At two particular closest instant of time `t_1` and `t_2` the displacements of a particle performing SHM are equal. At these instant

Two particles are performing SHM in same phase. It means that

A wave travelling on a string at a speed of 10 ms^-1 causes each particle of the string to oscillate with a time period of 20 ms. (a) What is the wavelength of the wave ? (b) If the displacement of a particle is 1.5 mm at a certain instant, what will be the displacement of a particle 10 cm away from it at the same instant ?

Displacement time graph of particle performing SHM is as shown in figure. Assume that mean position is at x=0

Velocity of a particle varies with time as v=4t. Calculate the displacement of particle between t=2 to t=4 sec.

A particle simple harmonic motion completes 1200 oscillations per minute and passes through the mean position with a velocity 3.14 ms^(-1) . Determine displacement of the particle from its mean position. Also obtain the displacement equation of the particle if its displacement be zero at the instant t = 0 .

The coordinates of a particle moving in XY-plane at any instant of time t are x=4t^(2),y=3t^(2) . The speed of the particle at that instant is

A simple harmonic progressive wave in a gas has a particle displacement of y=a at time t=T//4 at the orgin of the wave and a particle velocity of y =v at the same instant but at a distance x=lambda//4 from the orgin where T and lambda are the periodic time and wavelength of the wave respectively. then for this wave.

In the figure, dots and arrows show the position and the velocity of a paritcle executing SHM. What are the phases at the five indicated instants when the position at time t is given by x = Asin (omega t + phi)

Two particles are executing SHM in a straight line. Amplitude A and the time period T of both the particles are equal. At time t=0, one particle is at displacement x_(1)=+A and the other x_(2)=(-A/2) and they are approaching towards each other. After what time they across each other? T/4

Two particles A to B perform SHM along the same stright line with the same amplitude 'a' same frequency 'f' and same equilbrium position 'O' . The greatest distance between them is found to be 3a//2 . At some instant of time they have the same displacement from mean position. what is the displacement?