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Surface waves on water with wavelengths large compared to depth are described by the equatio d^2h/dx^2 + d^2h/dy^2 = 1/gd . d^2h/dt^2 where g is the acceleration of gravity, d i…

Surface waves on water with wavelengths large compared to depth are described by the equatio d^2h/dx^2 + d^2h/dy^2 = 1/gd . d^2h/dt^2 where g is the acceleration of gravity, d i…
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Surface waves on water with wavelengths large compared to depth are described by the equatio

d^2h/dx^2 + d^2h/dy^2 = 1/gd . d^2h/dt^2

where g is the acceleration of gravity, d is the equilibrium depth of the water, and h(x,y,t) is the height of the wave above the surface is equilibrium position. What is the speed of traveling waves described by this equation?

asked
User Azbykov
by
8.6k points

1 Answer

3 votes

Answer with Explanation:

The general wave equation is given by


(\partial ^2u)/(\partial x^2)+(\partial ^2u)/(\partial y^2)=(1)/(c^2)(\partial ^2u)/(\partial t^2)

where

'c' is the velocity of the wave

Comparing with the given equation


(\partial ^2h)/(\partial x^2)+(\partial ^2h)/(\partial y^2)=(1)/(gd)(\partial ^2h)/(\partial t^2)

We can see that


c^2=gd\\\\\therefore c=√(gd)

Thus the velocity of wave is given by
v=√(gd)

answered
User Mengdi Gao
by
8.4k points
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