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Mathematicians ask: What's in a ripple?
A newly formulated set of equations provides the framework for describing a special kind of ripple called an undular bore
Date:
September 20, 2017
Source:
University at Buffalo
Summary:
When a fluid or a gas experiences a sudden disturbance, it often gives rise to a phenomenon known as an undular bore, which consists of a series of rapid oscillations that propagate and spread. But how to describe what transpires? New mathematics research brings us closer to finding an answer.
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When a fluid or a gas experiences a sudden disturbance, such as a change in pressure or elevation, it often gives rise to a phenomenon known as an undular bore, which consists of a series of rapid oscillations that propagate and spread
In nature, this spectacle occurs in many different settings, including water waves and plasmas -- a state of matter consisting of ionized gases with positively and negatively charged free particles. Similar phenomena also occur in the atmosphere.
But how to describe what transpires?
A new paper by mathematicians at the University at Buffalo and the University of Colorado Boulder brings us closer to finding an answer.
The research, published in August in the Proceedings of the Royal Society A, lays out a set of newly formulated equations that are designed to characterize what happens when an undular bore occurs and spreads along two axes. Visually, this phenomenon resembles the concentric ripples that proliferate outward when you toss a stone into a pond.
"You see these effects in water, in plasmas, in the atmosphere, so the equations that describe these waves come up in a bunch of different fields," says Gino Biondini, PhD, a professor of mathematics in the UB College of Arts and Sciences. "We like to say that the math is universal -- the same mathematics allows you to describe many different scenarios."
Biondini's partners on the study were Mark J. Ablowitz, PhD, professor of applied mathematics at the University of Colorado Boulder, and Qiao Wang, UB PhD candidate in math.
An advance in wave mathematics
In the 1960s, mathematician Gerald B. Whitham came up with an approach for describing undular bores. The equations he formulated could only be used, however, when a wave was traveling along a single axis (such as a tidal bore propagating in one direction down a narrow channel).
The new paper by Ablowitz, Biondini and Wang builds on Whitham's theory by deriving a set of equations designed to describe how such ripples form and propagate along two axes -- in two possible directions.
Within this 2-dimensional framework, the team has already used its equations to study undular bores whose wave height varies along just one of the two directions available. The next step in the research is to apply the equations in characterizing undular bores whose wave height changes along both axes.
"The equations we formulated mark a step forward for describing these interesting phenomena," Biondini says. "Also, the methods we used can be applied to study a variety of related physical problems, so we hope that our results will open up a long series of works on these kinds of topics."
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Story Source:
Materials provided by University at Buffalo. Note: Content may be edited for style and length.
Journal Reference:
Mark J. Ablowitz, Gino Biondini, Qiao Wang. Whitham modulation theory for the Kadomtsev– Petviashvili equation. Proceedings of the Royal Society A: Mathematical, Physical and Engineering Science, 2017; 473 (2204): 20160695 DOI: 10.1098/rspa.2016.0695
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University at Buffalo. "Mathematicians ask: What's in a ripple? A newly formulated set of equations provides the framework for describing a special kind of ripple called an undular bore." ScienceDaily. ScienceDaily, 20 September 2017.
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