In the figure. (m_2) (ltm_(1))` are joined together by a pulley. When the mass `(m_(1))` is released from the height `h` above the floor, it strikes the floor with a speed .

A block of mass m is dropped from height h above the ground. Find out the speed of the block when it reaches the ground.

If the masses are released from the position shown in figure then the speed of mass m1 just before it strikes the floor is -

Let m_(1) =1kg, m_(2) =2kg and m_(3) =3kg in figure (5-E12).Find the accelerations of m_(1) , m_(2) and m_(3) .The string from the upper pulley to m_(1) is 20cm when the system is released from rest.How long will it take before m_(1) strikes the pulley?

The two masses m_(1) and m_(2) are joined by a spring as shown. The system is dropped to the ground from a height. The spring will be

A block of mass m is held at rest on a smooth horizontal floor. A light frictionless, small pulley is fixed at a height of 6m from the floor. A light inextensible string of length 16m, connected with A passes over the pulley and another identical block B is hung from the string initial height of B is 5m from the floor as shown in figure -3.130 When the system is released from rest, B starts to move vertically downwards and A slides on the floor towards right (a) if at an instant string makes an angle theta with horizontal, calculate relation between velocity u of A and v of B (b) Calculate c when B strikes the floor.

Two masses m_(1) and m_(2) (m_(1)

Two metal discs, one with radius r and mass m and the other with radius 2r and mass 2m , are welded together and mounted on a frictionless axis through their common center. (a) What is the total moment of inertia of the two discs? (b) A light string is wrapped around the edge of the smaller disc and a block of mass m_(0) is suspended from the free end of the string. If the block is released from rest at a distance h , what is its speed just before it strikes the floor?

A block of mass m is released from the top of a mooth inclined plane of height h its speed at the bottom of the plane is proportion to

Water drops are falling from a nozzle of a shower onto the floor, from a height of 9.8 m. The drops fall at a regular interval of time. When the first drop strikes the floor, at that instant, the third drop begins to fall. Locate the position of second drop from the floor when the first drop strikes the floor.