The displacement y of wave trvelling in the x-direction is given by `y=10^(-4) sin (600t-2x+frac(pi)(3))` metres, where x is expressed in metres and t in seconds. The speed of the wave motion, in `ms^(-1)`, is

A wave travels in a medium according to the equation of displacement given by y(x, t) = 0.03 sin pi where y and x are in metres and t in seconds. The wavelength of the wave is

A standing wave is represented by, y=Asin(100t)cos(0.01x) , where x,y and A are in millimeter and t in second. The velocity of the wave is

A wave equation which gives the displacement along y-direction is given by y = 0.001 sin (100t + x) where x and y ane in meter and t is time in second. This represented a wave

The equation of a progressive wave traveling on a stretched string is y = 10sin 2pi ((t/0.02)-(x/100)) where x and y arein cm and t is in sec. What is the speed of the waves?

The equation of a transverse travelling on a rope is given by y=10sinpi (0.01x-2.00t) where y and x are in cm and t in seconds. The maximum transverse speed of a particle in the rope is about

The transverse displacement of a string clamped at both ends is by y (x,t)=0.06 sin (frac(2pix)(3) cos60pit , where x and y are in m and t in s. The length of the string is 1.5 m and its mass is 3 xx10^(-2) kg . The tension developed in the string is

A wave is expressed by the equation y=0.5sinpi(0.01x-3t) where y and x are in metre and t in seconds. Find the speed of propagation.

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

The transverse displacement of a string fixed at both the ends is ,y=0.06sin(32πx​)cos(120πt) where x and y are in metres and t is in seconds. The length of the string is 1.5m and its mass is 3.0×10−2kg. The tension in the string is

The equation of a wave is given as y= 0.07 sin ( 12pi x -3000pi t ), where x is in metre and t is in x,then the correct value is