Figure shows two snapshots of medium particle within a time interval of `1/60` s. find the possible time periods of the wave

Figure. shows two snapshots of medium particle supporting a plane progressive wave travelling along positive x- axos, corresponding to instants t=0.002 s and t=0.008 s , respectively shown by curves numbered 1 and 2 . Assume that the interval between the two snapshots is less than the time period. Velocity of the wave is

Figure .shows two snapshots of medium particle supporting a plane progressive wave travelling along positive x-axos, corresponding to instants t=0.002 s and t=0.008 s , respectively shown by curves numbered 1 and 2 . Assume that the interval between the two snapshots is less than the time period.The frequency of the wave

The figure shows the snapshot of a sound wave in a certain medium at a certain instant. What is the amplitude of the wave?

The figure shows the snapshot of a sound wave in a certain medium at a certain instant. If the velocity of the wave is 4 "ms"^(-1) , calculate the wavelength of the wave if its frequency is 20 Hz.

Figure shows x-t graph of a particle. Find the Time T such that the average velocity of the particle during the period 0 to T is Zero.

When a train of plane wave traverses a medium, individual particles execute periodic motion given by the equation y 4sin(pi)/(2)(2t x/8) Where the length are expressed in centimetres and time in seconds. Calculate the amplitute, wavelength, (a) the phase different for two positions of the same particle which are occupied at time interval 0.4 s apart and (b) the phase difference at any given instant of two particle 12 cm apart.

Figure shows the position of a particle moving on the X-axis as a function of time.

Figure given here shows the variation of velocity of a particle with time. Find the displacement. ,

Figure shows the displacement time graph of a particle moving on the X-axis

Figure shows the displacement-time graph of a particle moving on the X-axis