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Longitudinal... No, the particles move transverse to the wave direction. And that they are in 2 perpendicular surfaces, which are intersected in a line, and that line is the base line of the 2 direction waves.
There are only two types of mechanical waves: longitudinal waves, and transverse waves..In a longitudinal wave, the waves themselves oscillate, or vibrate, in the same direction as the wave travel. Longitudinal waves are also called compression waves. Sound and seismic P-waves are examples of mechanical longitudinal waves..In a transverse wave, the waves oscillate perpendicular to the direction of the wave travel. Ocean waves and seismic S-waves are examples of mechanical transverse waves..See the related links for further information about longitudinal and transverse waves.
If you hold the ends of a slinky toy so that it is stretched out horizontally you can demonstrate excitations of both transverse and longitudinal waves. If you move one end of the slinky up and down in a periodic fashion you will see transverse waves. If you move one end of the slinky in and out along the horizontal direction that it is stretched out in, you will excite longitudinal waves.
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Automobile accidents are a fine example.
Sound is vibration transmitted through a solid, liquid, or gas. To see sound waves as longitudinal waves in air moving, scroll down to related links and look at "Longitudinal wave - Wikipedia".
Longitudinal... No, the particles move transverse to the wave direction. And that they are in 2 perpendicular surfaces, which are intersected in a line, and that line is the base line of the 2 direction waves.
Sound is vibration transmitted through a solid, liquid, or gas. To see sound waves as longitudinal waves in air moving, scroll down to related links and look at "Longitudinal wave - Wikipedia".
There are only two types of mechanical waves: longitudinal waves, and transverse waves..In a longitudinal wave, the waves themselves oscillate, or vibrate, in the same direction as the wave travel. Longitudinal waves are also called compression waves. Sound and seismic P-waves are examples of mechanical longitudinal waves..In a transverse wave, the waves oscillate perpendicular to the direction of the wave travel. Ocean waves and seismic S-waves are examples of mechanical transverse waves..See the related links for further information about longitudinal and transverse waves.
If you hold the ends of a slinky toy so that it is stretched out horizontally you can demonstrate excitations of both transverse and longitudinal waves. If you move one end of the slinky up and down in a periodic fashion you will see transverse waves. If you move one end of the slinky in and out along the horizontal direction that it is stretched out in, you will excite longitudinal waves.
For example, without light you wouldn't be able to see; without sound you wouldn't be able to hear. Moreover, all matter is made up of waves, in a way.
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yes
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the same manner that sound travels in a fluid (gas or liquid) -- longitudinal waves. Please see the related link. =========================
Assuming that you are referring to longitudinal waves, the area where particles are closest together would be called the "compression" area. The "rarefaction" is the opposite; this is where the medium is least dense. Sound is a good example of longitudinal waves. If you look closely at a speaker cone, you be able to see that they seem to move in and out very rapidly. This is what "pushes" and "pulls" the air molecules and creates compressions and rarefactions which our ears receive and transmit as a neural impulse to our brain, allowing us to hear. Although transverse and longitudinal waves are both different types of waves, they are dissimilar (particles in a transverse wave move perpendicular to the motion of the wave (up and down) where as particles in a longitudinal wave move in the direction the wave is traveling).
You can see them all, if you know where to look