A string of length 'L' is fixed at both ends . It is vibrating in its ` 3rd` overtone with maximum amplitude 'a'. The amplitude at a distance `L//3` from one end is

A string of length 'l' is fixed at both ends. It is vibrating in its 3^(rd) overtone with maximum ampltiude 'a' . The amplitude at a distance (l)/(3) from one end is = sqrt(p)(a)/(2) . Find p .

A open pipe of length l is vibrating in 3rd overtone with maximum amplitude A. The amplitude at a distance of (l)/(16) from any open end is

A closed organ pipe has length 'l' . The air in it is vibrating in 3^(rd) overtone with maximum amplitude 'a' . Find the amplitude at a distance of l//7 from closed end of the pipe.

A closed organ pipe has length L . The air in it is vibrating in thirf overtone with maximum ampulitude a . The amplitude at distance (L)/(7) from closed of the pipe is

A closed organ pipe has length L . The air in it is vibrating in third overtone with maximum amplitude a . The amplitude at distance (L)/(7) from closed of the pipe is a) 0 b) a c) a/2 d) data insufficient

A string of length L fixed at both ends vibrates in its first overtone. Then the wavelength will be

An open organ pipe has length l .The air in it vibrating in 3^( rd ) overtone with maximum amplitude A.The amplitude at a distance of (l)/(6) from any open end is.