If the tension and diameter of a sonometer wire of fundamental frequency n are doubled and the density halved , then its fundamental frequency will become

If the tension and diameter of a sonometer wire of fun-damental frequency n are doubled and the density halved, then its fundamental frequency will become

show that the fundamental frequency of an open pipe is double the fundamental frequency of a closed pipe of the same length .

Two open organ pipes of fundamental frequencies n_(1) and n_(2) are joined in series. The fundamental frequency of the new pipe so obtained will be

If the fundamental frequency of a closed pipe is 200 Hz . What would be the fundamental frequency of an open pipe of equal length ?

The frequency of the fundamental emitted from a taut sonometer wire is 250 s^(-1) . Its length is doubled and the tension is increased in such a way that the fundamental frequency remains the same . Obtain the relation between the new and the original tensions .

Find out the relation between fundamental frequencies of a closed and an open pipe?

If the fundamental frequency emitted by a pipe open at both ends is 200 Hz , what is the frequency of the first overtone?

The ratios of lengths, diameters and masses suspended from the free ends of two sonometer wires of the same meterial are 2 : 3 , 2 : 3 and 1 , 4 , respectively. What is the ratio of their fundamental frequencies ?

If the fundamental frequency emitted by a pipe closed at one end is 200 Hz, what is the frequency of the first overtone ?