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Breaking waves : a review of theory and measurementsGaughan, Michael Kenneth 08 June 1973 (has links)
Theoretical breaking criteria for progressive surface gravity
waves are examined, and laboratory and field experiments concerned
with breaking waves are reviewed with respect to the testing of these
breaking criteria. The measurements of Komar and Simmons are
presented here for the first time. Only three theoretical breaking
criteria have been proposed for maximum steady waves in water of
constant depth: (1) the kinematic breaking criterion, in which the
horizontal partical velocity at the crest just equals the wave phase
velocity, (2) the reversal of the vertical particle velocity near the
crest as the ratio of wave height to water depth, H/h, increases,
and (3) the reversal of the vertical pressure gradient beneath the
crest as H/h increases. Although most theoreticians have applied
the kinematic breaking criterion in conjunction with relatively simple
wave theories (based on the motion being inviscid, irrotational,
incompressible, surface tension free, and two dimensional), they do
not always obtain identical results; for example, theoretical estimates
of the particle acceleration at the crest range from zero to g,
the gravitational acceleration. For shoaling waves, the kinematic
breaking criterion and the presence of a vertical surface are suggested
as breaking criteria. Unfortunately, these criteria were
applied to the long wave theory which is considered inadequate near
the breaking position.
The re-examination of experiments on breaking waves shows
that past measurements are not sufficient for testing any of these
breaking criteria. In particular, the following improvements should
be made: (1) standardize definitions of wave and breaking parameters,
(2) apply or design, if necessary, more accurate techniques
to measure water particle velocities and accelerations, and
(3) monitor the fluid motions from which the breakers cannot be
separated (e.g. backwash, solitons, reflected waves, edge waves
and rip currents). Studies specifically designed to obtain the
necessary measurements for testing the theoretical breaking
criteria are needed. / Graduation date: 1974
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An investigation of student understanding of wave phenomena at a boundary as a guide to the development and assessment of instructional materials on mechanical waves /Kryjevskaia, Lioudmila N. January 2008 (has links)
Thesis (Ph. D.)--University of Washington, 2008. / Vita. Includes bibliographical references (p. 392-395).
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Waves in complex systems /Xie, Hang. January 2008 (has links)
Thesis (Ph.D.)--Hong Kong University of Science and Technology, 2008. / Includes bibliographical references (p. 148-151).
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Comparison of measured and transformed directional wave spectra using a linear refraction modelLiu, James Cheng. January 1900 (has links)
Thesis (M.S.)--Naval Postgraduate School, 1990. / "December 1990." Includes bibliographical references (p. 82-83).
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Theoretical studies of the generation of surface waves and the propagation of internal waves in the seaManton, Michael John January 1970 (has links)
The theory of three distinct problems arising in geophysical fluid dynamics is considered. Part I concerns the generation of sea waves. The sea state and the air flow above the sea during active wave generation are discussed; in particular, it is shown that a significant fraction of the momentum flux from the air is transferred to the sea in the form of wave drag. Different mechanisms for transferring energy and momentum into a wave field are considered. Phillips' resonance model of the initial generation of waves is modified to include the dispersive effects of the wave field. It is shown that the irrotational flow caused by surface waves interacts with the turbulent velocity fluctuations in the air to produce an insignificant energy flux to the sea. Miles' theory, which involves the interaction of the wave-induced fluctuation in the air with the mean velocity field, is discussed and the streamline configuration near the critical height is considered. We show that a closed streamline "cat's-eye" may lie either over the wave crest or over the wave trough, depending upon the behaviour of the mean wind profile. The most unsatisfactory simplification in Miles' theory would seem to be the neglect of air turbulence. By considering the full set of energy equations and closing them with the aid of some simple physical assumptions, it is found that the effects of turbulence are essentially restricted to the neighbourhood of the critical height. The turbulence acts to diffuse momentum across this critical layer in a manner analogous to the action of molecular viscosity. When the critical height is small compared with the wavelength of the surface wave, the critical layer extends to the sea surface, and the streamline cat's-eye lies over the wave trough. The propagation of two-dimensional waves in a rotating Boussinesq fluid with constant Brunt-Väisälä frequency and variable depth is considered in Part II. A method is developed for the investigation of the problem, which involves first reducing it to find the solution of a certain functional equation. For a linear depth profile, an exact solution to this equation is obtained, which agrees with the previously known solution. For a more general profile, an analytic solution is derived in a form involving infinite series that converge provided that the depth variations are strictly transmissive. For a slowly varying depth, the solution is also obtained by means of a two-scale perturbation expansion. Finally, exact solutions of the functional equation which correspond to marginally transmissive depth profiles are obtained.
In Part III the diffraction of internal waves by a semi-infinite vertical barrier in a uniformly rotating Boussinesq fluid with constant Brunt- Väisälä frequency, N , and constant depth is discussed. For the frequency passband f < σ < N , where f and σ are respectively the inertial and wave frequencies, the presence of rotation gives rise to internal Kelvin waves which propagate without attenuation away from the barrier and which have amplitudes that decay exponentially in the direction along the barrier. / Science, Faculty of / Physics and Astronomy, Department of / Graduate
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Shock waves in elastic and elastic-plastic mediaBroberg, K. B. January 1956 (has links)
Thesis--Tekniska Högskolan, Stockholm. / Extra t.p., with thesis statement, inserted. Bibliography: p. 133-139.
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Internal waves on the southern California shelf /Lerczak, James A., January 2000 (has links)
Thesis (Ph. D.)--University of California, San Diego, 2000. / Vita. Includes bibliographical references.
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The exact profile of the solitary waveSchwitters, Jan Dreier, 1939- January 1966 (has links)
No description available.
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EXCITATION OF A PARAMETRIC DECAY INSTABILITY BY AN ELECTROMAGNETIC WAVE AT TWICE THE UPPER HYBRID FREQUENCYPiejak, Robert Benjamin, 1948- January 1977 (has links)
No description available.
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A case study of gravity wave-convective storm interactions, 9 May 1979Stobie, James George 12 1900 (has links)
No description available.
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