Wave shoaling in the context of Surface gravity wave

⭐ Core Definition: Wave shoaling

In fluid dynamics, wave shoaling is the effect by which surface waves, entering shallower water, increase in wave height. It is caused by the fact that the group velocity, which is also the wave-energy transport velocity, decreases with water depth. Under stationary conditions, a decrease in transport speed must be compensated by an increase in energy density in order to maintain a constant energy flux. Shoaling waves will also exhibit a reduction in wavelength while the frequency remains constant.

In other words, as the waves approach the shore and the water gets shallower, the waves get taller, slow down, and get closer together.

↓ Menu

Wave shoaling in the context of Surf zone

The surf zone or breaker zone is the nearshore part of a body of open water between the line at which the waves break and the shore. As ocean surface waves approach a shore, they interact with the bottom, get taller and steeper, and break, forming the foamy surface called surf. The region of breaking waves defines the surf zone. After breaking in the surf zone, the waves (now reduced in height) continue to move in, and they run up onto the sloping front of the beach, forming an uprush of water called swash. The water then runs back again as backwash. The water in the surf zone is relatively shallow, depending on the height and period of the waves.

View the full Wikipedia page for Surf zone

↑ Return to Menu

Wave shoaling in the context of Surface gravity wave

Wave shoaling Study page number 1 of 1

Play TriviaQuestions Online!

Skip to study material about Wave shoaling in the context of "Surface gravity wave"

⭐ Core Definition: Wave shoaling

Wave shoaling in the context of Surf zone