The buoy moves up and down as the water passes beneath it.
When a water wave passes, a buoy will move up and down in a circular motion. The buoy follows the wave pattern, rising as the wave crest passes and sinking as the wave trough passes. This motion is a combination of vertical and horizontal movement as the wave energy is transferred to the buoy.
When a water wave passes, a buoy moves up and down with the wave motion, but it does not move forward with the wave. The buoy remains in the same location and oscillates in response to the passing wave, but it does not travel along with the wave.
When a water wave passes a buoy, the buoy will move up and down in response to the wave passing underneath it. This motion is known as heaving, and the buoy will follow the shape of the passing wave, moving with the oscillations of the water particles. The buoy will return to its original position once the wave has passed.
An ocean buoy bobs up and down as a wave passes by because the wave causes the water particles to move in circular orbits. The buoy reacts to these circular motions by moving up and down as the wave passes underneath it.
When a wave passes through water, the water molecules themselves do not move horizontally with the wave. Instead, they move in a circular orbital motion as the wave passes, causing the up and down motion we see on the surface. The energy of the wave is what propagates through the water, not the actual water molecules moving in the direction of the wave.
As a water wave passes through, the particles of water move in a circular motion. Each particle of water moves in a circular path, where it oscillates up and down as the wave passes by. This circular motion helps transfer the energy of the wave through the water.
As the wave passes through, water particles move in an orbital motion. The particles move in a circular pattern, with the energy of the wave being transferred horizontally as the wave travels. This orbital motion causes the water to rise and fall as the wave passes through.
The path a water particle takes as a wave passes in deep water is described as circular. As a wave passes, water particles move up and down in a circular motion but do not move forward with the wave itself. The circular motion decreases in size with depth.
As a wave passes by, the particles on the surface of the water move in a circular motion. The particles move in the direction that the wave is traveling causing the water to rise and fall in response to the wave passing by. This circular motion is crucial for transferring energy across the surface of the water.
it goes from crest to trough in a wave like motion. this is the right answer
Water moves in a circular motion during the passage of a wave. As the wave passes through, water particles move in an elliptical path where the motion decreases with depth. This circular motion is responsible for the transfer of energy in a wave.
Particles or floating objects on the surface of a water wave move in a circular motion as the wave passes beneath them. This circular motion is a combination of the wave's horizontal movement and the vertical oscillation of the particle due to the wave's up and down motion.