Users Online Now:
922
(
Who's On?
)
Visitors Today:
290,281
Pageviews Today:
441,426
Threads Today:
170
Posts Today:
2,268
05:06 AM
Directory
Adv. Search
Topics
Forum
Back to Forum
Back to Thread
REPLY TO THREAD
Subject
F.O.G.
User Name
Font color:
Default
Dark Red
Red
Orange
Brown
Yellow
Green
Olive
Cyan
Blue
Dark Blue
Indigo
Violet
Black
Font:
Default
Verdana
Tahoma
Ms Sans Serif
In accordance with industry accepted best practices we ask that users limit their copy / paste of copyrighted material to the relevant portions of the article you wish to discuss and no more than 50% of the source material, provide a link back to the original article and provide your original comments / criticism in your post with the article.
[quote:Anonymous Coward 23098610:MV8xNDQ3NzA2XzM0NjQ5NjM3XzE2QzA0Qjkw] When you can, check these also. I apologize, I'm a little nerded out about this. http://www.anl.gov/articles/taking-another-look-atmosphere "Even on a relatively calm day, the Earth’s atmosphere is a swirling mix of gases that react faster than the human eye can see. In order to model these reactions, scientists have generally simplified the problem by treating them as occurring sequentially. However, a new study by researchers at the U.S. Department of Energy’s Argonne National Laboratory and two universities in the United Kingdom demonstrates a new method for obtaining more accurate measurements of these atmospheric processes. In order to calculate the mathematics of how chemical reactions proceed, called reaction rate coefficients, scientists had by and large looked at the interaction of molecules that were in “thermal equilibrium,” meaning that the internal energies of the molecules are determined only by the temperature." http://m.sciencemag.org/content/337/6098/1066.abstract "Bimolecular reactions in Earth’s atmosphere are generally assumed to proceed between reactants whose internal quantum states are fully thermally relaxed. Here, we highlight a dramatic role for vibrationally excited bimolecular reactants in the oxidation of acetylene. The reaction proceeds by preliminary adduct formation between the alkyne and OH radical, with subsequent O2 addition." [/quote]
Original Message
[
link to quakes.globalincidentmap.com
]
Its going around the ring... South America next.
UPDATE......UPDATE.....UPDATE
For anyone interested in Earthquake predictions:
I guessed 2 that have hit by looking at the above link and seeing a pattern. I'm talking above 4.0 Mags. Please take a look and tell me where you think the next one is going to be and why.
Pictures (click to insert)
General
Politics
Bananas
People
Potentially Offensive
Emotions
Big Round Smilies
Aliens and Space
Friendship & Love
Textual
Doom
Misc Small Smilies
Religion
Love
Random
View All Categories
|
Next Page >>