13.7: Wave Orbitals

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Page ID: 31684

W. Sean Chamberlin, Nicki Shaw, and Martha Rich
Fullerton College via Blue Planet Publishing

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One other aspect of waves, mentioned above, deserves our attention. The water particles in a wave move in a circular orbit—the wave orbital—as the energy of the wave passes through the surface of the ocean. This is really important to recognize because the water is not moving at the speed of the wave!

If you have ever sat in the water on a raft, or watched a seabird floating on the water, you’ve noticed that you (or the bird) move up and forward as the wave approaches and down and backward as the wave passes. If you can imagine a dot on the surface of the ocean, the path of the dot will trace a circle as the waves pass by. The rotation of the dot is in the same direction of the wave at the crest; at the trough the dot is moving in the opposite direction.

The diameter of the circle traced by the dot will be equal to the height of the wave. However, water particles below the surface will trace progressively smaller circles. Wave orbitals decrease in diameter from the ocean surface to a depth of one-half the wavelength of the wave. At this depth, called the wave base, the orbital motion is negligible (about 1/23 the surface diameter; Bascom and McCoy 2021).

The vertical distance from the surface to the depth where particle motions cease defines the boundaries of the energy of the wave. Not surprisingly, the energy of a wave is concentrated at the surface and diminishes with depth. For a wave with a wavelength of 20 feet (6 m), this depth would be 10 feet (3 m). For a 1,000-foot wave (305 m), the energy of the wave would be present in waters shallower than 500 feet (152 m). Surfers and scuba divers know the main energy of a wave is at the surface. Scuba divers entering from the beach get shoved back and forth along the seafloor until they reach a depth where the wave energy no longer penetrates. Surfers perform a duck dive, a skillful maneuver to propel a board underneath a wave to avoid being pushed backward or worse (e.g. Brander 2010). Submarines, too, can avoid storm waves by submerging to a depth where the wave energy disappears.

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