![]() You cannot see a virus with a light microscope because the virus is smaller than the wavelength of visible light. A fundamental principle of imaging is that you cannot see an object which is smaller than the wavelength of the wave with which you view it. Good sealing of loudspeaker cabinets is required for similar reasons.Īnother implication of diffraction is the fact that a wave which is much longer than the size of an obstacle, like the post in the auditorium above, cannot give you information about that obstacle. Good soundproofing requires that a room be well sealed, because any openings will allow sound from the outside to spread out in the room - it is surprising how much sound can get in through a small opening. Besides being able to hear the sound when you are outside the door as in the illustration above, this spreading out of sound waves has consequences when you are trying to soundproof a room. This aspect of diffraction also has many implications. You may perceive diffraction to have a dual nature, since the same phenomenon which causes waves to bend around obstacles causes them to spread out past small openings. There are other factors such as the higher air absorption of high frequencies involved, but diffraction plays a part in the experience. The thunder from a distant strike will be experienced as a low rumble since it is the long wavelengths which can bend around obstacles to get to you. The thunder from a close bolt of lightning will be experienced as a sharp crack, indicating the presence of a lot of high frequency sound. Another common example of diffraction is the contrast in sound from a close lightning strike and a distant one. ![]() The fact that diffraction is more pronounced with longer wavelengths implies that you can hear low frequencies around obstacles better than high frequencies, as illustrated by the example of a marching band on the street. Diffraction in such cases helps the sound to "bend around" the obstacles. The fact that you can hear sounds around corners and around barriers involves both diffraction and reflection of sound. Important parts of our experience with sound involve diffraction. The aperture or the diffracting object effectively then becomes the second source of the wave.Diffraction of Sound Diffraction of Soundĭiffraction: the bending of waves around small* obstaclesand the spreading out of waves beyond small* openings.* small compared to the wavelength The wave then bends around the corners of an obstacle, through apertures into the regions of the shadow of the obstacle. Note: Diffraction refers to the phenomenon of a wave encountering an opening or obstacle. Therefore to encounter diffraction on electromagnetic waves in our normal lives, we would require microwaves and not visible light since microwaves have a much higher wavelength and the longer wavelengths of about $3\ cm$ can be seen in low light conditions. This does not happen in electromagnetic waves.įor observing the phenomenon of diffraction, the order of the magnitude of the wavelength of the waves should be comparable to that of the slit width. The motion of vibration in longitudinal waves is in the same direction as the wave propagation. Sound travels by longitudinal waves which radiate outward in concentric circles. The general wavelength of visible light ranges from $7000 \times m$. The wavelength of sound generally ranges from $17\ m$ to $15\ mm$. ![]() The frequency of human audible sound waves lies from $20\ Hz$ to $20\ kHz$. The wavelength of sound waves is much higher than that of visible light. This condition is satisfied only for sound waves in everyday life. ![]() For diffraction to occur, the slit width should be comparable to the wavelength of the light or sound waves. Hint: The reason for the diffraction of sound waves being more evident in daily experience than light waves is that sound waves have much higher wavelength compared to the visible light waves.
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