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Will tsunami waves travel forever if there was no land?

Why do tsunami waves begin with the water flowing away from shore?Physics of tsunami: the relationship between wavelength, sea depth and the height of the waterWave with mass transport?Tsunami : power of destructionWhy do longitudinal waves travel faster than transverse waves?Fluid dynamics tsunamiHow do traffic waves travel downstream?Besides vortex rings, are there other types of traveling waves that can carry matter as well as energy?Will a longitudinal wave propagate “forever” in a tube?Question about the difference between a tsunami caused by a meteorite and one caused by an under water earthquake

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If there was no land for tsunami waves to collide with, can the waves travel around the globe for forever?

waves water solitons tsunami

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edited 2 hours ago

Qmechanic♦

108k122021255

asked 2 hours ago

BodvarionBodvarion

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3

$begingroup$

If there was no land for tsunami waves to collide with, can the waves travel around the globe for forever?

waves water solitons tsunami

share|cite|improve this question

edited 2 hours ago

Qmechanic♦

108k122021255

asked 2 hours ago

BodvarionBodvarion

212

$endgroup$

add a comment | 

$begingroup$

If there was no land for tsunami waves to collide with, can the waves travel around the globe for forever?

waves water solitons tsunami

share|cite|improve this question

edited 2 hours ago

Qmechanic♦

108k122021255

asked 2 hours ago

BodvarionBodvarion

212

$endgroup$

share|cite|improve this question

edited 2 hours ago

Qmechanic♦

108k122021255

asked 2 hours ago

BodvarionBodvarion

212

share|cite|improve this question

edited 2 hours ago

Qmechanic♦

108k122021255

asked 2 hours ago

BodvarionBodvarion

212

edited 2 hours ago

Qmechanic♦

108k122021255

edited 2 hours ago

Qmechanic♦

108k122021255

asked 2 hours ago

BodvarionBodvarion

212

asked 2 hours ago

BodvarionBodvarion

212

1 Answer
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To answer this, I would appeal to the general principle which we call the 2nd law of thermodynamics. One way of expressing it is that the entropy of an isolated system cannot decrease. This means that in order to keep going for ever, a wave motion would have to involve no entropy increase. But almost all processes involve some increase of entropy, and in the case of water waves this is certainly going to happen, because of viscosity and turbulence in the water. Therefore the wave will gradually dissipate its energy and eventually die down.

share|cite|improve this answer

answered 2 hours ago

Andrew SteaneAndrew Steane

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5

$begingroup$

To answer this, I would appeal to the general principle which we call the 2nd law of thermodynamics. One way of expressing it is that the entropy of an isolated system cannot decrease. This means that in order to keep going for ever, a wave motion would have to involve no entropy increase. But almost all processes involve some increase of entropy, and in the case of water waves this is certainly going to happen, because of viscosity and turbulence in the water. Therefore the wave will gradually dissipate its energy and eventually die down.

share|cite|improve this answer

answered 2 hours ago

Andrew SteaneAndrew Steane

5,7941736

$endgroup$

add a comment | 

5

$begingroup$

To answer this, I would appeal to the general principle which we call the 2nd law of thermodynamics. One way of expressing it is that the entropy of an isolated system cannot decrease. This means that in order to keep going for ever, a wave motion would have to involve no entropy increase. But almost all processes involve some increase of entropy, and in the case of water waves this is certainly going to happen, because of viscosity and turbulence in the water. Therefore the wave will gradually dissipate its energy and eventually die down.

share|cite|improve this answer

answered 2 hours ago

Andrew SteaneAndrew Steane

5,7941736

$endgroup$

add a comment | 

$begingroup$

To answer this, I would appeal to the general principle which we call the 2nd law of thermodynamics. One way of expressing it is that the entropy of an isolated system cannot decrease. This means that in order to keep going for ever, a wave motion would have to involve no entropy increase. But almost all processes involve some increase of entropy, and in the case of water waves this is certainly going to happen, because of viscosity and turbulence in the water. Therefore the wave will gradually dissipate its energy and eventually die down.

share|cite|improve this answer

answered 2 hours ago

Andrew SteaneAndrew Steane

5,7941736

$endgroup$

share|cite|improve this answer

answered 2 hours ago

Andrew SteaneAndrew Steane

5,7941736

answered 2 hours ago

Andrew SteaneAndrew Steane

5,7941736

answered 2 hours ago

Andrew SteaneAndrew Steane

5,7941736