What will be the momentum v/s position plot of a spring mass oscillator kept on a rough horizontal surface? What should be the plot for one cycle?

Two blocks of masses 4 kg and 6 kg are kept on a rough horizontal surface as shown. If the acceleration of 6 kg block is 5n , then n is :

Two blocks of masses m and M connected by a light spring of stiffness k, are kept on a smooth horizontal surface as shown in figure. What should be the initial compression of the spring so that the system will be about to break off the surface, after releasing the block m_1 ?

Consider the situation in which one end of a massless spring of spring constant k is connected to a cylinder of mass m and the other to a rigid support. When cylinder is given a gentle push in horizontal direction it starts oscillating on the rough horizontal surface. During the oscillation cylinder rolls without slipping. When calculated, motion of cylinder is found to be S.H.M. with time period T=2pisqrt((3m)/(2K)) and equation of SHM is x=Asinomegat , where symbols have their usual meaning. At a distance x_(1) from the equilibrium position, kinetic energy of the oscillating system becomes equal to potential energy then, x_(1) is equal to:

A block of mass 1 kg is attached to one end of a spring of force constant k = 20 N/m. The other end of the spring is attached to a fixed rigid support. This spring block system is made to oscillate on a rough horizontal surface (mu = 0.04) . The initial displacement of the block from the equilibrium position is a = 30 cm. How many times the block passes from the mean position before coming to rest ? (g = 10 m//s^(2))

A sphere moving with a speed v_(0) on a smooth surface suddenly enters on a rough horizontal surface as shown. The angular momentum of the sphere about any point on the surface is conserved.

In the given figure, a mass M is attached to a horizontal spring which is fixed on one side to a rigid support. The spring constant of the spring is k. The mass oscillates on a frictionless surface with time period T and amplitude A. When the mass is in equilibrium position, as shown in the figure, another mass m is gently fixed upon it. The new amplitude of oscillation will be :

A body of mass m is suspended from vertical spring and is set into simple harmonic oscillations of time period T. Next the spring is fixed at one end on a smooth horizontal table and same body is attached at the other end. The body is pulled slightly and then released to produce horizontal oscillations of the spring. The time period of horizontal oscillations is

A block of mass 2 kg is kept on a smooth wedge of mass 3 kg and wedge is kept on a rough horizontal surface. A vertical force of 60 N is applied on the minimum coefficient of friction between the wedge and horizontal surface, so that wedge remains at rest during the motion of block on the wedge ?

A bullet of mass m leaves a gun of mass M kept on a smooth horizontal surface . If the speed of the bullet relative to the gun is v , the magnitude of recoil speed of the gun will be

A block of mass M is kept on a rough horizontal surface and is attached with massless spring of force constant k .The minimum constant force applied on the other end of the spring to lift the block is