Yes longitudinal waves can be diffracted. Example: Light waves.
Longitudinal waves doesn't exhibit polarization or diffraction; these to features are for transverse waves.
diffraction
yes
Radio wave is not a longitudinal wave it is a transverse wave
A longitudinal wave is a wave of which the disturbance direction is the same direction of the direction of the wave. Waves done in a spring and sound waves are an example. A longitudinal wave: | | | | | | | | | | | | | | | | | | | | | | | | |
Longitudinal waves doesn't exhibit polarization or diffraction; these to features are for transverse waves.
diffraction
yes
Sound waves are longitudinal.
Radio wave is not a longitudinal wave it is a transverse wave
Longitudinal Wave
A sound wave is indeed a longitudinal wave as opposed to a transverse wave
A longitudinal wave is a wave of which the disturbance direction is the same direction of the direction of the wave. Waves done in a spring and sound waves are an example. A longitudinal wave: | | | | | | | | | | | | | | | | | | | | | | | | |
They don't exhibit polarization.
Sound, at least in gases like air, can only propagate as a longitudinal wave.
A wave must be transverse or longitudinal or both.
"Diffraction" does.