Velocity of a wave `y = 10 ^(-4) sin (100 t - (x)/(10)) m` is …...m/s

Wave equation for one progressive harmonic wave is y = 10 ^(-4) sin (600 t - 2x + (pi)/(3)) m and t is in s). Velocity of the wave would be ...... m/s

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

In the equation of motion of waves in x-direction is given by y= 10^(-4) sin(600t-2x+(pi)/(3)) where x and y are in metre and t is in second, then the velocity of wave will be………… ms^(-1) .

The phase difference between two waves, represented by y _(1) = 10 ^(-65) sin [100 t + (x //50) + 0.5]m y_(2) = 10 ^(-6) cos [100 t + (x //50)]m (where x is expressed in metres and t is expressed in seconds is approximately .....

Given below are some functions of x and to represent the displacement of an elastic wave. (i) y = 5 cos (4x) sin (20t) (ii) y = 4 sin (5x - (t)/(2)) + 3 cos (5x - (t)/(2)) (iii) y = 10 cos {(252 -250)pi t] cos {(252 +250)pi t] (iv) y = 100 cos (100 pi t + 0.5 x) State which of these represent (a) a travelling wave along-x direction (b) a stationary wave (c) beats (d) a travelling wave along + x direction. Give reasons for your answers.

The equation of a wave is y=(x,t)=0.05 sin [(pi)/(2)(10x-40t)-(pi)/(4)]m find: (a) the wavelength, the frequency and the wave velocity (b) the participle velocity and acceleration at x=0.5m and t = 0.05s .

For a stationary wave y = 10 sin ((pi x )/(4)) cos (2pi t ) metre, distance between two consecutive nodes is ...... m.

A wave is given by the equation y = 10 sin 2 pi (100 t - 0.02 x) + 10 sin 2 pi (100 t + 0.02 x) Find the loop length , frequency , velocity and maximum amplitude of the stationary wave produced.

The phase difference between two SHM y_(1) = 10 sin (10 pi t + (pi)/(3)) and y_(2) = 12 sin (8 pi t + (pi)/(4)) to t = 0.5s is

in the given progressive wave y = 5 sin (100 pi t -0.4 pi x) where y and x are in metre, t is in second. What is the (a) amplitude (b) wave length (c) frequency (d) wave velocity (e) particle velocity amplitude,