When we speak loudly in a big empty hall or in a temple, we hear our own sound repeatedly. This is called echo. An echo can also be heard by shouting near a deep ditch or a well. The thunder of clouds, is another example of echo.
We know that sound travels from one place to another in the form of waves. The velocity of sound in the air is (340 metres 1100 ft) per second. When we speak, the sound waves emanating from our mouth spread out in all the directions. When these waves meet a wall or some other obstacle in their way, they are reflected back. These reflected waves are heard by us as an echo. Hence echo is produced when sound waves are reflected by some obstacle.
To hear an echo, it is essential that the obstacle reflecting the sonund waves must be situated at least 17 metres or 55 feet from us. This is because, the effect of sound persists on our ears for one-tenth of a second. If some sound signal has reached the ears and within one tenth of a second another sound signal reaches our ears, it will not be distinguished because during this period the effect of the earlier sound is persisting in the ear. Sound travels about 34 metres or 110 ft in one-tenth of a second. As such, if the object reflecting the sound waves is situated 17 metres away from the speaker, the time taken for the sound to travel this distance, from the speaker's mouth to the object and back to him would be one-tenth of a second and the reflected sound can be distinguished by our ear as an echo.
All objects do not reflect sound. There are some materials like wood, jute, cardboard etc. which absorb sound.
Today we find that in modern buildings the architects use methods and materials which reduce echoes and favour good sound transmission. Auditoriums are now built with rounded corners and few large flat surfaces. This prevents sound waves from being reflected to any one position. They are scattered in many directions and the only sounds heard are those sent out from the source. Some fibre boards having many holes are used for making rooms sound proof. By the use of these materials the sound waves are either absorbed or scattered so the production of echo is reduced.
We know that sound travels from one place to another in the form of waves. The velocity of sound in the air is (340 metres 1100 ft) per second. When we speak, the sound waves emanating from our mouth spread out in all the directions. When these waves meet a wall or some other obstacle in their way, they are reflected back. These reflected waves are heard by us as an echo. Hence echo is produced when sound waves are reflected by some obstacle.
To hear an echo, it is essential that the obstacle reflecting the sonund waves must be situated at least 17 metres or 55 feet from us. This is because, the effect of sound persists on our ears for one-tenth of a second. If some sound signal has reached the ears and within one tenth of a second another sound signal reaches our ears, it will not be distinguished because during this period the effect of the earlier sound is persisting in the ear. Sound travels about 34 metres or 110 ft in one-tenth of a second. As such, if the object reflecting the sound waves is situated 17 metres away from the speaker, the time taken for the sound to travel this distance, from the speaker's mouth to the object and back to him would be one-tenth of a second and the reflected sound can be distinguished by our ear as an echo.
All objects do not reflect sound. There are some materials like wood, jute, cardboard etc. which absorb sound.
Today we find that in modern buildings the architects use methods and materials which reduce echoes and favour good sound transmission. Auditoriums are now built with rounded corners and few large flat surfaces. This prevents sound waves from being reflected to any one position. They are scattered in many directions and the only sounds heard are those sent out from the source. Some fibre boards having many holes are used for making rooms sound proof. By the use of these materials the sound waves are either absorbed or scattered so the production of echo is reduced.
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