They move in a circular motion
In a sound wave, particles move back and forth in the same direction as the wave travels, while in a water wave, particles move in a circular motion.
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.
In a wave, the energy is transferred through the water rather than the actual water particles moving along with the wave. The water particles move in a circular motion as the wave passes through them, but they do not travel in the direction of the wave.
No water particles move outward. It appears so. Actually the water particle do up and down simple harmonic oscillation but successively. So it appears as if something move outward. Actually the distrubance moves and not the particle of the medium
As the energy wave moves through the water, the still water particles start to oscillate or move in a circular motion. The particles transfer energy to neighboring particles causing them to also move in a wave-like pattern. This movement is what we perceive as the wave passing through the water.
In a sound wave, particles move back and forth in the same direction as the wave travels, while in a water wave, particles move in a circular motion.
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.
its the particles in the water
In a wave, the energy is transferred through the water rather than the actual water particles moving along with the wave. The water particles move in a circular motion as the wave passes through them, but they do not travel in the direction of the wave.
In an ocean wave, water particles move in a circular motion. As the wave passes through, water particles move in an elliptical path, with the motion decreasing in size as it gets deeper. The circular motion of water particles is what helps transport energy across the ocean surface.
Water particles (molecules) move transversely to the direction of propagation of the wave. That means that as the wave moves out across the water, which is its direction of propagation, the water molecules move up and down (transversely) to create the crests and troughs of the wave.
No water particles move outward. It appears so. Actually the water particle do up and down simple harmonic oscillation but successively. So it appears as if something move outward. Actually the distrubance moves and not the particle of the medium
As the energy wave moves through the water, the still water particles start to oscillate or move in a circular motion. The particles transfer energy to neighboring particles causing them to also move in a wave-like pattern. This movement is what we perceive as the wave passing through the water.
In an ocean wave, water particles move in circular motion as the wave passes by. As the wave travels through the water, the particles move in a circular orbital path - initially forward and then back to their original position. The motion decreases in amplitude with depth, becoming negligible at depths greater than half the wavelength of the wave.
the particles in a surface water move back- and- forth only.
In wave motion, the water particles move in circular orbits, transferring energy rather than overall displacement. This means that while individual water particles move in a wave, there is no net movement of water in the direction of the wave's propagation.
A wave that causes particles to move up and down is called a transverse wave. In this type of wave, the motion of the particles is perpendicular to the direction of the wave itself. Examples include light waves and water waves.