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 :

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

In the shown diagram m_(1)=m_(2)=4kg and m_(3)=2 kg . Coefficient of friction between m_(1) and m_(2) is 0.5. The mass m_(1) is given a velocity v and it just stops at the other end of the mass m_(1) in 1 sec. Let a_(1) and a_(2) and a_(3) be the acceleration m_(1),m_(2)and m_(3) respectively, then :

In the figure shown, if friction coefficient of block 1 kg and 2kg with inclined plane is mu_(1) = 0.5 and mu_(2) = 0.4 respectively, then

When force F applied on m_(1) and there is no friction between m_(1) and surface and the coefficient of friction between m_(1)and m_(2) is mu. What should be the minimum value of F so that there is on relative motion between m_(1) and m_(2)

When force F applied on m_(2) and there is no friction between m_(1) and surface and the coefficient of friction between m_(1) and m_(2) is mu… What should be the minimum value of F so that there is no relative motion between m_(1) and m_(2)

In the figure , masses m_(1) , m_(2) and M are 20 kg , 5 kg and 50 kg respectively . The coefficient of friction between M and ground is zero . The coefficient of friction between m_(1) and M and that between m_(2) and ground is 0.4 . The pulleys and the string are massless . The string is perfectly horizontal between P_(1) and m_(1) and also between P_(2) and m_(2) . The string is perfectly vertical between P_(1) and P_(2) . An external horizonal force F is applied to the mass M . (Take g = 10 m //s^(2)) (a) Draw a free body diagram for mass M , clearly showing all the forces . (b) Let the magnitude of the force of friction between m_(1) and M be f_(1) and that between m_(2) and ground be f_(2) . For a particular F it is found that f_(1) = 2f_(2) . Find f_(1) and f_(2) . Write down equation of motion of all the masses . Find F , tension in the string and acceleration of the masses .

When force F applied on m_(1) and surface. Is mu_(1) and the coefficient of friction between m_(1) and m_(2) is mu_(2). What should be the minimum value of F so that there is no relative motion between m_(1) and m_(2).

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))

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

Find M (in kg ) for which m_(2) will start sliding over m_(1) .Table on which m_(1) and m_(2) are placed is smooth, mu is the friction coefficient between m_(1) and m_(2) . (Given : m_(1) =2kg, m_(2) =1kg, mu =0.5, g=10 m/s^(2) )