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#1
August 29th 12, 12:20 AM
posted to sci.astro.amateur
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Viewpoint: Getting into a Proper Jam
Viewpoint: Getting into a Proper Jam
http://physics.aps.org/articles/v5/97 The study of jammed systems began as a culinary curiosity in 1727, when the Reverend Stephen Hales studied how peas pack when compressed in an iron pot [1]. Fill a pot with peas and you can run your hand through them, because they can flow out of the way much like a liquid would. But as pressure, and thus the density, is increased, you will find that there is a critical point, above which the peas “jam” into a stable amorphous solid. This behavior is very general. Pretty much everything composed of discrete chunks large enough that thermal fluctuations can be ignored can go through a jamming transition: colloids in solution, a pile of sand, a jar full of candies, even cars in a traffic jam. 
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#2
August 29th 12, 03:35 AM
posted to sci.astro.amateur
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Viewpoint: Getting into a Proper Jam
On Tuesday, August 28, 2012 4:20:25 PM UTC-7, Sam Wormley wrote:
Viewpoint: Getting into a Proper Jam http://physics.aps.org/articles/v5/97 The study of jammed systems began as a culinary curiosity in 1727, when the Reverend Stephen Hales studied how peas pack when compressed in an iron pot [1]. Fill a pot with peas and you can run your hand through them, because they can flow out of the way much like a liquid would. But as pressure, and thus the density, is increased, you will find that there is a critical point, above which the peas “jam” into a stable amorphous solid. This behavior is very general. Pretty much everything composed of discrete chunks large enough that thermal fluctuations can be ignored can go through a jamming transition: colloids in solution, a pile of sand, a jar full of candies, even cars in a traffic jam. I only get a jammed system when I don't eat enough fiber ;)
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#3
August 31st 12, 05:00 AM
posted to sci.astro.amateur
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Viewpoint: Getting into a Proper Jam
palsing wrote: On Tuesday, August 28, 2012 4:20:25 PM UTC-7, Sam Wormley wrote: Viewpoint: Getting into a Proper Jam http://physics.aps.org/articles/v5/97 The study of jammed systems began as a culinary curiosity in 1727, when the Reverend Stephen Hales studied how peas pack when compressed in an iron pot [1]. Fill a pot with peas and you can run your hand through them, because they can flow out of the way much like a liquid would. But as pressure, and thus the density, is increased, you will find that there is a critical point, above which the peas “jam” into a stable amorphous solid. This behavior is very general. Pretty much everything composed of discrete chunks large enough that thermal fluctuations can be ignored can go through a jamming transition: colloids in solution, a pile of sand, a jar full of candies, even cars in a traffic jam. I only get a jammed system when I don't eat enough fiber ;) Worm Samely is jamming crap for relevance, and charging for it!
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