An open organ pipe of length l vibrates in its fundamental mode. The pressure variation is maximum

A closed organ pipe of length 1.2 m vibrates in its first overtone mode . The pressue variation is maximum at

An open organ pipe of length L vibrates in its second harmonic mode. The correct statement about the Pressure variation is

An open organ pipe of length 11 cm in its fundamental mode vibrates in resonance with the first overtone of a closed organ pipe of length 13.2 cm filled with some gas . If the velocity of sound in air is 330 m//s , calculate the velocity of sound in the unknown gas .

When the open organ pipe resonates in its fundamental mode then at the centre of the pipe

An open organ pipe of length l is sounded together with another open organ pipe of length l + x in their fundamental tones. Speed of sound in air is v. the beat frequency heard will be ( x lt lt l )

A closed organ pipe of radius r_(1) and an open organ pipe of radius r_(2) and having same length 'L' resonate when excited with a given tuning fork. Closed organ-pipe resonates in its fundamental mode where as open organ pipe resonates in its first overtone, then :-

A closed organ pipe and an open organ pie of same length produce four bets in their fundamental mode when sounded together, If length of the open organ pipe is increased, then the number of beats will

An open organ pipe containing air resonates in fundamental mode due to a tuning fork. The measured values of length l (in cm) of the pipe and radius r (in cm) of the pipe are l=94+-0.1 , r=5+-0.05 . The velocity of the sound in air is accurately known. The maximum percentage error in the measurement of the frequency of that tuning fork by this experiment will be

A closed organ pipe of length L is vibrating in its first overtone there is a point Q inside the pipe at a distance 7L//9 form the open end the ratio of pressure amplitude at Q to the maximum pressure amplitude in the pipe is