Longitudinal waves doesn't exhibit polarization or diffraction; these to features are for transverse waves.
polarization
polarization
Yes longitudinal waves can be diffracted. Example: Light waves.
diffraction
The phenomenon that sound wave fails to exhibit is polarization.
yes
Light shows wave properties through different conditions such as reflection, diffraction, refraction, Poisson's spot, polarization, and interference.
Yes longitudinal waves can be diffracted. Example: Light waves.
diffraction
The phenomenon that sound wave fails to exhibit is polarization.
yes
Light shows wave properties through different conditions such as reflection, diffraction, refraction, Poisson's spot, polarization, and interference.
We make that assumption from scanty, flimsy evidence. The only indication we have is that radio waves exhibit all the properties of reflection, refraction, diffraction, dispersion, polarization, and interference that are characteristic of waves, and that they all closely match the mathematics of wave motion. Other than that, there's nothing to go on.
Sound waves are longitudinal.
The Photoelectric Effect and the Compton effect, both of these effects are explained by Photons.
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: | | | | | | | | | | | | | | | | | | | | | | | | |