transverse waves- the medium vibrates up and down, example- visible light, gamma and xrays. compression/longitudinal- move back and forth and need a medium to travel in. example- slinky.
Compressional waves are closer together, transverse waves are farther apart.
They are both mechanical waves.
In compressional waves the medium moves forward and backward along the direction a wave travels. While, transverse waves the wave energy causes matter in the medium to move up and downor back and forth at right angles to the direction thw wave travels.
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Transverse waves are moving waves that consist of oscillations that occur perpendicular to the direction of energy transfer.
Longitudinal waves are waves that have the same direction of vibration as their direction of travel.
Compressed waves are also called longitudinal waves. Also, they move parallel to the directions of its wave motions going closer apart. They vibrate back and forth just like slinky. Transverse wave always vibrates up and down like visible lights, gamma and x-rays. It will also move perpendicular (at right angles to) going further apart.
i hope this helps a lot!!^.^
When the energy is transfered through medium, the particles in the medium have to vibrate simple harmonically. If they vibrated in a perpendicular direction to the direction of propagation of the wave, then it is named as transverse wave. But in longitudinal wave, the vibrations of particles of the medium will be paralled to the direction of propagation of the wave. So this is the most important difference.
Another most important requirement for the propagation of transverse wave through material medium is that the medium has to be cohesive. Hence as gas has no cohesion, no chance for transverse waves to get propagated through gas medium.
Similarity is that in both energy is being porpagated in the form of disturbance.
there is no diffrence infact they r the same thing and meaning they just ahve diffrent names for diffrent part of the country.
Transverse waves move at a right angle to the direction the wave travels, a compressional wave moves back and forth in the same direction the wave travels.
Transverse waves move up and down.
Longitudinal waves move left to right.
They are both waves
trans: A rope :D
Com: Coil :D
They are transverse waves.
They are best modeled as transverse waves.
Th angle of vibration is 90 degrees different..
False. Compressional.
Transverse waves have crests and troughs. Longitudinal waves have compressions and rarefactions.
They are transverse waves.
They are best modeled as transverse waves.
Th angle of vibration is 90 degrees different..
There are 3 broad types of seismic waves, Surface waves, S-waves and P-waves. Love waves (a type of surface wave) and S-waves are transverse waves and P-waves are compressional.
Compressional, gasses can be compressed but cannot be wiggled side to side.
Transverse.
Sound is a compressional wave.
False. Compressional.
Transverse and Compressional electromagetic waves Another opinion: No electromagnetic waves are compressional waves. They're all transverse. I think what the question was looking for is: -- Heat and visible light -- Radio waves and X-rays -- Ultraviolet and gamma rays etc.
Transverse waves have crests and troughs. Longitudinal waves have compressions and rarefactions.
A transverse wave causes particles in matter to move at right angles to the direction in which the wave travels. A compressional wave causes particles in matter to move back and forth alog the same direction in which the wave is traveling.
They use micowaves, so they are transverse (def. oscillations are perpendicular to the direction of wave propagation).