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Laminar Damping of Oscillatory Waves
Shearing stresses exerted on smooth horizontal bottom by progressive, shallow-water waves are investigated in laminar regime; average surface resistance and amplitude attenuation coefficients are derived from linearized viscous equations of motion; comparison of former coefficients with results of experiments shows experimentul surface resistance to far exceed theoretical; application of results to conduct and interpretation of model studies involving shoaling shallow-water waves is described; results are presented in form convenient for this use.
Laminar Damping of Oscillatory Waves
Shearing stresses exerted on smooth horizontal bottom by progressive, shallow-water waves are investigated in laminar regime; average surface resistance and amplitude attenuation coefficients are derived from linearized viscous equations of motion; comparison of former coefficients with results of experiments shows experimentul surface resistance to far exceed theoretical; application of results to conduct and interpretation of model studies involving shoaling shallow-water waves is described; results are presented in form convenient for this use.
Laminar Damping of Oscillatory Waves
Eagleson, Peter S. (author)
Journal of the Hydraulics Division ; 88 ; 155-181
2021-01-01
271962-01-01 pages
Article (Journal)
Electronic Resource
Unknown
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