Perhaps the most extraordinary
example of this phenomenon involves a paper by Singer, Starr, and Revelle (1991).
Not exact matches
A brand new science for studying this networked
phenomenon, and in effect it's kind
of a reverse engineering the World Wide Web that we know and the kinds
of networks that we see on that to try to figure out how they took shape and maybe from that we can learn what principles
involve and how networks do grow and you might be able to use that sort
of thing to be able to develop a better system s for
example being able to create more efficient networks and that could be very valuable in industry, there may be a lot
of practical applications,
involving protecting privacy, for
example, and stopping people from stealing identities; and you should, you know, should be
of just an interesting
phenomenon.
Umbertoluca Ranieri, PhD student at ILL and EPFL, and lead author
of this study says: «These results are important in improving our understanding
of many fundamental non-equilibrium
phenomena involving methane clathrate hydrates; for
example, the replacement kinetics during gas exchange in case
of conversion between the clathrate structures I and II.
Many nonsmooth
phenomena occur in nature: for
example, threshold - type
phenomena such as condensation or earthquakes, or systems that natural
involve a discontinuous change in behavior such as the action
of a volcano erupting.
A straight piece
of pipe, a very simple component, can easily
involve inherently complex physical
phenomena and processes going on inside; single - phase turbulent flow is just one
example.
Typical
examples of this are physical situations that
involve several important coupled physical
phenomena and processes.