As a wave passes by, the ribbon will move in the direction of the wave's energy. The ribbon will oscillate or vibrate based on the movement of the passing wave, but it won't necessarily move in a fluid or continuous manner like a stream or current. The ribbon's movement will depend on factors such as the wave's frequency, amplitude, and the ribbon's own flexibility.
The colored ribbon vibrates back and forth perpendicular to the direction of the wave as the waves pass by. It does not move in the same direction as the wave; rather, its movement is perpendicular to the wave's direction.
The colored ribbon will move up and down in a wave-like pattern as waves pass by, creating a series of crests and troughs along its length. The ribbon will oscillate back and forth in the direction of the wave propagation, following the motion of the passing waves.
The ribbon moves up and down in a rolling motion as waves pass by. This motion is caused by the circular motion of the water particles within the wave that transmit energy along the surface of the water.
When a longitudinal wave is sent along the spring, the particles of the ribbon will oscillate back and forth in the direction of the wave propagation. This means that the ribbon will compress and expand alternatively as the wave passes through it, giving the appearance of movement along the spring in the direction of the wave. The particles themselves do not actually move in this direction; they simply oscillate about their equilibrium positions.
In a longitudinal wave, particles of the medium oscillate in the same direction that the wave is traveling. The particles move back and forth parallel to the direction of the wave.
The colored ribbon vibrates back and forth perpendicular to the direction of the wave as the waves pass by. It does not move in the same direction as the wave; rather, its movement is perpendicular to the wave's direction.
The colored ribbon will move up and down in a wave-like pattern as waves pass by, creating a series of crests and troughs along its length. The ribbon will oscillate back and forth in the direction of the wave propagation, following the motion of the passing waves.
The ribbon moves up and down in a rolling motion as waves pass by. This motion is caused by the circular motion of the water particles within the wave that transmit energy along the surface of the water.
When a longitudinal wave is sent along the spring, the particles of the ribbon will oscillate back and forth in the direction of the wave propagation. This means that the ribbon will compress and expand alternatively as the wave passes through it, giving the appearance of movement along the spring in the direction of the wave. The particles themselves do not actually move in this direction; they simply oscillate about their equilibrium positions.
In a longitudinal wave, particles of the medium oscillate in the same direction that the wave is traveling. The particles move back and forth parallel to the direction of the wave.
The Secondary or S-wave is a transverse wave associated with earthquakes that can not pass through liquids.
No, the wave itself doesn't transport the colored ribbon. The wave's motion causes the coil spring to vibrate, which in turn moves the ribbon by displacing it back and forth along the length of the spring.
As waves pass through a rope, the individual particles of the rope move in a circular motion perpendicular to the direction of wave propagation. This creates a pattern of vibration along the rope that moves with the wave. The energy of the wave causes the particles of the rope to oscillate back and forth, transferring the wave energy along the length of the rope.
As waves pass through a rope, the rope itself does not move horizontally with the waves. Instead, the individual particles making up the rope move in elliptical orbits perpendicular to the direction of wave propagation. This motion creates the appearance of the wave passing through the rope.
S-waves can ONLY move through solid rock.
the suns move aroung etternally
The colored ribbon vibrates in a back-and-forth motion as air flows around it, causing it to move in a waving or rippling fashion. The movement of the ribbon is a result of the interaction between the air currents and the flexibility of the material, creating an oscillating pattern as it passes by.