"tic_tac_astro" wrote:
BK Announcer: "You know what happened? People freaked."
"GET ME A WHOPPER!"
I'm a vegetarian, but I still cracked up. Good job there. X-)
Judgement Wednesday!
This is gonna be hard. ^^
Caption the picture game
I'm a vegetarian, but I still cracked up. Good job there. X-)
Judgement Wednesday!
This is gonna be hard. ^^
"You will never understand how this feels. Look at me, I'm neither truly human nor truly robot. I'm a monster."
-Atlas
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tonigirl1000
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tonigirl1000
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tonigirl1000
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Do you really mean Strange rather than dark matter.
"You take that back! I do not look like Uncle Martian! These are not antennae, they're thingies that indicate when people believe in me! I tellin' on you!"
I wonder how many of the youngsters will know about Uncle Martian?
"You take that back! I do not look like Uncle Martian! These are not antennae, they're thingies that indicate when people believe in me! I tellin' on you!"
I wonder how many of the youngsters will know about Uncle Martian?
Last edited by jeffbert on Thu Feb 14, 2008 4:35 pm, edited 1 time in total.
http://en.wikipedia.org/wiki/Strange_matter
In particle physics and astrophysics, the term is used in two ways, one broader and the other more specific.
The broader meaning is just quark matter that contains three flavors of quarks: up, down, and strange. In this definition, there is a critical pressure and an associated critical density, and when nuclear matter (made of protons and neutrons) is compressed beyond this density, the protons and neutrons dissociate into quarks, yielding quark matter (probably strange matter).
The narrower meaning is quark matter that is more stable than nuclear matter. The idea that this could happen is the "strange matter hypothesis" of Bodmer [1] and Witten [2]. In this definition, the critical pressure is zero: the true ground state of matter is always quark matter. The nuclei that we see in the matter around us, which are droplets of nuclear matter, are actually metastable, and given enough time (or the right external stimulus) would decay into droplets of strange matter, i.e. strangelets.
In particle physics and astrophysics, the term is used in two ways, one broader and the other more specific.
The broader meaning is just quark matter that contains three flavors of quarks: up, down, and strange. In this definition, there is a critical pressure and an associated critical density, and when nuclear matter (made of protons and neutrons) is compressed beyond this density, the protons and neutrons dissociate into quarks, yielding quark matter (probably strange matter).
The narrower meaning is quark matter that is more stable than nuclear matter. The idea that this could happen is the "strange matter hypothesis" of Bodmer [1] and Witten [2]. In this definition, the critical pressure is zero: the true ground state of matter is always quark matter. The nuclei that we see in the matter around us, which are droplets of nuclear matter, are actually metastable, and given enough time (or the right external stimulus) would decay into droplets of strange matter, i.e. strangelets.
[sigpic]http://www.astroboy-online.com/forums/image.php?type=sigpic&userid=200&dateline=1323970671[/sigpic]Safe 
Winner is tic-tac-astro.
Runner up is mr skunk.
Honorable mention is jeffbert, because I felt like it.
I'd quote them, but my computer is acting up and it'll screw up again if I try. X-P
Anyways, so sorry I'm late, I've had a nasty case o' the flu!
Runner up is mr skunk.
Honorable mention is jeffbert, because I felt like it.
I'd quote them, but my computer is acting up and it'll screw up again if I try. X-P
Anyways, so sorry I'm late, I've had a nasty case o' the flu!
"You will never understand how this feels. Look at me, I'm neither truly human nor truly robot. I'm a monster."
-Atlas
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