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In a breakthrough study, an international team of scientists, including Professor Nikolai Brilliantov from the University of Leicester, has solved an age-old scientific riddle by discovering that planetary rings, such as those orbiting Saturn, have a universally similar particle distribution.
The study, which is published in the academic journal Proceedings of the National Academy of Sciences (PNAS), also suggests that Saturn's rings are essentially in a steady state that does not depend on their history.
[...] Professor Brilliantov from the University of Leicester's Department of Mathematics explained: "Saturn's rings are relatively well studied and it is known that they consist of ice particles ranging in size from centimetres to about ten metres. With a high probability these particles are remains of some catastrophic event in a far past, and it is not surprising that there exists debris of all sizes, varying from very small to very large ones.
"What is surprising is that the relative abundance of particles of different sizes follows, with a high accuracy, a beautiful mathematical law 'of inverse cubes'. That is, the abundance of 2 metre-size particles is 8 times smaller than the abundance of 1 metre-size particles, the abundance of 3 metre-size particles is 27 times smaller and so on. This holds true up to the size of about 10 metres, then follows an abrupt drop in the abundance of particles. The reason for this drastic drop, as well as the nature of the amazing inverse cubes law, has remained a riddle until now. We have finally resolved the riddle of particle size distribution. In particular, our study shows that the observed distribution is not peculiar for Saturn's rings, but has a universal character. In other words, it is generic for all planetary rings which have particles to have a similar nature."
[...] Professor Brilliantov added: "The rather general mathematical model elaborated in the study with the focus on Saturn's rings may be successfully applied to other systems, where particles merge, colliding with slow velocities and break into small pieces colliding with large impact speeds. Such systems exist in nature and industry and will exhibit a beautiful law of inverse cubes and drop in large particle abundance in their particle size distribution."
"Size distribution of particles in Saturn's rings from aggregation and fragmentation" at PNAS and Arxiv.
(Score: 3, Funny) by slinches on Thursday August 06 2015, @07:49PM
That sounds like a name someone made up for the wacky professor in a comic book.
(Score: 4, Funny) by DECbot on Thursday August 06 2015, @08:30PM
That's just his mild-mannered, alter-ego. After the evening lecture, he becomes Mathomaticman. Be careful that you double check your proofs and balance your equations or he will reduce you with his geometric series inverse cubed ray.
cats~$ sudo chown -R us /home/base
(Score: 2) by mhajicek on Friday August 07 2015, @03:48AM
I was thinking Venture Brothers.
The spacelike surfaces of time foliations can have a cusp at the surface of discontinuity. - P. Hajicek