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As the sound wave travels through the air, the air particles vibrate back and forth in the direction of the wave, transferring the sound energy.
When sound travels through air, the particles in the air vibrate back and forth in the same direction as the sound wave. These vibrations create changes in air pressure that propagate through the air as sound waves.
Sound is transmitted from a source to the surrounding air particles, which vibrate or collide and pass the sound energy along to our ears. Without any particles to vibrate we wouldn't hear the sound.
When sound travels through air, the particles vibrate back and forth in the direction that the sound wave is traveling. This vibration creates areas of high pressure and low pressure, which our ears perceive as sound. The closer the particles are together, the higher the pressure and the louder the sound.
Particles, e.g gas particles in air, because sound travels through the vibration of particles. Sound waves cannot travel in a vacuum, as there are no particles.
As the sound wave travels through the air, the air particles vibrate back and forth in the direction of the wave, transferring the sound energy.
Sound is transmitted from a source to the surrounding air particles, which vibrate or collide and pass the sound energy along to our ears. Without any particles to vibrate we wouldn't hear the sound.
When sound travels through air, the particles in the air vibrate back and forth in the same direction as the sound wave. These vibrations create changes in air pressure that propagate through the air as sound waves.
Sound is a compression wave that travels via then vibrations of particles. If the particles are closer together then the wave (sound) moves faster. Particles are closer together in a liquid than a gas, therefore sound travels faster through liquids.
Sound is transmitted from a source to the surrounding air particles, which vibrate or collide and pass the sound energy along to our ears. Without any particles to vibrate we wouldn't hear the sound.
It vibrates.
When sound travels through air, the particles vibrate back and forth in the direction that the sound wave is traveling. This vibration creates areas of high pressure and low pressure, which our ears perceive as sound. The closer the particles are together, the higher the pressure and the louder the sound.
Particles, e.g gas particles in air, because sound travels through the vibration of particles. Sound waves cannot travel in a vacuum, as there are no particles.
Sound travels as a wave through a medium, such as air, water, or solids. The vibrations of particles in the medium create pressure changes that propagate as sound waves.
When sound travels, it creates vibrations in the medium it is passing through, such as air, water, or a solid material. These vibrations cause the particles in the medium to move back and forth, transferring the energy of the sound wave. As the sound wave continues to move through the medium, the particles vibrate and transfer the sound energy along the path of the wave.
Sound travels through different mediums by creating vibrations that are transmitted from one particle to another. In solids, such as metal or wood, sound travels fastest because the particles are closely packed together. In liquids, like water, sound travels slower because the particles are more spread out. In gases, such as air, sound travels slowest because the particles are far apart.
Sound travels through solids the fastest, as the particles in solids are closely packed, enabling vibrations to propagate quickly. In liquids, sound travels at a slower speed compared to solids, as the particles are less tightly packed. In gases, sound travels slowest due to the large distance between particles, causing vibrations to propagate more slowly.