A block of mass 'M' is tied with a spring of force constant 'K'. The block perfoms SHM with amplitude 'A' infront of a plane mirror placed as shown in figure. The maximum speed of block relative to its image will be

An insect of negligible mass is sitting on a block of mass M, tied with a spring of force constant K. The block performs simple harmonic motion with amplitude A infront of a plane mirror placed as shown. The maximum speed of insect relative to its image will be

An insect of negligible mass is sitting on a block of mass M, tied with a spring of force constant k. the block performs simple harmonic motion with amplitude A in front of a plane mirror placed as shown in the figure the maximum speed of insect relative to its image will be

An insect of negligible mass is sitting on a block of mass M, tied with a spring of force cosntant k. The block performs simple harmonic motion with amplitude A in front of aplane mirror as shown, teh maximum speed of insect relative to its image will be

A block of mass m is suspended by different springs of force constant shown in figure.

A block of mass m suspended from a spring of spring constant k . Find the amplitude of S.H.M.

For the arrangement as shown in the figure the maximum force F, for no relative motion between blocks is

A block of mass m is connected to a spring of force constant k. Initially the block is at rest and the spring has natural length. A constant force F is applied hrizontally towards right. The maximum speed of the block will be (there is no friction between block and the surface)

A block of mass m is attached with a massless spring of force constant k. The block is placed over a rough inclined surface for which the coefficient of friction is mu=(3)/(4) . The minimum value of M required to move the block up the plane is (Neglect mass of string, mass of pulley and friction in pulley)

A block of mass m is connected to another .block of mass M by a massless spring of spring constant k. A constant force f starts action as shown in figure, then:

A block of mass m is dropped onto a spring of constant k from a height h . The second end of the spring is attached to a second block of mass M as shown in figure. Find the minimum value of h so that the block M bounces off the ground. If the block of mass m sticks to the spring immediately after it comes into contact with it.