Electromagnetic waves, such as light, are vibration particles that can move through a vacuum. These waves do not require a medium to propagate and travel through empty space at the speed of light.
No, sound cannot travel in a vacuum because it requires a medium, such as air, water, or a solid, for the vibration to propagate. In the absence of a medium, there are no particles for the sound waves to interact with, so they cannot move through a vacuum.
Air particles move back and forth in the direction of the vibration when they cause it. The energy from the vibrations is transferred through the air as sound waves.
In a vacuum, there is no air resistance or friction to slow down the particles, allowing them to move faster without any impediments. This lack of resistance enables the particles to move freely and at their maximum speed.
When sound travels through air, the air particles are set into vibration by the source of the sound. This vibration causes the particles to move back and forth, creating a series of compressions and rarefactions. These compressions and rarefactions are what we perceive as sound.
No, light waves can travel through a vacuum because they are electromagnetic waves. In a vacuum, there are no particles for the waves to interact with, so they can propagate freely.
No, sound cannot travel in a vacuum because it requires a medium, such as air, water, or a solid, for the vibration to propagate. In the absence of a medium, there are no particles for the sound waves to interact with, so they cannot move through a vacuum.
Air particles move back and forth in the direction of the vibration when they cause it. The energy from the vibrations is transferred through the air as sound waves.
When the squashing of particles ends during a vibration, the particles will start to move back to their original positions due to their elasticity. This movement creates a wave-like pattern that propagates through the medium. The energy of the vibration is transferred through the particles in the form of mechanical waves.
No: worst. Sound cannot travel though a vacuum.
In a vacuum, there is no air resistance or friction to slow down the particles, allowing them to move faster without any impediments. This lack of resistance enables the particles to move freely and at their maximum speed.
When sound travels through air, the air particles are set into vibration by the source of the sound. This vibration causes the particles to move back and forth, creating a series of compressions and rarefactions. These compressions and rarefactions are what we perceive as sound.
No, light waves can travel through a vacuum because they are electromagnetic waves. In a vacuum, there are no particles for the waves to interact with, so they can propagate freely.
vacuum answer 2 Sound is a vibration of molecules, and thus cannot travel in a vacuum, where there are no molecules.
Sound waves move through different mediums by causing particles in the medium to vibrate back and forth in the direction of the wave. The particles pass on the energy of the vibration to neighboring particles, allowing the sound wave to travel through the medium. The speed of sound waves can vary depending on the properties of the medium, such as its density and elasticity.
No, mechanical waves require a medium (such as air, water, or solids) to propagate. Without a medium, like in a vacuum, there are no particles for the wave to travel through, so it cannot propagate. Sound waves, for example, can't travel through a vacuum.
vibration
Objects that can move in a vacuum are those that do not require air or any other medium to travel, such as light, spacecraft, and particles.