If the tension of a string is doubled , the fundamental frequency changes will be

Assertion: If the tension in the string is doubled, then frequency of fundamental node becomes two times. Reason: According to law of tension, frequency prop("tension")^(1//2)

The length and diameter of a metal wire is doubled the fundamental frequency of vibration will change from n to (tension being kept constant and material of both the wires is same)

An open pipe of certain length produces fundamental frequency 500 Hz. A closed pipe of some other length produces fundamental frequency 450 Hz. When the two are joined to form a longer close tube, its fundamental frequency will be

If pipe open at both the ends has an effective length of 0.5 m, then the frequency of the note which is octave its fundamental frequency will be

In law of tension , the fundamental frequency of vibrating string is

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

If n_(1), n_(2 ) "and" n_(3) are the fundamental frequencies of three segments into which a string is divided, then the original fundamental frequency n of the string is given by

Show that the fundamental frequency of vibrations of the air column in a tube open at both is equal to double the fundamental frequency in a tube of the same length and closed at one end.

A tube, closed at one end and containing air, produces, when excited, the fundamental note of frequency 512 Hz . If the tube is open at both ands the fundamental frequency that can be excited is (in Hz)

The frequency of a stretched uniform wire under tension is in resonance with the fundamental frequency of a closed tube. If the tension in the wire is increased by 8 N , it is in resonance with the first overtone of the closed tube. The initial tension in the wire is