1. On Gravitational Oscillations of Rotating Water

William Thomson

doi:10.1017/S0370164600043467

Abstract

This is really Laplace's subject in his Dynamical Theory of the Tides; where it is dealt with in its utmost generality except one important restriction,—the motion of each particle to be infinitely nearly horizontal, and the velocity to be always. equal for all particles in the same vertical. This implies that the greatest depth must be small in comparison with the distance that has to be travelled to find the deviation from levelness of the water-surface altered by a sensible fraction of its maximum amount. In the present short communication I adopt this restriction; and farther, instead of supposing the water to cover the whole or a large part of the surface of a solid spheroid as does Laplace, I take the simpler problem of an area of water so small that the equilibrium-figure of its surface is not sensibly curved.

References

^{page 99 note *} In the last two or three tidal reports of the British Association the word “speed,” in reference to a simple harmonic function, has been used to designate the angular velocity of a body moving in a circle in the same period.

Thus, if T be the period is the speed; vice versa, if σ be the speed is the period.

^{page 99 note †} Neumann, “Theorie der Bessel'schen Functionen” (Leipzig, 1867), § 5; and Lommel, “Studien über die Bessel'schen Functionem” (Leipzig 1868), § 29.

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1. On Gravitational Oscillations of Rotating Water

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