Two blocks each of, mass m=1 kg are connected with each other by a flexible light and frictionless pulley. At t = 0 an inelastic ball of, mass 'm'=1 collides from bottom with the block A with velocity `v_(0)`=16 m/sec vertically upwards, On the basis of above information. Answer the following questions.

The velocity of blocks just after collision in m/sec is:

Two blocks each of, mass m=1 kg are connected with each other by a flexible light and frictionless pulley. At t = 0 an inelastic ball of, mass 'm'=1 collides from bottom with the block A with velocity v_(0) =16 m/sec vertically upwards, On the basis of above information. Answer the following questions. The acceleration of both the blocks just after collision in m//sec^(2) is:

Two blocks each of, mass m=1 kg are connected with each other by a flexible light and frictionless pulley. At t = 0 an inelastic ball of, mass 'm'=1 collides from bottom with the block A with velocity v_(0) =16 m/sec vertically upwards, On the basis of above information. Answer the following questions. The velocity of both the blocks just after string become tight in m/sec.

Two blocks each of, mass m=1 kg are connected with each other by a flexible light and frictionless pulley. At t = 0 an inelastic ball of, mass 'm'=1 collides from bottom with the block A with velocity v_(0) =16 m/sec vertically upwards, On the basis of above information. Answer the following questions. Velocity of block A just before string becomes tight will:

Two blocks each of, mass m=1 kg are connected with each other by a flexible light and frictionless pulley. At t = 0 an inelastic ball of, mass 'm'=1 collides from bottom with the block A with velocity v_(0) =16 m/sec vertically upwards, On the basis of above information. Answer the following questions. The maximum height up to which blockA reaches is:

Two blocks each of, mass m=1 kg are connected with each other by a flexible light and frictionless pulley. At t = 0 an inelastic ball of, mass 'm'=1 collides from bottom with the block A with velocity v_(0) =16 m/sec vertically upwards, On the basis of above information. Answer the following questions. Acceleration of the two blocks just after string become tight in m//sec^(2) :

Two blocks each of, mass m=1 kg are connected with each other by a flexible light and frictionless pulley. At t = 0 an inelastic ball of, mass 'm'=1 collides from bottom with the block A with velocity v_(0) =16 m/sec vertically upwards, On the basis of above information. Answer the following questions. The graphical representation of modulus of velocity of block B is correctly shown in:

Two blocks each of, mass m=1 kg are connected with each other by a flexible light and frictionless pulley. At t = 0 an inelastic ball of, mass 'm'=1 collides from bottom with the block A with velocity v_(0) =16 m/sec vertically upwards, On the basis of above information. Answer the following questions. Energy loss due to the impulse applied by string in joule is :

Two blocks each of, mass m=1 kg are connected with each other by a flexible light and frictionless pulley. At t = 0 an inelastic ball of, mass 'm'=1 collides from bottom with the block A with velocity v_(0) =16 m/sec vertically upwards, On the basis of above information. Answer the following questions. The time after which string become tight is at t = ......... seconds:

Two blocks each of mass m are connected over two light and frictionless pulleys and a fixed wedge by a light string as shown in figure. The tension in the string is :

Two blocks, each having mass m, are connected with an ideal string through ideal pulleys on a frictionless fixed wedge as shown in the figure. The acceleration of the blocks is