A cylindrical tube, open at both ends, has a fundamental frequency `f_(0)` in air. The tube is dipped vertically into water such that half of its length is inside water. The fundamental frequency of the air column now is

A cylindrical tube open at both ends has a fundamental fruquency f in air. The tube is dipped vertically in water so that 60% of the tube is in water. Then , the fundamental frequency of air column is

A closed organ pipe 70 cm long is sounded .If the velocity of sound is 331m//s ,what is the fundamental frequency of vibration of the air column ?

A tube of certain diameter and length 48 cm is open at both ends. Its fundamental frequency of resonance is found to be 320 Hz. The velocity of sound in air is 320 m/s. Estimate the diameter of the tube. One end of the tube is now closed. Calculate the fundamental resonance for the tube.

If the air column in a tube, open at both ends, is set in vibration , what harmonics are possible ?

An open organ pipe sounds a fundamental note of frequency 330 Hz. If the speed in air is 330 m/s then the length of the pipe is nearly

A long capillary tube of radius 0.2mm is placed vertically inside a beaker of water If the tube is now pushed into water so that only 5.0 cm of its length is above the surface. Then determine the angle of contact between the liquid and glass surface