If equation of a sound wave is

The equation of a sound wave is y=0.0015sin(62.4x+316t) the wavelength of this wave is

The equation of a sound wave is y = 0.0015 sin (62.4x + 316 t) The wavelength of this wave is

The equation of a sound wave is y=0.0015sin(62.4x+316t) the wavelength of this wave is

The equation of a sound wave is y = 0.0015 sin (62.8 x + 316 t) . Find the wavelength of the above ………. .

The equation of a sound wave in air is P = 0.01 cos (1000t-3xx) where P, x and t are in SI. The bulk modulus of elasticity is 1.4xx10^(5) N//m^(2) the displacement amplitude is

The equation of a sound wave in air is given by trianglep=(0.02)sin[(3000)t-(9.0)x] , where all variables are is SI units. (a) find the frequency, wavelength and the speed of sound wave in air. (b) If the equilibrium pressure of air is 1.01xx10^5(N)/(m^2) , What are the maximum and minimum pressure at a point as the wave passes through that point?

The equation of a sound wave in air is given by trianglep=(0.02)sin[(3000)t-(9.0)x] , where all variables are is SI units. (a) find the frequency, wavelength and the speed of sound wave in air. (b) If the equilibrium pressure of air is 1.01xx10^5(N)/(m^2) , What are the maximum and minimum pressure at a point as the wave passes through that point?

The equation of a sound wave in air is given by rho = (0.01 N//m^(2)) [sin (1000 s^(-1)) t - (3.0 m^(-1))x] (a) Find the frequency, wavelength and the speed of sound wave in air. (b) If the equilibrium pressure of air is 1.0 xx 10^(5) N//m^(2) , what are the maximum and minimum pressure at a point as the wave passes through that point ?