[" A wave "y=a sin(omega t-kx)" on a string meets "],[" with another wave producing a node at "x=0" .Then "],[" the equation of the unknown wave is : "[2002]]

A wave y = a sin (omegat - kx) on a string meets with another wave producing a node at x = 0 . Then the equation of the unknown wave is

A wave y = a sin (omegat - kx) on a string meets with another wave producing a node at x = 0 . Then the equation of the unknown wave is

A wave y = a sin (omegat - kx) on a string meets with another wave producing a node at x = 0 . Then the equation of the unknown wave is

A wave y = a sin (wt-kx) on a string meets with another wave producing a node at x = 0. The equation of the unknown wave is

A wave y = a sin (omega t - kx) being superposed with another wave produces a node at x = 0. The equation of the second wave should be

A wave represented by a given equation [y (x, t) = a sin (omega t - kx)] superimposes on another wave giving a stationary wave having antinode at x = 0 then the equation of the another wave is

y= a cos (kx + omega t) superimposes on another wave giving a stationary wave having node at x = 0. What is the equation of the other wave

A wave is represented by the equation y = a sin (kx - omega t) is superposed with another wave to form a stationary wave such that the point x= 0 is a node. Then the equation of the other wave is

A wave is represented by the equation y = a sin(kx - omega t) is superimposed with another wave to form a stationary wave such that the point x = 0 is a node. Then the equation of other wave is :-

A wave is represented by the equation y = a sin(kx + omega t) is superimposed with another wave to form a stationary wave such that the point x = 0 is a node. Then the equation of other wave is :-