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

A uniform string of length l, fixed at both ends is vibrating in its 2nd overtone.The maximum amplitude is 'a' and tension in string is 'T', if the energy of vibration contained between two consecutive nodes is K/8 (a^2pi^2T)/l then 'K' is :

A string of length L, fixed at its both ends is vibrating in its 1^(st) overtone mode. Consider two elements of the string of the same small length at positions l_(1)=0.2L"and"l_(2)=0.45L from one end. If K_(1)"and" K_(2) are their respective maximum kinetic energies,then

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 3rd overtone with maximum amplitude a. The amplitude at a distance L//3 from one end is

A string of length L fixed at its at its both ends is vibrating in its 1^(st) overtone mode. Consider two elements of the string of same small length at position l_1=0.2L and l_2=0.45L from one end. If K_1 and K_2 are their respective maximum kinetic energies then

A string of length L fixed at its at its both ends is vibrating in its 1^(st) overtone mode. Consider two elements of the string of same small length at position l_1=0.2L and l_2=0.45L from one end. If K_1 and K_2 are their respective maximum kinetic energies then