Pipe Is Closed From One End

A string 25 cm long fixed at both endds and having a mass of 2.5 g is under tension. A pipe closed from one end is 40 cm long. When the strin is set vibrating in its first overtone and the air in the pipe in its fundamental frequency, 8 beats per second are heard. If is observed that decreasing the tension in the string decreases the beat frequency. If the speed of sound in air is 320 m//s . Find tension in the string.

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

An open organ pipe is closed at one end. How will the frequency of fundamental note of pipe change?

find the fundamental frequency and the frequency of the first two overtones of a pipe 45.0 cm long. (a) If the pipe is open at both ends. (b) If the pipe is closed at one end. Use upsilon = 344 m//s .

An organ pipe is closed at one end has fundamental frequency of 1500 Hz. The maximum number of overtones generated by this pipe which a normal person can hear is

By placing tuning forks of different frequencies at the open end of a pipe , it is found that the pipe , has a resonating frequency at 450 Hz and the next harmonic at 750 Hz . Find whether the pipe is closed at one end or open at both ends . Also find the fundamental frequency of the pipe.

A pipe of length 85cm is closed from one end. Find the number of possible natural oscillations of air column in the pipe whose frequencies lie below 1250 Hz . The velocity of sound in air is 34m//s .

The surface area of a cylindrical pipe.open at both ends is 628sq .m. The dierence between its radius and length is 15m, the length being larger.If the pipe was closed at one end,the amount of water that it can hold is

Find the number of possible natural frequencies of an air column in a pipe whose frequencies lie below 1250 Hz. The length of the pipe is 85 cm. The speed of sound is 340 ms^(-1) . Consider the two cases: (a) the pipe is closed at one end and (b) the pipe is open at both ends.

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