In the figure shown, `m_(1)` = 10kg, `m_(2)` = 6kg, `m_(3)` = 4kg. If `T_(3)` = 40 N, `T_(2)` = ?

m_(A) = 1 kg, m_(B) = 2 kg, m_(C) = 10 kg

In the figure shown m_(1) = 1 kg , m_(2) = 2 kg , pulley is ideal . At t = 0 , both masses touches the ground and string is tout . A force F = 2t is applied to pulley ( t is in second ) then m_(1) is lifted off the ground at time ( g = 10 m//s^(2))

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 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 the figure If m_(1)=5kg, m_(2)=10kg and m_(3)=15kg , find the tension T_(1) given that T_(3)=60N

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.

In the figure shown m_(1)=5 kg,m_(2) = 10 kg & friction coefficient between m_(1) & m_(2) is mu=0.1 and ground is frictionless then :

Three block are connected as shown, on a horizontal frictionless table and pulled to the right with a force T_(3) = 60 N. If m_(1) = 10 kg , m_(2) = 20 kg and m_(3) = 30 kg, the tension T_(2) is-