As a sound wave travels, what happens to the particles in the medium it travels through?(1 point)
The particles bump into each other, moving back and forth but after it passes they
remain where they were initially.
The particles remain stationary, allowing the wave to pass around them.
The particles travel outwards with the wave, ending up far from where they started.
The particles bump into each other, moving back and forth as well as traveling with
the wave as it moves, ending up far from where they started
The correct answer is: The particles bump into each other, moving back and forth as well as traveling with the wave as it moves, ending up far from where they started.
The correct answer is: The particles bump into each other, moving back and forth as well as traveling with the wave as it moves, ending up far from where they started.
The correct answer is: The particles bump into each other, moving back and forth but after it passes they remain where they were initially.
When a sound wave travels through a medium, such as air or water, it creates a pattern of compression and rarefaction. This means that the particles in the medium are pushed closer together (compression) and then spread apart (rarefaction) as the wave passes through.
As the sound wave passes through the medium, it causes the particles to vibrate or oscillate. These vibrations are transmitted from one particle to the next through a series of collisions or "bumping" into each other. This back-and-forth motion of the particles is what allows the sound wave to propagate through the medium.
However, it is important to note that while the particles are moving back and forth, they do not travel with the wave or end up far from their initial positions. Once the wave has passed, the particles return to their original positions and remain stationary until the next wave passes through.
So, the correct answer is that the particles bump into each other, moving back and forth but after the wave passes they remain where they were initially.