That sounds very much like the definition of sound waves - or more precisely pressure waves, which is what sound waves are.
A series of compressions and rarefactions moving through a medium is called a sound wave. Sound waves travel through different mediums, such as air, water, or solids, by transferring energy in the form of mechanical vibrations.
A series of rarefactions and compressions that travel through a substance is called a sound wave. Sound waves are created by vibrations and propagate by causing particles in the medium to move back and forth in the same direction of the wave.
This describes a sound wave, where compressions are regions of high pressure and rarefactions are regions of low pressure. Sound waves travel through a medium, such as air or water, by causing particles in the medium to vibrate back and forth.
Yes, rarefactions and compressions travel in the same direction in a longitudinal wave. A rarefaction is when particles are spaced further apart, and a compression is when particles are closer together, moving in the same direction through the medium.
Sound waves travel through a medium by causing particles in the medium to vibrate back and forth. These vibrations create a series of compressions and rarefactions that propagate as the sound wave moves through the medium.
A series of compressions and rarefactions moving through a medium is called a sound wave. Sound waves travel through different mediums, such as air, water, or solids, by transferring energy in the form of mechanical vibrations.
You can create a soundwave by causing a vibration in a medium, such as air or water, which will produce a series of compressions and rarefactions that travel through the medium as a sound wave.
A series of rarefactions and compressions that travel through a substance is called a sound wave. Sound waves are created by vibrations and propagate by causing particles in the medium to move back and forth in the same direction of the wave.
This describes a sound wave, where compressions are regions of high pressure and rarefactions are regions of low pressure. Sound waves travel through a medium, such as air or water, by causing particles in the medium to vibrate back and forth.
Yes, rarefactions and compressions travel in the same direction in a longitudinal wave. A rarefaction is when particles are spaced further apart, and a compression is when particles are closer together, moving in the same direction through the medium.
Sound waves from a vibrating source travel through a medium, such as air or water, by creating a series of compressions and rarefactions that propagate outward in all directions.
Sound waves travel through a medium by causing particles in the medium to vibrate back and forth. These vibrations create a series of compressions and rarefactions that propagate as the sound wave moves through the medium.
a series copression and rarefraction traving through a medium
Sound waves begin when an object vibrates, causing particles in the medium to also vibrate. These vibrations create a series of compressions and rarefactions that travel through the medium as the sound wave propagates.
In a sound wave, compressions and rarefactions are regions of high pressure and low pressure respectively. They travel in the same direction as the wave itself. As the wave propagates, compressions and rarefactions move through the medium in the same direction, creating the oscillating pattern of high and low pressure that we perceive as sound.
Sound disturbance is propagated by compressions and rarefactions through the air medium. Air is a material medium. If such a material medium is absent then sound waves cannot be propagated. These compressions and rarefactions confirm that the wave is of longitudinal in nature.
A sound wave travels through a medium by causing particles in the medium to vibrate back and forth in the same direction as the wave's movement. This vibration creates a series of compressions and rarefactions that propagate through the medium, carrying the sound energy from the source to our ears.