A block is resting on a piston which executes simple harmonic motion in vertical plain with a period of `2.0s` in vertical plane at an amplitude just sufficient for the block to separate from the piston. The maximum velocity of the piston is

A block is on a piston, which executes simple harmonic motion in the vertical plane with a period of 1s. At what amplitude will the block and the piston separate? If the piston has an amplitude of 0.05m, what is the maximum frequency at which the black and piston will remain in contact continously? [hint: the block and piston will separate when acceleration of piston = acceleration due to gravity.]

A block is resting on a piston which is moving vertically with simple harmonic motion of period 1.0 second. At what amplitude of motion will the block and piston separate? What is the maximum velocity of the piston at this amplitude?

A block is resting on a piston which is moving vertically with simple harmonic motion of period 1.0 second. At what amplitude of motion will the block and pisto separate? What is the maximum velocity of the piston at this amplitude?

A block of mass m is resting on a piston as shown in figure which is moving vertically with a SHM of period 1 s . The minimum amplitude of motion at which the block and piston separate is :

A block is kept on a horizontal table that is executing simple harmonic motion of frequency v in the horizontal plane. The coefficient of static friction between the block and the table is mu . Determine the maximum amplitude of the table for which the block does not slip on the surface of the table.

A plank with a small block on top of it is under going vertical SHM . Its period is 2 sec . The minium amplitude at which the block will separate from plank is :

For a particle executing simple harmonic motion, the amplitude is A and time period is T. The maximum speed will be

A particle is executing simple harmonic motion with a time period of 2s and amplitude 10 cm. Calculate its velocity and acceleration 2 seconds after starting from mean position.