The mass of string (M) = 2 . 5 g , length (l) = 25 cm and tension (T) = 25 N . Determine the fundamental frequency of transverse vibration in the string .

A 2 kg mass is suspended from the free end of a sonometer wire. The radius of the wire is 0 . 1 mm and the density of its meterial is 8 g * cm^(-3) . What is the velocity of the transverse vibration in the string ?

A wire, kept between two bridges 25 cm apart, is stretched through a linear expansion of 0.04 cm . Find the fundamental frequency of vibration of the wire. Given, the density and the Young's modulus of the material of the wire are 10 g*cm^(-3) and 9xx 10^(11) dyn * cm^(-2) , respectively.

A hollow pipe of length 0. 8 m is closed at one end. At its open end a 0 . 5 m long uniform string is vibrating in its second harmonic and it resonates with the fundamental frequency of the pipe. It the tension in the wire is 50 N and the speed of sound is 320 m* s^(-1) . the mass of the string is

When a string is divided into three segments of length l_(1) , l_(2), and l_(3) the fundamental frequencies of these three segments are v_(1) , v_(2) and v_(3) respectively . The original fundamental frequency (v) of the string is

A unifrom wire of length 1 m has mass 1 g . Under the tension 40 N . Find the velocity of sound wave ( transverse ) in the wire .

The fundamental frequency of transverse vibration in a taut string is 200 Hz . What will be the fundamental frequency If the length of the string is doubled, with its tension unchanged ?