The three rods of the previous problem are connected symmetrically as shown. Find the `M.I.` about `(1)-(1), (2)-(2)` and `(3)-(3)`

In the previous problem , if the collision is inelastic and e = 1//2

Three thin, uniform, indentical rods each or mass M and length L are joined as shown. Find the M.I. about an axis passing through O and perpendicular to the plane.

Three particles A , B and C of masses m , 2m and 3m are placed on a straight line of length 2L as shown. Find the M.I. about an axis passing through B and perpendicular to the line AC .

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 masses M_(1), M_(2) and M_(3) are lying on a frictionless table. The masses are connected by massless threads as shown. The mass M_(3) is pulled by a constant force F as shown. The tension in the thread between masses M_(2) and M_(3) is

Three masses M_(1), M_(2) and M_(3) are lying on a frictionless table. The masses are connected by massless threads as shown. The mass M_(3) is pulled by a constant force F as shown. The tension in the thread between masses M_(2) and M_(3) is

Three masses M_(1), M_(2) and M_(3) are lying on a frictionless table. The masses are connected by massless threads as shown. The mass M_(3) is pulled by a constant force F as shown. The tension in the thread between masses M_(2) and M_(3) is

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 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:-