Waves `y_(1) = Acos(0.5pix - 100pit)` and `y_(2)=Acos(0.46pix - 92pit)` are travelling along x-axis. (Here `x` is in `m` and `t` is in second)
(3) The number of times `y_(1) + y_(2) = 0` at `x = 0` in `1sec` is

Waves y_(1) = Acos(0.5pix - 100pit) and y_(2)Acos(0.46pix - 92pit) are travelling along x-axis. (Here x is in m and t is in second) (2) The wave velocity of louder sound is

Waves y_(1) = Acos(0.5pix - 100pit) and y_(2)Acos(0.46pix - 92pit) are travelling along x-axis. (Here x is in m and t is in second) (1) Find the number of times intensity is maximum in time interval of 1 sec .

Two waves y_(1) = A cos (0.5 pi x - 100 pi t) and y_(2) = A cos (0.46 pi x - 92 pi t) are travelling in a pipe placed along the x - axis. Find wave velocity of louder sound

Two waves Y_(1) =A " cos " (0.5 pi x -100 pi t) and Y_(2) = Acos (0.46 pi x-92pi t) are treavelling in a pipe along x-axis. (y and x are in metre). How many times in a second does a stationary any observer hear loud sound (maximum intensity) ?

Two plane harmonic sound waves are expressed by the equations. y_(1)(x,t)-A cos (0.5 pi x-100 pit), y_(2)(x,t)=A cos(0.46 pix-92pi t) (All parameters are in MKS) : At x=0 how many times the amplitude of y_(1) + y_(2) is zero in one second :-

Standing waves are produced by the superposition of two waves y_(1)=0.05 sin (3 pit-2x) and y_(2) = 0.05 sin (3pit+2x) Where x and y are in metres and t is in second. What is the amplitude of the particle at x = 0.5 m ? (Given, cos 57. 3 ^(@) = 0. 54)

A standing wave resulte from sum of two transverse travelling waves given by, y_(1)=0.050cos(pix-4pit)andy_(2)=0.050cos(pix+4pit) , where x,y_(1),y_(2) are in metre and t in seconds. The smallest positive value of x that corresponds to a node is

A wave disturbance in a medium is described by y(x, t) = 0.02 cos((50pit + (pi)/(2))cos(10pix) where x and y are in meter and t is in second

A wave is represented by the equation y = A sin(10pix + 15pit + (pi)/(3)) where x is in meter and t is in seconds. The expression represents :