In an organ pipe whose one end is at x =0, the pressureis expressed by `P = P_(0) "cos" (3 pi x)/(2) sin 300 pi t` where x is in meter and t in sec. The organ pipe can be :-

The equation of a stationary wave is y = 0.8 cos ((pi x)/(20)) sin 200 pi t where x is in cm and t is in s. The separation between consecutive nodes will be

The equation of a stationary wave is y = 0.8 cos ((pi x)/(20)) sin 200 pi t where x is in cm and t is in s. The separation between consecutive nodes will be

A wave is represented by the equation y= A sin ( 10 pi x + 15 pi t + (pi)/(6)) wher x is in metre and t in second. The expression represents

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

The wave described by y = 0.25 sin ( 10 pix -2pi t ) where x and y are in meters and t in seconds , is a wave travelling along the

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 disturbance in a medium is described by Y=0.02 cos( 50 pi t + pi/2) cos pi x . Where x and y are in m and t in sec. The values in Column-II are in SI units.

A transverse wave propagating along x-axis is represented as y(x,t)= 0.8sin(pi/4-4pit-pi/2x) where x is in meter and t is in second. The velocity of wave is

A transverse wave travelling on a taut string is represented by: Y=0.01 sin 2 pi(10t-x) Y and x are in meters and t in seconds. Then,

A particle is subjected to two simple harmonic motions given by x_(1) = 2.0sin (100 pi t) and x_(2) = 2.0sin (120pi t + pi //3) where, x is in cm and t in second. Find the displacement of the particle at (a) t = 0.0125 , (b) t = 0.025 .