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

In the figure shown if friction co-efficient of block 1 and 2 with inclined plane is mu_1=0.5 and mu_2=0.4 respectively, then find out the correct statement.

Two blocks of masses m, = 4 kg and m, = 2 kg connected by a massless rod slide down on an inclined plane of inclination 37 degree as shown in figure. If coefficient of friction of m_1 and m_2 with inclined plane are mu_1 = 0.75 and mu_2 = 0.25 respectively, then tension (T) in the rod is (g = 10 ms^-2)

Two blocks m_(1) = 4 kg and m_(2) = 2 kg connected by a weightless rod slide down a plane having an inclination of 37^(@) . The coefficient of dynamic friction of m_(1) and m_(2) with the inclined plane are mu_(1) = 0 .75 and mu_(2) = 0 . 25 respectively Find the common acceleration of the two blocks and tension in the rod Take is 37^(@) = 0.6 and cos 37^(@) = 0 .8 .

The two blocks A and B of equal mass are initially in contact when released from rest on the inclined plane. The coefficients of friction between the inclined plane and A and B are mu_(1) and mu_(2) respectiely. Friction is not sufficient to prevent slipping.

In the arrangement shown in figure coefficient of friction between 5kg block and incline plane is mu=0.5 . Friction force acting on the 5kg block is

A plank of mass 10kg rests on a smooth horizontal surface. Two blocks A and B of masses m_(A)=2kg and m_(B)=1kg lies at a distance of 3m on the plank as shown in the distance of 3m on the plank as shown in the figure. The friction coefficient between the blocks and plank are mu_(A)=0.3 and mu_(B)=0.1 . Now a force F = 15 N is applied to the plank in horizontal direction. Find the time after which block A collides with B.

A 60 kg block is pushed up on inclined plane by means of a horizontal push P as shwon in the figure . The coefficients of friction between the incline and block are mu_(s) = 0.6 and mu_(k) = 0.4 and the ramp makes an angle of 30^(@) with the horizontal . (a) What value of P is required to move the block at a constant speed of 0.20 m/s along the incline ? (b) If the person should stop for rest and let P = 0 , does the block slide back on the incline ?

Consider the situation as shown in the figure. If mu_(1) is the friction coefficient between block A and incline and mu_(2) is the friction coefficient between block B and incline. Find the acceleration of block A if (a) mu_(1) = (1)/(5) , mu_(2) =(2)/(5) and (b) mu_(1) = (2)/(5) , mu_(2) = (1)/(5) .