Equation of SHM is x=10sin10`pit`. Find the distance between the two points where speed is `50pi`cm/s. x is in cm and t is in seconds.

A particle is executing SHM . Find the positions of the particle where its speed is 8 cm//s , if maximum magnitudes of its velocity and accleration are 10 cm//s and 50 cm//s respectively.

A travelling wave in a string is represented by y=3 sin ((pi)/(2)t - (pi)/(4) x) . The phase difference between two particles separated by a distance 4 cm is ( Take x and y in cm and t in seconds )

The equation of a simple harmonic motion is given by x =6 sin 10 t + 8 cos 10 t , where x is in cm, and t is in seconds. Find the resultant amplitude.

The vibrations of a string fixed at both ends are represented by y = 16 sin (pi x/15) cos 96 pi t where x and y are in cm and t in seconds. Then the phase difference between the points at x = 13 cm and X = 16 cm in radian is

The equation of a stationary a stationary wave is represented by y=4sin((pi)/(6)x)(cos20pit) when x and y are in cm and t is in second. Wavelength of the component waves is

The equation of a wave travelling in a rope is given by y=10 sin (2.0 t-0.04x) where y and x are expressed in cm and time t in second. Calculate the intensity of the wave if the density of the material of the rope is 1.3 xx 10^(3)kg//cm^3 .

The equations for two sinusoidal waves propagating through a string are given by, y_(1)=4 sin (20x-30t) y_(2)=4 sin (25-x-40t) where y and x are in centimeters and t is second. (i) What is the phase difference between these two waves at the points x=5.0 cm and at t=2.0 s? (ii) When these two waves interface what is the maximum and minimum value of the intensity?

A string oscillates according to the equation y' = (0.50 cm) sin [((pi)/(3)cm^(-1))x] cos [(40 pi s^(-1))t] . What are the (a) amplitude and (b) speed of the two waves (identical except for direction of travel) whose superposition gives the oscillation? (c) what ist eht distance between nodes? (d) What is the transverse speed of particle of the string at the position x = 1.5 cm when t = (9)/(8)s ?

Two sinusoidal waves combining in a medium are described by the equations y_1 = (3.0 cm) sin pi (x+ 0.60t) and y_2 = (3.0 cm) sin pi (x-0.06 t) where, x is in centimetres and t is in seconds. Determine the maximum displacement of the medium at (a)x=0.250 cm, (b)x=0.500 cm and (c) x=1.50 cm. (d) Find the three smallest values of x corresponding to antinodes.

A particle is subjected to two simple harmonic motions given by x_(1) = 2.0sin (100 pi t) and x_(2) = 2.0sin (120pi t + pi //3) where, x is in cm and t in second. Find the displacement of the particle at (a) t = 0.0125 , (b) t = 0.025 .