A `75 cm` string fixed at both ends produces resonant frequencies `384 Hz` and `288 Hz` without there being any other resonant frequency between these two . Wave speed for the string is :

A string is stretched betweeb fixed points separated by 75.0 cm . It observed to have resonant frequencies of 420 Hz and 315 Hz . There are no other resonant frequencies between these two. The lowest resonant frequency for this strings is

A string fixed at both ends whose fundamental frequency is 240 Hz is vibrated with the help of a tuning fork having frequency 480 Hz , then

If a string fixed at both ends having fundamental frequency of 240 Hz is vibrated with the help of a tuning fork having frequency 280 Hz , then the

A string, fixed at both ends, vibrates in a resonant mode with a separation of 2.0 cm between the consecutive nodes. For the next higher resonant frequency, this separation is reduced to 1.6 cm. Find the length of the string.

A steel wire fixed at both ends has a fundamental frequency of 200 Hz. A person can hear sound of maximum frequency 14 kHz. What is the highest harmonic that can be played on this string which is audible to the person ?

A cylindrical metal tube has a length of 50 cm and is open at both ends. Find the frequencies between 1000 Hz and 2000 Hz at which the air column in the tube can resonate. Speed of sound in air is 340 m s^-1 .

A wire, fixed at both ends is seen to vibrate at a resonant frequency of 240 Hz and also at 320 Hz. (a) What could be the maximum value of the fundamental frequency ? (b) If transverse waves can travel on this string at a speed of 40 m s t, what is its length ?

Two waves of frequencies 6 Hz and 10 hz are superposed. The beat frequency produced is

An audio oscillator capable of producing notes of frequencies ranging from 500 Hz "to" 1500 Hz is placed constant tension T . The linear mass density of the wire is 0.75 g//m . It is observed that by varying the frequency of the oscillator over the given permissible rang the sonometer wire sets into vibration at frequencies 840 Hz and 1120 Hz . a. Find the tension in the string . b. What are the frequencies of the first and fourth overtone produced by the vibrating string?

Three consecutive resonant frequencies of a string are 90, 150 and 210 Hz . If the length of the string is 80 cm , what would be the seed (in m//s ) of a transverse wave on this string ?