The pressure at a point varies from `99980 Pa` to `100020 Pa` due to simple harmonic sound wave. The amplitude and wavelength of the wave are `5 xx 10^(-6) m` and `40 cm` respectively. Find the bulk modulus of air

A steel ball initially at a pressure of 1.0 xx 10^5 Pa is heated from 20^0 C to 120^0 C keeping its volume constant. Find the pressure inside the ball. Coefficient of linear expansion of steel = 12 xx 10^(-6) ^0 C^(-1) and bulk modulus of steel = 1.6 xx 10^(11) N m^(-2)

(a) A longitudinal wave propagating in a water-filled pipe has intensity 3.00xx10^(-6) W//m ^(2) and frequency 3400 H_(Z) . Find the amplitude A and wavelength lambda of the wave . Water has density 1000 kg//m ^(3) and bulk modulus 2.18xx10^(9) Pa . (b) If the pipe is filled with air at pressure 1.00 xx10^(5) Pa and density 1.20 kg//m^(3) , What will be the amplitude A and wavelength lambda of a longitudinal wave the same intensity and frequency as in part (a) ? (c ) In which fluid is the amplitude larger, water or air? What is the ratio of the two amplitude ? Why is this ratio so different from/ Conider air as diatomic.

Two sound waves of wavelengths 40 cm and 40.5 cm produce 10 beats per second. What will be the speed of sound in air ?

The equation of simple harmonic progressive wave, having amplitude 5 xx 10^(-2)m , wavelength 30 cm, speed 50 m/s and travelling along the positive direction of the x-axis is given by

Two points lie on a ray are emerging from a source of simple harmonic wave having period 0.040. The wave speed is 300 m/s and points are at 10 m and 16 m from the source. They differ in phase by:

A sound wave of wavel ength 40 cm travels in air. If the difference between the maximum and minimum pressure at a given point is 4 . 0 xx 10^(-3) N//m^(2) , find the amplitude of vibration of the particles of the medium P_("max") - P_("min") = (P + p_(o)) = 2p_(o) . The bulk modulus of air is 1.4 xx 10^(3) N//m^(2)

A metallic rod of length 1m is rigidly clamped at its end points. Longitudinal stationary waves are setup in the ord in such a way that there six antinodes of displacement wave observed along the rod. The amplitude of the anotinode is 2 xx 10^(-6) m . Write the equations of the stationary wave and the component waves at the point 0.1 m from the one end of the rod. [Young modulus = 7.5 xx 10^(10)N//m^(2) , density = 2500 kg//m^(3) ]

Two waves are propagating to the point P along a straight line produced by two sources A and B of simple harmonic and of equal frequency. The amplitude of every wave at P is a and the phase of A is ahead by pi//3 than that of B and the distance AP is greater than BP by 50 cm . Then the resultant amplitude at the point P will be if the wavelength 1 meter

Sound waves travel from air to water. The velocity of the sound waves in air is 332 ms^(-1) and wavelength is 2m. If the wavelength of the sound waves in water is 850 cm, find its velocity in water