13.1: Energy in Motion

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Page ID: 31678

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

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The waves that we perceive moving across the surface of the ocean actually represent energy in motion. The rise and fall of a wave traces the passing of a pulse of energy. The water itself hardly moves, except in a circular orbit that edges ever so slightly in the direction of the wave. It is energy that moves rapidly through the ocean surface, moving the water upward and downward as it passes. Thus, we may define a surface wave as the physical expression of energy moving forward at the surface of the ocean.

Waves occur inside the ocean too. Where water layers have different densities, waves can occur along their boundaries. A wave that propagates along the boundary of water layers with different densities beneath the ocean surface is known as an internal wave. Though only detected using scientific instruments, internal waves are the largest waves in the ocean. Their heights may reach hundreds of feet—far larger than the largest waves ever measured on the ocean surface, including tsunami. Thus, we must broaden our definition of an ocean wave to the physical expression of energy moving forward at the interface between two fluids of different density. After all, the atmosphere is a fluid too, so the waves at the surface of the ocean—the ones that we are most familiar with—fit this definition as well as the internal waves.

Moving waves are known as progressive waves because they move, or progress, forward. Where two progressive waves pass through each other in opposite directions, they may create a standing wave. These waves appear to stand still. A standing wave results from wave interference, the interaction of the energies of two or more waves to create a wave that is higher or lower than the individual waves. Under the right circumstances, a standing wave may persist for quite some time. You are most likely to notice them where a wave approaches a seawall and bounces off it, a phenomenon known as wave reflection. The interference of the incoming wave with the reflected wave creates a standing wave. Look for them next time you’re at the beach or walking along a seawall.

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