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Waves in fluids
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TLDR
One-dimensional waves in fluids as discussed by the authors were used to describe sound waves and water waves in the literature, as well as the internal wave and the water wave in fluids, and they can be classified into three classes: sound wave, water wave, and internal wave.Abstract:
Preface Prologue 1. Sound waves 2. One-dimensional waves in fluids 3. Water waves 4. Internal waves Epilogue Bibliography Notation list Author index Subject index.read more
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Kelvin wake pattern at large Froude numbers
TL;DR: In this article, it was shown that the angle corresponding to the maximum amplitude of the waves scales as ε(n) for large Froude numbers, whereas the angle delimiting the wake region outside which the surface is essentially flat remains constant and equal to the Kelvin angle.
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Interaction of a turbulent round jet with the free surface
Cyrus K. Madnia,Luis P. Bernal +1 more
TL;DR: In this paper, an experimental study of the interaction of an underwater turbulent round jet with the free surface was conducted, and the fundamental scaling parameters of the free-surface jet have been determined.
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Steady Periodic Capillary‐Gravity Waves with Vorticity
TL;DR: This paper proves the existence of steady periodic two-dimensional capillary-gravity waves on flows with an arbitrary vorticity distribution by using local bifurcation theory combined with the Schauder theory of elliptic equations with Venttsel boundary conditions and spectral theory in Pontryagin spaces.
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Inertia–Gravity Waves Emitted from Balanced Flow: Observations, Properties, and Consequences
TL;DR: In this paper, the authors describe laboratory observations of inertia-gravity waves emitted from balanced fluid flow in a rotating two-layer annulus experiment, showing that the amplitude varies linearly with Rossby number in the range 0.05-0.14, at constant Burger number.
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Linear water waves with vorticity: Rotational features and particle paths
Mats Ehrnström,Gabriele Villari +1 more
TL;DR: In this article, a stable linear gravity wave with small amplitude travelling on a current of constant vorticity is found, where the particle trajectories are not any more closed ellipses.