Three carts move on a frictionless track with masses and velocities as shown. The carts collide and stick together after successive collisions. Find the total magnitude of the impulse experience by `A`.
`m_(1)=3kg, m_(2)=1kg, m_(3)=2kg`
`v_(1)=1m//s, v_(2)=1m//s, v_(3)=2m//srarr+ve`

Three carts move on a frictionless track with inertias and velocities as shown. The carts collide and stick together after successive collision. (a) Find loss of mechanical energy when B & C stick together. (b) Find magnitude of impulse experienced by A when it sticks to combined mass (B" & "C) .

Three blocks are connected as shown in the fig on a horizontal frictionless table if m_(1)=1kg, m_(2)=8kg, m_(3)=27 kg and T_(3)=36N, T_(2) will be:

Three blocks are connected as shown in figure on a horizontal frictionless table. If m_(1)=1kg , m_(2)=8kg , m_(3)=27kg and T_(3)=36N , T_(2) will be.

Three blocks are connected as shown in fig. on a horizontal frictionless table if m_(1)=1 kg, m_(2)=8kg, m_(3)=27kg and T_(3)=36N, T_(2) will be:-

Three blocks are connected as shown in fig. on a horizontal frictionless table if m_(1)=1 kg, m_(2)=8kg, m_(3)=27kg and T_(3)=36N, T_(2) will be:-

Three blocks are connected as shown in fig. on a horizontal frictionless table if m_(1)=1 kg, m_(2)=8kg, m_(3)=27kg and T_(3)=36N, T_(2) will be:-

In fig. both pulleys and the string are massless and all the surfaces are frictionless. Given m_(1)=1kg, m_(2)= 2kg, m_(3)=3kg . The acceleration of m_(1) is

In fig. both pulleys and the string are massless and all the surfaces are frictionless. Given m_(1)=1kg, m_(2)= 2kg, m_(3)=3kg . The acceleration of m_(1) is

In fig. both pulleys and the string are massless and all the surfaces are frictionless. Given m_(1)=1kg, m_(2)= 2kg, m_(3)=3kg . The acceleration of m_(3) is

In fig. both pulleys and the string are massless and all the surfaces are frictionless. Given m_(1)=1kg, m_(2)= 2kg, m_(3)=3kg . The acceleration of m_(3) is