A coin is placed on a horizontal platform which undergoes vertical simple harmonic motion of angular frequency `omega`. The amplitude of oscillation is gradually increased. The coin will leave contact with the platform for the first time :

A block is kept is kept over a horizontal platform, executing vertical SHM of angular frequency omega . Find maximum amplitude of oscillations, so that the block does not leave contact with the platform.

In the previous question, the angular frequency of the simple harmonic motion is omega . The coefficient of friction between the coin and the platform is mu . The amplitude of oscillation is gradually increased. The coin will begin to slip on the platform for the first time (i) at the extreme positions of oscillations (ii) at the mean position (iii) for an amplitude of (mug)/(omega^2) (iv) for an amplitude of (g)/(muomega^2)

A coin is placed on a horizontal platform, which undergoes horizontal simple harmonic motion about a mean position O. The coin does not slip on the platform. The force of friction acting on the coin is F. (i) F is always directed towards O (ii) F is directed towards O when the coin is moving away from O, and away from O when the coin moves towards O (iii) F=0 when the coin and platform come to rest momentarily at the extreme position of the harmonic motion (iv) F is maximum when the coin and platform come to rest momentarily at the extreme position of the harmonic motion

A block of 0.5kg is placed on a horizontal platform. The system is making vertical oscillations about a fixed point with a frequency of 0.5 Hz . The maximum displacement of oscillation, if the block does not lose contact with the horizontal platform is nearly

The total work done by a restoring force in simple harmonic motion of amplitude A and angular velocity. omega , in one oscillation is

The total work done by the restoring force in simple harmonic motion of amplitude A and angular velocity omega in one oscillation is

A particle undergoes simple harmonic motion having time period T. The time taken in 3/8th oscillation is

A horizontal platform vibrate up and down with a simple harmonic motion of amplitude 20 c.m. At what frequency will an object kept on the platform remain just in contact with the platform ? Take g = 9.81 m//s^(2) .

A coin of mass m is placed on a horizontal platform which is undergoing S.H.M. about a mean position O in horizontal plane. The force of friction on the coin is f. while the coin does not slip on the platform f is