A transverse wave along a string is given by
`y = 2 sin (2pi (3t - x) + (pi)/(4))`
where x and y are in cm and t in second. Find acceleration of a particle located at x = 4 cm at t = 1s.

The equation of a wave is y=4sin{(pi)/(2)(2t+(x)/(8))} where y,x are in cm and time in seconds . The acceleration of particle located at x=8cm and t=1sec is

The equetion of a progressive wave travelling along a string is given by y=10 sinpi(0.01x-2.00t) where x and y are in centimetres and t in seconds. Find the (a) velocity of a particle at x=2 m and t=5//6 s. (b) acceleration of a particle at x=1 m and t=1//4 s. also find the velocity amplitude and acceleration amplitude for the wave.

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,

The equation of a transverse wave is given by y=10 sin pi (0.01 x -2t ) where x and y are in cm and t is in second. Its frequency is

The equation of a transverse wave is given by y = 20 sin pi (4t - 0.04x) where x and y are in m and t is in sec. The frequency of the wave is

The equation of stationary wave along a stretched string is given by y=5 sin (pix)/(3) cos 40 pi t , where x and y are in cm and t in second. The separation between two adjacent nodes is

The equation of stationary wave along a stretched string is given by y = 5 sin(pi x)/(3) cos 40pi t where x and y are in centimetre and t in second. The separation between two adjacent nodes is :

A transverse harmonic wave on a string is descrbed by y(x, t) = 3.0 sin (36 t + 0.018 x + pi/4) where x and y are in cm and t is in s. The position direction of x is from left to right.