Find the displacement ammplitude amplitude of amplitude of particles of air of density `1.2 kg//m^(3)`,if intensity, frequency and speed of sound are `8 xx 10^(-6) w//m^(2), 5000 Hz` and `330 m//s` respectively.

Two metal spheres are falling through a liquid of density 2xx10^(3)kg//m^(3) with the same uniform speed. The material density of sphere 1 and sphere 2 are 8xx10^(3)kg//m^(3) and 11xx10^(3)kg//m^(3) respectively. The ratio of their radii is :-

A small speaker has a capacity of power 3 W. A microphone is placed at distance 2 m from the speaker. Fine the displacement amplitude of particles of air near to microphone. The frequenct of sound emitted bt speaker is 1.0 KHz (Density of air = 1.2 kg//m^(3) and speed of sound in air = 330 m/s)

In the previous example, if the density of air r = 1 . 22 kg //m^(3) , then find the intensity of a sound wave of the largest amplitude tolerable to the human ear.

Plane harmonic waves of frequency 500 Hz are produced in air with displacement amplitude of 10mum . Given that density of air is 1.29(kg)/(m^3) and speed of sound in air is 340(m)/(s) . Then

Calculate the amplitude of vibrations of air particles when a wavee of intensity 10^(-3) "watt"//m^(2) is produced by a tuning fork of frequency 540 Hz. Velocity of sound in air = 340 m s^(-1) and density of air = 1.3 kg m^(-3)

A sound wave in air has a frequency of 300 H_(Z) and a displacement ampulitude of 6.0 xx10^(-3) mm . For this sound waves calculate the (a) Pressure ampulitude (b) intensity (c ) Sound intensity level (in dB) Speed of sound = 344 m//s and density of air = 1.2 kg//m^(3) .

Find the amplitude of the vibration of the particles of air through which a sound wave of intensity 2.0xx10^-6Wm^-2 and frequency 1.0kHz is passing. Density of air =1.2 kgm^-3 and speed of sound in air =330 ms^-1 .

The maximum pressure amplitude Delta p_m that the human ear can tolerate in loud sounds is about 28 Pa (which is very much less than the normal air pressure of about 10^5 Pa). What is the displacement amplitude s_m for such a sound in air of density rho= 1.21 kg//m^3 , at a frequency of 1000 Hz and a speed of 343 m/s?

The equation of S.H.M of a particle whose amplitude is 2 m and frequency 50 Hz. Start from extreme position is

The minimum intensity of audibility of a source is 01^(-12) "watt"//m^(2) . If the frequency of the note is 1000 Hz, calculate the amplitude of vibrations of air particles. Density of air = 1.293 kg m^(-3) and velocity of sound =340 ms^(-1) ["Hint " a = sqrt((I)/(2pi^(2)n^(2)rhoC)) ]