for example clockwise, the part of the glass' base which is more far from the rotation's centre moves faster, so the friction with the table is stronger, so on the glass' base there is a net momentum of forces directed anti-clockwise. It's difficult to explain without a draw, I hope you have understood. In case, ask again.lightarrow.I think I'm following you.Is this an example of precession, and why my French bicycle's left pedal will loosen over time?Quote from: Sheldon Brown"Precession" refers to the tendency of a part subject to rotating stresses to rotate in the opposite direction of the stress rotation. In bicycle applications this becomes a particular issue with the threads that hold pedals into the crank, and the threads that hold the bottom bracket assembly into the frame.[/url]
Would this be an example of a planetary or elliptical gear system?My fingers being the outer gear the stem being the inner. http://en.wikipedia.org/wiki/Epicyclic_gearing
Quote from: AllenG on 11/04/2009 19:39:11Would this be an example of a planetary or elliptical gear system?My fingers being the outer gear the stem being the inner. http://en.wikipedia.org/wiki/Epicyclic_gearingI like your explanation best. It will certainly account for how the glass will rotate (spin) about its axis the opposite way to the direction the stem 'orbits' around the hole made by your fingers. A clockwise 'orbit' will produce a reaction (friction) between your skin and the stem of the glass which is in a direction to make the glass actually spin anticlockwise. If the table top is slippery, the hand / stem friction force is the only significant one.
I repeated the experiment.In both cases I'm swirling the glass counter clockwise (anticlockwise).
With the glass upside down it would tend to roll along the glass' rim, and the lower center of gravity is quite noticeable. I think the difference between the two is the amount of friction between the glass and the table.I still think with the glass right side up it is an elliptical gear system, with the friction between my fingers and the stem being greater than that between the glass and the table. Upside down, the amount of surface contacting the table is greater than the friction between my fingers and the stem.
Quote from: AllenG on 12/04/2009 17:08:16With the glass upside down it would tend to roll along the glass' rim, and the lower center of gravity is quite noticeable. I think the difference between the two is the amount of friction between the glass and the table.I still think with the glass right side up it is an elliptical gear system, with the friction between my fingers and the stem being greater than that between the glass and the table. Upside down, the amount of surface contacting the table is greater than the friction between my fingers and the stem. []I don't think it depends on the friction between your fingers and the stem. Can you try with something else, instead of your fingers, like a rod with a ring on one end, wich could make very little friction with the stem, or something of that kind?
Quote from: sophiecentaur on 12/04/2009 00:59:38Quote from: AllenG on 11/04/2009 19:39:11Would this be an example of a planetary or elliptical gear system?My fingers being the outer gear the stem being the inner. http://en.wikipedia.org/wiki/Epicyclic_gearingI like your explanation best. It will certainly account for how the glass will rotate (spin) about its axis the opposite way to the direction the stem 'orbits' around the hole made by your fingers. A clockwise 'orbit' will produce a reaction (friction) between your skin and the stem of the glass which is in a direction to make the glass actually spin anticlockwise. If the table top is slippery, the hand / stem friction force is the only significant one. I don't think you would have any effect at all if the table top were totally slippery.