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Are Sound waves longitudinal mechanical compression waves?
Yes, sound waves are longitudinal mechanical waves that result from the compression and rarefaction of molecules in a medium as energy is transmitted through it. These waves move by causing particles in the medium to move in the same direction as the wave itself.
Are sound waves longitudinal mechanical and compression waves?
Yes, sound waves are longitudinal waves, meaning the particles of the medium vibrate in the same direction as the wave is propagating. They are also compression waves, which means that regions of high pressure (compression) and low pressure (rarefaction) propagate through the medium as the wave travels.
What is longitudinal waves?
When the particles of a medium displaces due to compression and rarefaction in the direction of the force, it is known as longitudinal waves.
Are pressure waves longitudinal waves?
Yes, pressure waves are longitudinal waves. They travel through a medium by compressing and expanding the particles in the same direction as the wave's motion. This causes regions of high pressure (compression) and low pressure (rarefaction) to propagate through the medium.
What is a wave in which the disturbance of the medium is in the same direction as the wave motion?
A wave in which the disturbance of the medium is in the same direction as the wave motion is called a longitudinal wave. In longitudinal waves, the particles of the medium oscillate back and forth in the direction of the wave propagation. Examples of longitudinal waves include sound waves in air and seismic waves in the Earth.
How are longitudinal waves used in communication?
All sound waves are longitudinal (compression/rarefaction) waves.
How does longitudinal wave travel?
Longitudinal waves are waves that have the same direction of vibration along their direction of travel, which means that the vibration of the medium (particle) is in the same direction or opposite direction as the motion of the wave. Mechanical longitudinal waves have been also referred to as compressional waves or compression waves
What kind waves cause particles in rocks to move back and forth in the same direction?
Longitudinal or compression waves.
What kind of waves caused particles of rocks to move back and forth in the same direction?
Longitudinal or compression waves.
What kind of waves cause particles in rocks to move back and forth in the same direction?
Longitudinal or compression waves.
Are Sound waves longitudinal mechanical compression waves?
Yes, sound waves are longitudinal mechanical waves that result from the compression and rarefaction of molecules in a medium as energy is transmitted through it. These waves move by causing particles in the medium to move in the same direction as the wave itself.
Are sound waves longitudinal mechanical and compression waves?
Yes, sound waves are longitudinal waves, meaning the particles of the medium vibrate in the same direction as the wave is propagating. They are also compression waves, which means that regions of high pressure (compression) and low pressure (rarefaction) propagate through the medium as the wave travels.
What is a name for P waves?
Primary waves / compression waves / longitudinal waves.
Why are Longitudinal waves sometimes referred to as pressure waves?
Longitudinal waves involve the compression and rarefaction of a medium in the same direction as the wave is moving. This compression and rarefaction lead to changes in pressure within the medium, giving rise to the term "pressure waves".
Longitudinal waves are also called?
Yes, there is another name for longitudinal waves which is 'Elastic Waves'. These waves have the same direction of vibration, as their direction of travel. These waves consist of Compressions and Rarefractions. Mechanically they are also called as Compression waves.
What is longitudinal waves?
When the particles of a medium displaces due to compression and rarefaction in the direction of the force, it is known as longitudinal waves.
Are pressure waves longitudinal waves?
Yes, pressure waves are longitudinal waves. They travel through a medium by compressing and expanding the particles in the same direction as the wave's motion. This causes regions of high pressure (compression) and low pressure (rarefaction) to propagate through the medium.
