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Transverse waves and longitudinal waves are both types of mechanical waves. They both transfer energy through a medium, but their motion and displacement of particles in the medium differ. In transverse waves, particles move perpendicular to the direction of wave propagation, while in longitudinal waves, particles move parallel to the direction of wave propagation.
Longitudinal Wave:The oscillation is is parallel to the direction of wave travel.Example:sound, spring,"P_type" earthquake waveTransverse Waves:The Oscillation is perpendicular to the direction of wave travel.Example:radio or light waves , string, "S-type", earthquake waves.
Sound is a longitudinal wave and a light wave is a transverse wave. Sound requires a medium to travel through but light can propagate without any medium.
light waves are transversal, seismic waves are longitudinal.
I think the reason why is that the particles in a gas move freely and they move fast. Therefor the particles in a liquid slide past eachother and the reason why that they're differ from eachoth is because a gas and a liquid are differ from eachother like an example, They particles in a gas heat up and move freely
Transverse waves and longitudinal waves are both types of mechanical waves. They both transfer energy through a medium, but their motion and displacement of particles in the medium differ. In transverse waves, particles move perpendicular to the direction of wave propagation, while in longitudinal waves, particles move parallel to the direction of wave propagation.
Longitudinal Wave:The oscillation is is parallel to the direction of wave travel.Example:sound, spring,"P_type" earthquake waveTransverse Waves:The Oscillation is perpendicular to the direction of wave travel.Example:radio or light waves , string, "S-type", earthquake waves.
Sound is a longitudinal wave and a light wave is a transverse wave. Sound requires a medium to travel through but light can propagate without any medium.
The waves are the scalar and vector parts of Quaternion derivatives: [d/dr, DEL]2 [b,B] = The Longitudinal wave (d2/dr2 - DEL2)b - 2d/dr DEL.B is a scalar wave The Transverse wave (d2/dr2 - DEL2)B + 2d/dr( DEL b + DELxB) is a vector wave.
The particles are free
In longitudinal section, the walls of the atria are thinner, and lined with pestinate muscles. The walls of the ventricles, meanwhile, are thick and muscular.
light waves are transversal, seismic waves are longitudinal.
I think the reason why is that the particles in a gas move freely and they move fast. Therefor the particles in a liquid slide past eachother and the reason why that they're differ from eachoth is because a gas and a liquid are differ from eachother like an example, They particles in a gas heat up and move freely
Electromagnetic waves are transverse in nature where as sound waves are longitudinal. Electromagnetic waves can pass even through vacuum but sound waves are mechanical waves that means it needs badly a material medium Sound waves can be sensed by ear where as electromagnetic waves are sensed by eyes.
gas particles are far and liquid particles are not too much far
Gases particles move through and faster than the particles in a solid
Gases particles move through and faster than the particles in a solid