It is desired to increase the fundamental resonance frequency in a tube which is closed at one end. This cannot be achieved by

It is desired to increse the fundamental resonance frequency in a tube which is closed at one end. This can be achieved by

The condition for first resonance in a resonating air column closed at one end is

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

In an open organ pipe the fundamental frequency is 30 Hz. If the organ pipe is closed at one end, then the fundamental frequency will be

A tube, open at only one end, is cut into two shorter (non equal) lengths. The piece that is open at both ends has a fundamental frequency of 425 Hz, while the piece open only at one end has a fundamental frequency of 675 Hz. What is the fundamental frequency of the original tube?

An open pipe when closed at one end can resonate in its third harmonic with a frequency which is 100Hz more than its fundamental frequency as an open pipe.If the fundamental frequency of the pipe when it is open at both ends is 50nHz then the value of n is

An open organ pipe has fundamental frequency 100 Hz. What frequency will be produced if its one end is closed ?

An organ pipe A closed at one end vibrating in its fundamental frequency and another pipe B open at both ends is vibrating in its second overtone are in resonance with a given tuning fork . The ratiio of length of pipe A to that of B is

An open pipe of length L is emitting its fundamental frequency . If one end of the pipe is closed , then the frequency of the first overtone of the closed pipe is found to be higher by 100 Hz than the fundamental frequency of the open pipe. What is the fundamental frequency of the closed pipe ?