A string of length L is stretched along the x-axis and is rigidly clamped at its two ends. It undergoes transverse vibration. If n an integer, which of the following relations may represent the shape of the string at any time :-

A string of length 1 is stretched along the x -axis and is rigidly clamped at x=0 and x=1 . Transverse vibrations are produced in the string. For n^(th) harmonic which of the following relations may represents the shape of the string at any time (a) y=2Acosomegatcos((npix)/(l)) (b) y=2Asinomegatcos((npix)/(l)) (c ) y=2Acosomegatsin((npix)/(l)) (d) y=2Asinomegatsin((npix)/(l))

A string is stretched within two rigid ends. It is vibrated in a node of first overtone. Which of the following is formed at a middle point of a string ?

A string of length 2x is stretched by 0.1 x and the velocity of a transverse wave along it is v. When it is stretched by 0.4x , the velocity of the wave is

A string of length 1m stretched at both ends vibrating with frequency 300Hz which is 3 times the fundamental frequency

A string of length 2L, obeying Hooke's Law, is stretched so that its extension is L. The speed of the tranverse wave travelling on the string is v. if the string is futher stretched so that the extension in the string becomes 4L. The speed of transverse wave travelling on the string will be

One end of a taut string of length 3m along the x-axis is fixed at x = 0 . The speed of the waves in the string is 100ms^(-1) . The other end of the string is vibrating in the y-direction so that stationary waves are set up in the string. The possible wavelength (s) of these sationary waves is (are)

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

A string of length 0.4 m and mass 10^(-2) kg is clamped at its ends. The tension in the string is 1.6 N. When a pulse travels along the string the shape of the string is found to be the same at times t and t+trianglet . The value trianglet is