A sound wave of wavelength 40 cm travels in air. If the difference between the maximum and minimum pressures at a given point is `1.0xx10^-3Nm^-2`, find the amplitude of vibration of the particle o the medium. The bulk modulus of air is `1.4xx10^5Nm^-2`.

A sound wave of wavelength 20pi cm travels in air if the difference between the maximum and minimum pressures at a given point is 3.0xx10^-3 N//m^2 . Now sound level is increased by 20 dB, if the new amplitude of vibration of the particles of the medium at that given point is 20k (in Å ) then 'k' is : (The bulk modulus of air is 1.5xx10^5 N//m^2 ) (wavelength is same in both cases )

Calculate the bulk modulus of air from the following data about a sound wave of wavelength 35 cm travelling in air. The pressure at a point varies between (1.0 xx 10^5+-14) Pa and the particles of the air vibrate in simple harmonic motion of amplitude 5.5 xx 10^-6m .

Calculate the bulk modulus of air from the following data about a sound wave of wavelength 35 cm travelling in air. The pressure at a point varies between (1.0xx 10^5+-14) Pa and the particles of the air vibrate in simple harmonic motion of amplitude 5.5 x 10^-5m.

For aluminium the bulk modulus and modulus of rigidity are 7.5xx10^(10) Nm^(-2) . Find the velocity of longitudinal waves in the medium. Density of aluminium is 2.7xx10^(3) kgm^(3) .

The path difference between two interfering waves at a point on screen is 171.5 times the wavelength if the path difference is 0.01029 cm find the wavelength.

Find the increase in pressure required to decrease the volume of a water sample of 0.01%. Bulk modulus of water =2.1xx10^9Nm^-2 .

Vessel of 1xx10^(-3) m^(3) volume contains an oil. If a pressure of 1.2xx10^(5) N//m^(2) is applied on it , then volume decreases by 0.3xx10(-3) m^(3) . The bulk modulus of oil is

A plane wave front of yellow light with wavelength 0.5mum in air suffers refraction in a medium in which velocity of light is 2xx10^(8)ms^(-1) them, the wavelength of the light associated with a wave front in the medium would be

A sound wave of frequency 10 kHz is travelling in air with a speed of 340 ms^-1 . Find the minimum separation between two points where the phase difference is 60^@ .

The speed of sound in water is 1.5km/s. If density of water is 1.0 xx 10^(3)"kg/m"^3 , calculate the bulk modulus of of elasticity of the liquid?