The speed of longitudinal waves in a thin brass rod is 3480 m/s . If the rod is clamed at one end and gives a fundamental frequency of 435 Hz, then the length of the rod will be

An aluminimum rod 1.60 m long is held at its centre. It is stroked with a rosin - coated cloth to set up a longitudinal vibration. The speed of sound in thin rod of aluminium is 5100 m//s . (a) What is the fundamental frequency of the waves established in the rod ? (b) What harmonics are set up in the rod held in this manner ? (c ) What would be the fundamental frequency if the rod were copper , in which the speed of sound is 3650 m//s ?

A steel rod 100 cm long is clamped at its midpoint. The fundamental frequency of longitudinal vibrtions of the rod is 3 kHz. What is the speed of the sound in the rod?

A uniform thin rod of length l is suspended from one of its ends and is rotated at f rotations per second. The rotational kinetic energy of the rod will be

A uniform thin rod of length l is suspended from one of its ends and is rotated at f rotations per second. The rotational kinetic energy of the rod will be

A man strikes one end of a thin rod with a hammer. The speed of sound in the rod is 15 times the speed of sound in air. A woman, at the other end with her ear close to the rod, hears the sound of the blow twice with a 60 ms interval between, one sound comes through the rod and the other comes through the air alongside the rod. If the speed of sound in air is 343 m/s, what is the length of the rod?

A steel rod 100 cm long is clamped at its middle. The fundamental frequency of loungitudinal vibrations of the fundamental frequency of longitudinal vibrations of the rod are given to be 2.53 KHz. What is the speed of soind in steel?

A steel rod 100 cm long is clamped at its middle. The fundamental frequency of loungitudinal vibrations of the fundamental frequency of longitudinal vibrations of the rod are given to be 2.53 KHz. What is the speed of soind in steel?

A rod of nickel of length l is clamped at its midpoint . The rod is stuck and vibrations are set up in the rod . Find the general expression for the frequency of the longitudinal vibrations of the rod . Young's modulus and density of the rod is Y and rho , respectively.