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

The standing waves are set up by the superimposition of two waves: y_(1)=0.05 sin (15pit-x) and y_(2)=0.05 sin (15pit+x) , where x and y are in metre and t in seconds. Find the displacement of particle at x=0.5m.

Stationary waves are set up by the superposition of two waves given by y_(1)=0.05sin(5pit-x) and y_(2)=0.05sin(5pit+x) where x and y are in metres and t is second. Find the displacement of a particle situated at a distance x=1m.

The equation of a wave disturbance is given as y=0.02cos((pi)/(2)+50pit) cos(10pix) , where x an y are in metre and t in second. Choose the wrong statement.

When two sound waves travel in the same direction in a medium, the displacement of a particle located at x at time t is given by y_1=0.05 cos (0.50 pi x-10 pi t) y_2=0.05 cos (0.46 pi x-92 pi t) where y_1,y_2 and x in meters and t in seconds. The speed of sound in the medium 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

Standing waves are produced by superposition of two waves y_(1) = 0.05 sin(3pi t - 2x), y_(2) = 0.05 six(3pi t +2x) where x and y are measured in metre and t in second. Find the amplitude of the particle at x = 0.5m.

A travelling wave pulse is given by y=(4)/(3x^(2)+48t^(2)+24xt+2) where x and y are in metre and t is in second. The velocity of wave is :-