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.

Find the amplitude of the electric field in a parallel bean of light of intensity 2.0 W m^-2.

What is the level of loudness of a sound of intensity 10^(-12) W//m^2 ?

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 :-

The intensities of two sound waves, one in air and the second one in water are equal (i) What is the ratio of the pressure amplitude of the wave in water to that of the wave in air? If the pressure amplitudes are equal instead, what is the ratio of the intensities of hte waves? Density of air is 1.293 kg//m^2 . Velocity of sound in air and water are 330ms^(-1) and 1450ms^(-1) respectively.

Plane harmonic waves of frequency 500Hz are produced in air with displacement amplitude 10^(-3)cm . Deduce (i) the pressure amplitude (ii) the energy density and (iii) intensity of the wave. Speed of sound in air =300m/s. Density of air =1.29"kg/m"^3 .

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

A typical loud sound wave with a frequency of 1 Kh_(Z) has a pressure amplitude of about 10 Pa (a) At t = 0 , the pressure is a maximum at some point X_(1) . What is the displacement at that point at t = 0 ? (b) What is the maximum value of the displacement at any time and place/ Take the density of air to be 1.29 kg//m^(3) and speed of sound in air is 340 m//s .

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